CN111196437A - Online fruit purchasing system and transportation method thereof - Google Patents

Abstract

The online fruit purchasing system comprises a purchasing end module, a processing module and a supplying module, wherein the purchasing end module is used for displaying relevant information of various fruits and receiving relevant information of a fruit purchasing provider, the processing module generates an order according to the relevant information of the fruit purchasing provider and the relevant information of the fruit, and the supplying end module receives the order so that a fruit supplier can obtain the fruits according to the order information and appoint a conveying end to convey the fruits to the fruit purchasing provider after packaging the fruits by adopting a fluid packaging bag.

Description

Online fruit purchasing system and transportation method thereof

Technical Field

The invention relates to the field of online marketing of fruits, and further relates to an online fruit purchasing system and a transportation method thereof.

Background

With the development of e-commerce, consumers are more and more interested in online shopping due to convenient and high-quality services. Even if people can not go home, people can purchase goods from the south, the north and the south, and most representatives of the goods are fruits. Fruits that are generally popular with people, such as strawberry, blueberry, grape, pomegranate, apple, pear, cherry, peach, watermelon, cantaloupe, bayberry, mango, dragon fruit, guava (guava), and banana, among others. It is well known that the origin, temperature or humidity of the fruit play a decisive role in its quality and taste, and it is always desirable to be able to taste the fruit from the best origin. The demand of people can be met by online shopping, so that the banana from Hainan, or longan from Fujian, or citrus gong from Guangdong, or grape from Turpan in Xinjiang can be eaten by customers in the northeast of China within one or two days.

However, the current online shopping transportation mode is too general, and for all fruits, the same packaging and transportation mode is mostly adopted, namely, foam boxes are used for transporting, the fruits are not transported according to the storage and transportation environment conditions of certain fruits, so that the fruits cannot adapt to long-distance transportation and are rotten, for example, when berry fruits are transported to the north, the fruits are frozen due to too low temperature, or when pears, apples and the like are transported to the south, the fruits are rotten due to too high temperature and humidity, and the taste is influenced.

Especially for grapes, after ripening, fruits are spherical or elliptical, the diameter is 1.5-2cm, hanging growth is carried out, 10-50 fruits are hung, the fruits are 7-18cm long and 6-16cm wide, are inverted cone-shaped, thin in skin, soft in pulp, belong to berry type, the fruit period is 8-9 months, the ripening temperature is about 20-30 degrees, the storage temperature is about 0-10 degrees, the oxygen concentration is 2-3%, the carbon dioxide concentration is 2-5%, and the humidity is 90-95%. The main producing areas in China include early-maturing type mountain grapes in the northern areas of Jilin, Heilongjiang and Liaoning, grape cultivation areas in the northern areas of China and Bohai Bay, grape cultivation areas in the northwest areas and loess plateaus such as Turpan grapes, huge-peak-series varieties in tropical grape cultivation areas in south Asia such as Qinling mountains, Huaihe and the like which are created in recent years, and high-altitude grape cultivation areas in the precious plateau areas and the western areas of Sichuan. The traditional online shopping transportation method comprises the steps that after an order is received, a fruit dealer adopts a foam box to package grapes in a self-contained mode, then the grapes are transported to a city where a consumer is located through an express delivery vehicle, and then the grapes are dispatched to the home of the consumer through a courier. Due to the fact that the grape producing areas are different greatly in geographic positions, for example, in the areas of Guangdong and Hainan in 8-9 months, the temperature can reach nearly 40 degrees, when customers in the Guangdong buy the amur grape from Heilongjiang, if foam boxes or cartons are used for transportation, most of the grapes are rotten due to the fact that the temperature difference is too high on the way of transporting to the Guangdong. Therefore, the traditional online shopping transportation method cannot be suitable for transporting the grapes to a place with large temperature difference, and the grapes can still be kept fresh and delicious. In addition, the use of the foam box causes great pollution to the environment.

In addition, during the mature period of grapes, fruit growers usually wrap the grapes with fruit bags such as paper bags to ensure the grapes are completely mature, and after picking, the grapes are wrapped with dry fruit bags and then placed in packing boxes for transportation. In the traditional online shopping mode, the fruit supplier or fruit grower is disconnected from the online order, so that the consumer cannot eat the grapes which are just picked. Generally, in the grape ripening season, a fruit supplier or a fruit farmer, whether or not receiving a network order, needs to pick the grapes off and then store the grapes to prevent the grapes from being over-ripe, and when the order comes temporarily, the fruit supplier or the fruit farmer usually packages the grapes which are picked for several days or even ten days and then transports the grapes to a consumer, so that the grapes which are eaten by the consumer still have been picked for several days or even ten days earlier although the transportation time is only 1-2 days, the original freshness of the grapes is lost, even the inner part of the grapes is rotten, the fresh grapes cannot be eaten by the consumer, the taste is poor, and the physical health is damaged.

Especially for grapes planted in greenhouses, the grapes are different in ripening time, and the grapes are particularly weak in storage and transportation in the traditional online shopping mode, so that a large number of grapes are damaged due to uncomfortable environment on the way, and extremely bad eating experience is brought to consumers.

Especially in recent years, with the rapid development of the express delivery industry, more and more people tend to order the strawberry products on line, but the strawberry products ordered on line can reach the hands of purchasers after long-time transportation, in the process, less than one or two days are needed, more than two or three days are needed, and many strawberry products are damaged in the transportation process.

And the strawberry with mechanical damage is broken, the cell wall of the strawberry is broken, sugar and water in the strawberry can overflow from the mechanical damage, the sugar and the water are good nutrient bases for bacteria, the bacteria can quickly breed under the condition, and even the whole strawberry can be polluted. When the strawberry polluted by bacteria is eaten by a user, the health of the user is greatly influenced.

In the transportation process of traditional berry fruits such as strawberries, blueberries, cherries and the like, for example, in order to prevent mechanical damage of strawberries in the transportation process, a common practice is to place a foam board and other buffer materials in a box body of the transported strawberries, but the foam board buffer materials can prevent collision between the transported strawberries and the transportation box body to a certain extent, but cannot effectively avoid and/or reduce collision and friction between the transported strawberry products, and cannot well ensure that the transported strawberry products are not mechanically damaged in the transportation process.

On the other hand, since berry products have different shapes and sizes, and the space surrounded by the cushioning material such as the foam board is constant, the transported strawberries often cannot be completely in contact with the cushioning material such as the foam board, and there are often gaps of different sizes between the transported strawberries and the cushioning material such as the foam board. In the transportation process, the strawberry inevitably bumps, and the mechanical damage of the strawberry can also occur to a certain extent due to the collision of the transported strawberry with a buffer material such as a foam board and the like in the bumping process.

Furthermore, when the strawberry product is transported in summer, ice blocks are often placed between the transported strawberries and the buffer materials such as the foam boards, so that the transported strawberries are kept in a low-temperature environment, and the strawberry product is prevented from rotting and deteriorating in the transportation process in the high-temperature environment in summer. However, this practice increases the investment in refrigeration costs during transportation, and certainly increases the overall transportation costs.

Moreover, when the strawberry products are transported in winter, the strawberry products are inevitably transported to northeast, inner Mongolia, Xinjiang and other places, which are very cold in winter, sometimes the temperature may be kept at minus ten degrees for a long time, and in addition, the areas belong to remote areas, which undoubtedly increases the time consumed in the transportation process, and the strawberry products are easily frostbitten in the transportation process for a long time under such environmental conditions. In general, in order to prevent the transported strawberry products from being frozen and damaged in such a severe transport condition, it is a common practice to fill an insulation material between the strawberry products and the box during transport so as to maintain the ambient temperature around the strawberry products and prevent the strawberry products from being damaged during transport under a low temperature condition. However, this also increases the cost of transportation, and the filled insulation material is usually used once and discarded after use, which also causes environmental pollution.

On the other hand, in the traditional strawberry production and transportation process, berry products purchased by consumers are often collected and stored after being picked once, then are transported to various places collectively, and finally enter the hands of buyers, or are collected and stored, and then are transported by express delivery to enter the hands of the buyers.

In the process of the traditional strawberry product production and transportation method, on one hand, a user can hardly purchase fresh strawberries at the first time, and on the other hand, a purchaser can not select the production place and the manufacturer of the strawberries, in other words, the quality of the strawberry products purchased by the purchaser can not be guaranteed.

Particularly, after the pomegranate is ripe, the pomegranate is round in shape, the diameter can reach about 10 centimeters, the pomegranate belongs to multi-chamber and multi-subclass berries, the outer skin is hard, the pulp is juicy and easy to damage, the pomegranate is generally ripe in 9-10 months and generally grows in temperate zones and tropical zones, in China, the main production places and varieties comprise big red and sweet pomegranates which are available in Shanxi province, pure skin and sweet pomegranates, green tangerine peel pomegranates or Taishan mountain red and the like of Shandong jujube village, Yu pomegranates, Yu big seed pomegranates, big red and sweet and the like in Henan province, the storage environment of Anhui Huayuan, Sichuan province and Yunan province is generally suitable for the temperature of 3-5 degrees, the maximum temperature of not more than 8 degrees and the minimum temperature of not less than 0 degree, the relative humidity of air of 85-95%, and when the pomegranate is stored at the temperature of 30 degrees. The traditional online shopping transportation method comprises the steps that after an order is received, a fruit manufacturer adopts a foam box to package pomegranate in a whole mode, then the pomegranate is transported to a city where a consumer is located by an express delivery vehicle, and then the pomegranate is distributed to the home of the consumer by a courier. Therefore, when 9-10 parts of pomegranate are already in autumn, particularly in northeast areas, the temperature can reach below zero, and if the pomegranate is transported by using the foam box, most of the pomegranate is frozen and rotten on the way to the northeast. In addition, in places such as Guangdong, Fujian and Hainan provinces, the weather can reach more than 30 degrees, and the pomegranate is also likely to rot, deteriorate and the like in the transportation process of the pomegranate. Therefore, the traditional online shopping transportation method can not be suitable for transporting the pomegranates to places with large temperature difference at all, and the pomegranates can still be kept fresh and delicious. In addition, the use of the foam box causes great pollution to the environment.

And fruits such as apples, pears, peaches, cherries and the like, such as apple trees planted by apple growers in dozens of or even hundreds of acres, have million jin of output, and apples are mature in large batches, and need to be stored in a refrigeration house after being picked in large batches in order to prevent decay and prolong the preservation period. If the fruits are not packaged by sufficient storage fresh-keeping capacity to pass the winter, a large number of apples of the same species are on the market, the supply and demand are over, the market price is reduced all the way or even lost, the profit of fruit growers is naturally reduced or even lost, especially along with the continuous development of agricultural science and technology, the yield of the fruit growers is more and more, and the storage fresh-keeping problem of the apples is increasingly prominent. However, the cost for constructing a large-scale fresh-keeping warehouse is too high, a place where fruit growers gather may have government support, and the cost for automatically constructing the fresh-keeping warehouse for most scattered fruit growers is high, which is not worth.

During transportation or distribution, cold chain transportation is used by the shippers in order to prolong the apple shelf life. The costs of cold chain transportation are naturally higher compared to normal transportation. Meanwhile, in order to protect the apples, fruit growers or transporters use the foam nets for packaging, but the foam nets have limited buffer protection capability, the apples still can be impacted when the impact force is large, and the apple foam nets still can transmit the impact force to the surfaces of the apples, so that the apples are injured.

That is, there are problems with the traditional transportation of cold chains, foam nets and cartons. The carton has poor air permeability, and for apples needing aerobic respiration and respiration transition or apples with high humidity requirements, the closure of the carton hinders the respiration of the apples and the discharge of water vapor. And the humidity in the cold chain transportation process of the apples is higher than that of the external environment, and the water vapor which cannot be discharged can easily cause the apples to rot.

In addition, a cold chain transportation mode is carried out by using the foam box package, but the foam box occupies a large area and is not beneficial to storage and standby. For fruit growers who need to guarantee millions of jin of apples, the foam boxes to be used also need space for storage in addition to the apples needing space for storage.

For another example, during transportation of the guava, the harvest period of the guava is mostly concentrated in high-temperature and high-humidity seasons, the guava grows in high-temperature and high-humidity climatic regions, fruits are thin in skin, thick in flesh and juicy, easy to cause mechanical damage, easy to rot and physiological loss, high in respiratory metabolism, strong in transpiration effect, easy to dehydrate, capable of increasing respiration and dilute biosynthesis, and prone to withering, softening and browning of the fruits, so that the fruits are prone to being infected by pathogenic bacteria and insect pests in the production process, and prone to being corroded and lose edible value. Therefore, the loss of the guava is large in the process of storage and transportation, and therefore, the storage, preservation, processing and utilization of the guava need to be enhanced in the process of transportation and storage of the guava, so that the loss is reduced, the economic benefit is improved, and the production and development of the guava are further promoted.

For the above reasons, it is necessary to add a refrigerating device in the transportation of the ballet, or to place the ballet in a refrigerating vehicle, to provide a low temperature environment for the transportation of the ballet, thereby effectively reducing the transpiration of the ballet and decreasing the rotten rate of the ballet.

There are often problems with storing, transporting, and selling the ballets. Taking the ballet as an example, because the ballet is easy to deteriorate and damage when being collided by external force, and the quality and the taste of the ballet are influenced, the packaging and buffering of the ballet are particularly important when the ballet is stored, transported and sold.

When a plurality of guava are placed in the same storage space during transportation of the guava, if a particular guava is damaged or deteriorated and mildewed, stains are stained on the remaining guava in the packaging space, deterioration of the guava is accelerated, and other guava is stained with stains, so that the value of the guava is reduced, and the purchase desire of consumers is reduced.

Further, since the size of the ballets is small, the price of the individual ballets is low, if each ballet is buffered by the individual package in order to prevent mutual collision between the ballets, resulting in an excessively high packaging cost, which is not matched with the value of the ballets.

It is worth mentioning that the packaging mode of packaging and transporting by corrugated paper or foam is expensive compared with the plastic bag packaging, and the manufacturing materials of the corrugated paper and the foam are substances which cause serious environmental pollution, so that the packaging box made of the corrugated paper or the foam is relatively polluted and is not beneficial to the sustainable development of the environment.

For guava, preservation is most important to preserve the moisture inside the fruit. After harvesting, dehydration during transportation is inevitable for guava, which also consumes part of the water due to its respiratory metabolism. This partial loss of water is normal. During transportation, too fast air flow or too high temperature in the inner space for storing the guava can cause the accelerated loss of moisture.

On the specific transportation of the ballet sales process, the buyer and the seller are out of synchronization of information due to unsmooth information between fruit growers and wholesalers and purchasing, so that the product is lost or the price is unreasonably shown, the storage cost of the ballet is high, the rotting speed is high, and the cost and money loss of the ballet selling party are increased. Therefore, a contact channel between the ballet seller and the buyer is increased, so that the mature ballet can be sold and processed timely and effectively, and the method is an effective mode for improving the profit of fruit growers. Further, when the purchaser can directly contact the fruit grower and directly purchase the ballet from the ballet park, the ballet of a lower selling price can be acquired. Similarly, the same problem arises when transporting and storing small items similar to eggs, such as light bulbs, balles. Because the express transportation industry is developed at present, the consumption of packaging materials for transporting packages every day is huge, so that the invention has low manufacturing cost and convenient use, and has great significance for small article transportation devices with relatively small environmental pollution.

Disclosure of Invention

An object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which integrate fruit suppliers such as fruit growers, fruit sellers, etc., e-commerce platforms, transportation terminals, and fruit purchasers such as consumers, fruit venues, etc., so that fruits are marketed in a streamlined manner.

Another object of the present invention is to provide an on-line fruit purchasing system and a transportation method thereof, which enables a fruit purchaser to purchase fruits of a designated place of production, variety, time (season), etc.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, which can provide a suitable storage and transportation environment for greenhouse planted fruits according to the season and time, and the temperature and humidity of the transportation route, etc., to ensure the freshness and the palatability of the fruits.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which uses fluid bags such as air bags to store and transport fruits, and uses air buffering to protect the fruits and increase the heat preservation effect, thereby reducing environmental pollution and providing a more excellent storage environment, compared to the conventional foam box.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can be adapted to transport fruits to a place with a large temperature difference, and still maintain the freshness and taste of the fruits, and reduce the damage rate of the fruits.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can provide a suitable environment for storing and transporting fruits according to the relevant information of a fruit purchaser when receiving an order from the fruit purchaser, so as to prevent the fruits from being damaged due to differences in geographical location, temperature or humidity, etc.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can enable consumers to eat fruits picked just before transportation, so as to ensure the freshness of the fruits and improve the eating taste.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can enable a fruit supplier to pick fresh fruits instead of fruits which have been picked for several days or even more than ten days when an order of a fruit purchaser arrives, so as to ensure the taste of consumers.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can receive the order from a fruit supplier, pick and package fruits, and then transport the fruits to the fruit supplier via a designated transportation end.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can receive the order from the transportation terminal, and then designate the fruit supplier, pick and pack the fruit, and then transport the fruit to the fruit purchaser.

The invention also aims to provide an online fruit purchasing system and a transportation method thereof, which have the advantages of wide applicability, high efficiency and high quality.

It is another object of the present invention to provide an online shopping fruit system and a transportation method thereof, wherein in the method, a fruit consumer can purchase fresh fruit products directly from a fruit grower, and the purchased fruit products are wrapped by an air bag, which can effectively protect the fruit products during the transportation of the fruit.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, in which fruits are directly transported to the purchaser's hands after being picked, thereby reducing the number of steps in the transportation process and simplifying the transportation process.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein a fruit supplier picks fruits according to order information, and then directly packages and transports the picked fruits to a fruit purchaser.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the inflatable packaging bag uses gas as a buffer material, which not only can protect the packaged and transported fruit products, but also can reduce the transportation cost of the buffer material, thereby facilitating the use of the packager.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the inflatable packaging bag has a good thermal insulation effect after being inflated with gas, and can provide a good temperature environment for the packaged fruit product for a long time.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the fruits are picked and directly placed into a fluid packaging device for storage and protection, so that the fruits are always protected by the fluid packaging device from the beginning in the whole transportation chain, and the breakage rate of the fruits is reduced.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the fruits are directly packaged and protected by the fluid packaging device after being picked, and then distributed to the fruit purchasing users, so as to save the steps of refrigeration, preservation and storage, and save the storage space.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the fruits are directly packaged and protected by the fluid packaging device and distributed after being picked, so that the purchasers can obtain the fruits as fresh as possible.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can reduce the damage rate of fruits, prolong the fresh-keeping period of fruits, and further enlarge the sales and distribution radius of fruit suppliers by storing the fruits using the fluid packaging device.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can reduce or even avoid the cost of cold chain transportation by utilizing the heat preservation performance of the fluid packaging device.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which utilize the heat preservation performance of the fluid packaging device to preserve heat of fruits transported in winter, thereby preventing the fruits from being frozen and damaged by the cold and hot environment.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which utilize the heat preservation performance of the fluid packaging device to prevent the heat of the external environment from being conducted to the inside, so that the fruits can be kept at normal temperature or even low temperature as far as possible, and further, cold chain transportation is not required.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein when fruits need to be transported in a cold chain, the heat insulation performance of the fluid packaging device enables the refrigerant to be fully utilized, thereby improving the transportation efficiency.

The invention also aims to provide an online fruit purchasing system and a transportation method thereof, which utilize the heat insulation performance of the fluid packaging device to reduce the requirement on a fresh-keeping warehouse of fruit growers and save the cost.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can provide a breathing and moisture-removing channel for fruits by using the through holes of the fluid packaging device, so as to prolong the fresh-keeping period of the fruits and further enlarge the sales and distribution radius of the fruit supplier.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, which can make the fruit uniform in temperature, perform aerobic respiration, and discharge moisture during cold chain transportation or storage, especially during summer when the fruit needs cold chain transportation, by using the through holes of the fluid packaging device.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the fruits are directly protected by the fluid packing device after being picked, and the fruits are prevented from being stacked in a large batch and being crushed and collided with each other to cause damage. Fruit

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the fruits protected by the fluid packaging device can be protected by fluid buffering during transportation or distribution, and when the fruits are bumpy or dropped, the fluid packaging device can reduce the impact force, thereby protecting the fruits.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the fluid packaging device is planar before being filled with fluid, and is easy to fold and store, thereby saving storage space compared with the foam material used in the conventional method, and also saving transportation and storage costs of the whole fruit transportation chain.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, wherein the fluid packing device is designed in various types to fit different fruit shapes, so as to better protect the fruit and prolong the preservation period.

The invention also aims to provide an online fruit purchasing system and a transportation method thereof, which can reduce the fruit damage rate, prolong the protection period, reduce the cost and promote the further development of the fruit market in the links of fresh-keeping storage, transportation, delivery and the like.

The invention also aims to provide an online fruit shopping system and a transportation method thereof, which are combined with the modern internet technology and utilize an online sales platform to expand the fruit sales range and further expand the fruit market.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which utilize the fruit transportation business of a third party, make full use of the fluid packaging device, transport and distribute fruits, and extend the coverage of the online fruit transaction business.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein a fruit supplier, especially a fruit grower, receives an order by using an online trading platform, so as to increase the amount of the order, achieve direct delivery and delivery of picked fruits, and reduce the storage of stacked fruits.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, wherein the fluid packing device has stretchability, can be adapted to different shapes and different quantities of fruits, and facilitates a fruit supplier to meet different fruit order requirements compared to a fixed capacity of a foam box.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, by which a purchaser and a user can communicate with each other to improve the efficiency of fruit transaction.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can pick and deliver fruits directly at the place of production when a purchaser submits a purchase order, thereby ensuring the freshness of the fruits and reducing the storage cost of the fruits.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can deliver fruits according to purchase information submitted by purchasers, so as to improve fruit delivery efficiency.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, which package and transport fruits in a fluid packaging bag, wherein the fluid packaging bag is inflated by injecting fluid, so that the fruits can be effectively protected, and the damage of the fruits can be reduced.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which analyze fluid packaging bags required by a seller according to order information received by the seller and recommend the seller to purchase.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can transmit fruit information to purchasers.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, in which a purchaser can browse fruit information and select a purchase.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, through which a seller and a buyer can directly contact for transaction, thereby reducing the procedures for fruit distribution during the transaction process and reducing the cost.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which can distribute the fruit distribution mode and the fruit distributor, thereby improving the fruit trading efficiency.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, in which the fluid packing bag enables the packaged fruits and the like to perform moderate aerobic respiration, thereby resulting in anaerobic respiration of the fruits, thereby preventing the fruits from rotting and prolonging the freshness date of the packaged products.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the fluid packaging bag is designed according to the characteristics of the fruit, so as to effectively protect the quality of the fruit from rotting.

It is another object of the present invention to provide an online shopping fruit system and a transportation method thereof, wherein the fluid packing bag can transport and store the fruit without refrigeration and keep the fruit fresh.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, in which packaged fruits can be tightly wrapped by the fluid packing bag, thereby preventing the packaged fruits from being damaged due to collision or friction.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, wherein the fluid packing bag can provide a cushioning effect to the packed product, thereby preventing the packed product from being damaged due to dropping or collision.

One object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, which package fruits by using a multi-cell air-filled package bag, wherein the multi-cell air-filled package bag has a plurality of independent air cavities for individually placing a fruit, so as to protect and cushion the packaged objects.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the multi-compartment inflatable bag has a plurality of independent air compartments for individually placing a fruit therein, so as to prevent the fruit or small articles from being placed together and damaged due to collision.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the multi-compartment inflatable packaging bag is an inflatable sheet in an uninflated state at an initial state, is light and small in size, and is convenient to store and carry.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the multi-cell inflatable packaging bag uses the air bag as a buffer wall, and has the advantages of simple manufacturing material, low manufacturing cost and reduced manufacturing cost.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the multi-cell inflatable packaging bag uses the air bag as a buffer wall, and the material consumption of the multi-cell inflatable packaging bag is less, so that the environmental pollution caused by the post-use treatment of the multi-cell inflatable packaging bag is reduced.

Another object of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the multi-compartment inflatable packing bag includes a plurality of independent storage compartments for individually storing and protecting fruits and preventing the fruits from being damaged due to mutual collision when the fruits are stored in the same space.

Another objective of the present invention is to provide an online fruit purchasing system and a transportation method thereof, wherein the wall surface of the storage compartment is composed of air column sections, so as to effectively protect the articles in the storage compartment.

Another objective of the present invention is to provide an online shopping fruit system and a transportation method thereof, which can be used by injecting gas through the gas inlet to expand the cellular packing bag, and is simple in operation and time-saving.

Another object of the present invention is to provide an online shopping fruit system and a transportation method thereof, wherein the cellular packaging bag is inflated by injecting gas through the gas inlet when it is needed, and the gas columns of the cellular packaging bag are automatically closed without sealing the cellular packaging bag by a user.

The invention also aims to provide an online fruit purchasing system and a transportation method thereof, wherein the upper ring body and the lower ring body of the cellular packaging bag are respectively formed by arranging a plurality of inflatable columns, the inflatable columns are independent from each other after being inflated and are not communicated, and when the air leaks from individual inflatable columns, the air tightness of other inflatable columns is not influenced.

According to one aspect of the present invention, the present invention provides an online fruit purchasing system, which includes:

the purchasing end module is used for displaying the related information of each fruit and receiving the related information of a fruit purchaser;

a processing module; and

and the supply end module receives the order, so that a fruit supplier can obtain and select a fluid packaging bag to package the fruit according to the order information and then select a transportation end to transport the fruit to the fruit purchaser.

In some embodiments, the fluid packaging bag further comprises at least one fluid buffer body formed by at least two layers of fluid storage films, wherein the fluid buffer body comprises at least one fluid storage unit capable of storing fluid, and the fluid buffer body is bent and molded to form a containing cavity with at least one opening for containing the fruit.

In some embodiments, the fluid packaging bag has at least one air hole communicating the accommodating cavity and the external environment and at least one hole sealing seam, wherein the air hole is located in the hole sealing seam, and the hole sealing seam is in plastic sealing connection with the at least two layers of fluid storage films.

In some embodiments, the system further comprises a transportation end module, wherein the transportation module provides information related to each transportation end to the supply end module, so that the fruit supplier can select a suitable transportation end.

In some embodiments, the purchasing side module comprises a purchasing side interaction module, an information receiving module and a payment module, wherein the purchasing side interaction module displays the fruit-related information, responds to an operation instruction, receives the fruit-purchaser-related information and the fruit-related information by the information receiving module, pops up a payment interface, and determines the payment-related information of the fruit purchaser through the payment module to complete the transaction.

In some embodiments, the processing module includes an order generation module and a transmission module, and after the payment is completed, the order generation module generates the order and the transmission module transmits the order to the supplier module.

The invention also provides an online fruit purchasing system, which comprises:

the purchasing end system is used for displaying the related information of each fruit and receiving the related information of a fruit purchaser;

a processing module; and

and the transportation end module receives the order, so that a transportation end selects a fruit supplier to obtain the fruit according to the order information, selects the fruit with a fluid packaging bag to package the fruit and transports the fruit to the fruit purchaser.

In some embodiments, the fluid packaging bag is provided, wherein the fluid packaging bag comprises at least one fluid buffer body formed by at least two layers of fluid storage films, wherein the fluid buffer body comprises at least one fluid storage unit capable of storing fluid, and wherein the fluid buffer body is bent and molded to form a containing cavity with at least one opening for containing the fruit.

In some embodiments, the fluid packaging bag has at least one air hole communicating the accommodating cavity and the external environment and at least one hole sealing seam, wherein the air hole is located in the hole sealing seam, and the hole sealing seam is in plastic sealing connection with the at least two layers of fluid storage films.

The invention also provides a transportation method of the online shopping fruits, which comprises the following steps:

A. displaying the related information of each fruit for a fruit purchaser to select and purchase the fruit;

B. receiving the fruit purchaser related information;

C. generating an order according to the relevant information of the fruit purchaser; and

and sending the order to a supply end module so that a fruit supplier can obtain the fruit according to the order information, select a fluid packaging bag to package the fruit, and select a transportation end to transport the fruit to the fruit purchaser.

Drawings

Fig. 1 is a block schematic diagram of an online shopping fruit system according to a preferred embodiment of the present invention.

Fig. 2 is a schematic flow chart of the online fruit purchasing system according to the preferred embodiment of the invention.

Fig. 3 is a schematic block diagram of an online shopping fruit system according to a first variant of the above preferred embodiment of the present invention.

Fig. 4 is a schematic flow chart of the online fruit purchasing system according to the first variant of the above preferred embodiment of the invention.

Fig. 5 is a schematic flow chart of a method of the online fruit purchasing system according to the first variant of the above preferred embodiment of the invention.

Fig. 6 is a schematic flow chart of a method of the online fruit purchasing system according to the first variant of the above preferred embodiment of the invention.

Fig. 7 is a partial schematic view of a separate-type air-packing device provided in an online pomegranate system according to a first modified embodiment of the present invention.

Fig. 8 is a partial schematic view of a separate-type air-packing device provided in the online pomegranate purchasing system according to the first modified embodiment of the present invention.

Fig. 9 is a partial schematic view of a separate-type air-packing device provided in the online pomegranate purchasing system according to the first modified embodiment of the present invention.

Fig. 10 is a partial schematic view of a separate-type air-packing device provided in the online pomegranate purchasing system according to the first modified embodiment of the present invention.

Fig. 11 is an overall expanded view of the separate-type air-packing device provided in the online pomegranate purchase system according to the first modified embodiment of the present invention.

Fig. 12 is an overall packing diagram of the separate-loading type air-packing device provided in the online pomegranate purchasing system according to the first modified embodiment of the present invention.

Fig. 13 is a schematic packaging diagram of the split-charging type air-packing device provided by the online pomegranate purchasing system according to the first modified embodiment of the invention.

FIG. 14 is an overall packing diagram of a variation of the separate-type air-packing device provided in the online pomegranate system according to the first variation of the present invention.

FIG. 15 is an overall view showing the above-described variation of the separate-type air-packing device provided in the online pomegranate system according to the first variation of the present invention.

Fig. 16 is a schematic structural diagram of an overall block diagram of an online fruit purchasing system according to a second variant embodiment of the invention.

Fig. 17 is a schematic diagram of a user end of the online fruit purchasing system according to the second variant embodiment of the present invention.

Fig. 18 is a block diagram schematically illustrating a trading platform of the online fruit purchasing system according to the second variant embodiment of the invention.

Fig. 19 is a block diagram schematically illustrating a supply end of the online shopping fruit system according to the second modified embodiment of the present invention.

Fig. 20 is an overall block diagram of a second preferred embodiment of the online shopping fruit system according to the second variant embodiment of the invention.

Fig. 21 is a block diagram of a user end of a second preferred embodiment of the online fruit purchasing system according to the second variant embodiment of the invention.

Fig. 22 is a block diagram schematically illustrating a supplying end of a second preferred embodiment of the online shopping fruit system according to the second variant embodiment of the present invention.

Fig. 23 to 24 are block diagram flow charts of the first embodiment of the fruit packing transportation method according to the above second modified example of the present invention.

Fig. 25 to 26 are block diagram flow charts of a second embodiment of a fruit packing transportation method according to the above second modified embodiment of the present invention.

Fig. 27 is a block diagram flow chart of a third implementation of the fruit packing transportation method according to the second modified example of the invention.

Fig. 28 is a block diagram flowchart of a method of using the air-packing bag according to the above-described second modified embodiment of the present invention.

Fig. 29 to 30 are block diagram flow charts of a fourth embodiment of a fruit packing transportation method according to the above second modified example of the present invention.

Fig. 31 is a flow chart of fruit packing by a fruit supplier of a fruit transportation method according to a fourth variant embodiment of the invention.

Fig. 32 is a plan development of a first preferred embodiment of a fluid-packing device of a fruit transporting method according to the above fourth modified embodiment of the present invention.

Fig. 33 is a schematic structural view of a fluid packing device for a fruit transportation method according to the fourth modified embodiment of the present invention after three-dimensional forming in the first preferred embodiment.

Fig. 34 is a schematic view showing a fluid packing device for a fruit transporting method according to the fourth modified embodiment of the present invention, after the first preferred embodiment of the fluid packing device is filled with fluid.

FIG. 35 is a cross-sectional view of a fluid packaging apparatus for a fruit transportation method according to the fourth variant of the present invention after being filled into a stream in accordance with the first preferred embodiment.

Fig. 36 is a schematic view showing a configuration of a fluid filling valve of a fluid packing device of a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 37 is a schematic view showing another construction of a fluid filling valve of a fluid packing device of a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 38 is a schematic view showing another construction of a fluid filling valve of a fluid packing device of a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 39 is a perspective view showing the construction of the first fluid of the second preferred embodiment of a fluid packing device for a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 40 is a schematic plan view showing the structure of the first fluid buffering body of the second preferred embodiment of a fluid packing device for a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 41 is a schematic plan view showing the structure of the second fluid buffering body of the second preferred embodiment of a fluid packing device of a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 42 is a schematic view showing the application of the second preferred embodiment of a fluid packing device of a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 43 is a schematic view showing an application of the second preferred embodiment of a fluid packing device of a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 44 is a schematic plan view showing the structure of the first fluid buffering body of the modified example of the second preferred embodiment of a fluid packing device of a fruit transporting method according to the fourth modified example of the present invention.

Fig. 45 is a perspective view showing a fluid buffering body of a fluid packing device according to the above-described modified embodiment of a fruit transporting method according to the above-described fourth modified embodiment of the present invention.

Fig. 46 is a schematic plan view showing the structure of the second fluid buffering body of a modified embodiment of a fluid packing device for a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 47 is a schematic view of the second fluid buffering body of the above-described modified embodiment of a fluid packing device of a fruit transporting method according to the above-described fourth modified embodiment of the present invention after being flushed with fluid.

Fig. 48 is a schematic view showing an application of the above modified embodiment of a fluid packing device of a fruit transporting method according to the above fourth modified embodiment of the present invention.

Fig. 49 is a schematic view showing a first process of applying the above-described modified embodiment of a fluid packing device of a fruit transporting method according to the above-described fourth modified embodiment of the present invention.

Fig. 50 is a schematic view showing a second process applied to the above-described modified embodiment of a fluid packing device of a fruit transporting method according to the above-described fourth modified embodiment of the present invention.

Fig. 51 is a view showing the application of a modified embodiment of a fluid packing device of a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 52 is a schematic view showing another application of the above modified embodiment of a fluid packing device of a fruit transporting method according to the above fourth modified embodiment of the present invention.

Fig. 53 is a process diagram of another application of a variant embodiment of a fluid packaging unit of a fruit transportation method according to the fourth variant embodiment of the present invention.

Fig. 54 is a graph of temperature change of packaged and transported fruit according to a prior fruit transportation method.

Fig. 55 is a graph showing the temperature change of packed and transported fruit according to the fruit transporting method of the fourth modified embodiment of the present invention.

Fig. 56 is a transportation flow chart of a fruit transportation method according to the fourth modified embodiment of the invention.

Fig. 57 is a flow chart of order formation of a fruit transportation method according to the fourth variant embodiment of the present invention.

Fig. 58 is a system configuration view of a fruit transporting method according to the fourth modified embodiment of the present invention.

Fig. 59 is a structural view of a trading platform of a fruit transportation method according to the fourth modified embodiment of the present invention.

Fig. 60 is a plan development of a first preferred embodiment of a fluid-packing device of a fruit transporting method according to a fifth variant embodiment of the present invention.

Fig. 61 is a schematic structural view of a fluid packing device for a fruit transportation method according to the fifth modified embodiment of the present invention after three-dimensional forming in the first preferred embodiment.

Fig. 62 is a schematic view showing a fluid packing device for a fruit transporting method according to the fifth modified embodiment of the present invention after the first preferred embodiment of the fluid packing device is filled with fluid.

FIG. 63 is a cross-sectional view of a fluid packaging apparatus for a method of transporting fruit according to the fifth alternative embodiment of the present invention after being filled into a stream in accordance with the first preferred embodiment.

Fig. 64 is a schematic view showing a configuration of a fluid filling valve of a fluid packing device of a fruit transporting method according to the fifth modified embodiment of the present invention.

Fig. 65 is a schematic view showing another construction of a fluid filling valve of a fluid packing device of a fruit transporting method according to the fifth modified embodiment of the present invention.

Fig. 66 is a schematic view showing another construction of a fluid filling valve of a fluid packing device of a fruit transporting method according to the fifth modified embodiment of the present invention.

Fig. 67 is a schematic view showing a configuration after the fluid packing device of the first embodiment of the fruit transporting method according to the fifth modified embodiment of the present invention is filled with the fluid.

Fig. 68 is a view showing the application of a modified example of the fluid packing device of the first embodiment of a fruit transporting method according to the above-described fifth modified example of the present invention.

Fig. 69 is a block diagram illustrating the structure of an online fruit purchasing system and a method for a seller to sell fruits according to a sixth variant embodiment of the invention.

Fig. 70 is a block diagram of a sales client module of the online fruit shopping system and the method for selling fruits by a seller according to the sixth modified embodiment of the invention.

Fig. 71 is a block diagram of a purchasing client module of the online fruit purchasing system and the fruit selling method of the seller according to the sixth modified embodiment of the invention.

Fig. 72 is a block diagram illustrating the structure of a cloud platform for the online fruit shopping system and the fruit selling method of the seller according to the sixth modified embodiment of the present invention.

Fig. 73 is a schematic diagram showing the internal relationship between the online fruit purchasing system and the fruit selling method of the seller according to the sixth modified embodiment of the invention.

Fig. 74 is a block diagram illustrating the configuration of an embodiment of the fruit online shopping system and the fruit selling method of the seller according to the sixth modified example of the present invention.

Fig. 75 is a schematic diagram illustrating the internal relationship between an on-line fruit purchasing system and a method for a seller to sell fruit according to the sixth modified embodiment of the present invention.

Fig. 76 is a block diagram illustrating a structure of a packaging bag distribution system according to an embodiment of the fruit online shopping system and the fruit selling method of the seller according to the sixth modified example of the present invention.

Fig. 77 is a schematic structural view of the fluid packing bag according to the sixth modified embodiment of the present invention as it is unfolded in a plane.

Fig. 78 is a schematic structural view of the fluid packing bag according to the sixth modified embodiment of the present invention after being three-dimensionally molded.

Fig. 79 is a schematic structural view of the fluid packing bag according to the sixth modified embodiment of the present invention after being filled with fluid.

Fig. 80 is a schematic sectional view of the fluid packing bag according to the sixth modified embodiment of the present invention after being filled with fluid.

Fig. 81 is a sectional view of the fluid packing bag according to the sixth modified embodiment of the present invention after being filled with fluid.

Fig. 82 is a schematic view of a fluid packing bag having one fluid filling valve according to the sixth modified embodiment of the present invention as unfolded in plan view.

Fig. 83 is a schematic view showing a structure of a fluid filling valve of the fluid packing bag according to the sixth modified embodiment of the present invention.

Fig. 84 is a schematic view showing the construction of another fluid filling valve of the fluid packing bag according to the sixth modified embodiment of the present invention.

Fig. 85 is a schematic view showing the construction of another fluid filling valve of the fluid packing bag according to the sixth modified embodiment of the present invention.

Fig. 86 is a schematic view showing the structure of another fluid filling valve of the fluid packing bag according to the sixth modified embodiment of the present invention.

Fig. 87 is a schematic view showing a structure of the fluid packing bag according to the sixth modified embodiment of the present invention when it is unfolded in a plane.

Fig. 88 is a schematic structural view of the fluid packing bag according to the sixth modified embodiment of the present invention after being three-dimensionally molded.

Fig. 89 is a schematic structural view of the fluid packing bag according to the sixth modified embodiment of the present invention after being filled with fluid.

Fig. 90 is a schematic sectional view of the fluid packing bag according to the sixth modified embodiment of the present invention after being filled with fluid.

Fig. 91 is a schematic view showing an application of the fluid packing bag according to the sixth modified embodiment of the present invention.

Fig. 92 is a schematic cross-sectional view showing an application of the fluid packing bag according to the sixth modified embodiment of the present invention.

Fig. 93 is a schematic structural view of a fluid packing bag according to a modified example of the above-described sixth modified example of the present invention, when it is unfolded in a plane.

Fig. 94 is a schematic structural view of a fluid packing bag according to a modified example of the sixth modified example of the present invention after three-dimensional molding.

Fig. 95 is a schematic structural view of a fluid packing bag according to a modified example of the sixth modified embodiment of the present invention, after being filled with fluid.

Fig. 96 is a schematic sectional view of a fluid packing bag according to a modified example of the sixth modified example of the present invention, after being filled with fluid.

Fig. 97 is a schematic structural view of a fluid packing bag having four airing holes according to a modified example of the sixth modified embodiment of the present invention.

Fig. 98 is a plan view illustrating a fluid packing bag having four airing holes according to a modified example of the above-described sixth modified embodiment of the present invention.

Fig. 99 is a schematic view of an application of a fluid packing bag having four airing holes according to a modified example of the above-described sixth modified embodiment of the present invention.

Fig. 100 is a schematic sectional view illustrating an application of a fluid packing bag having four airing holes according to a modified example of the sixth modified embodiment of the present invention.

Fig. 101 is a schematic structural view of a fluid packing bag having six vents according to a modified example of the sixth modified embodiment of the present invention after being filled with fluid.

Fig. 102 is a plan view illustrating a fluid packing bag having six airing holes according to a modified example of the above-described sixth modified embodiment of the present invention.

Fig. 103 is a schematic structural view of a fluid packing bag having eight airing holes according to a modified example of the sixth modified embodiment of the present invention, after being filled with fluid.

Fig. 104 is a plan view illustrating a fluid packing bag having eight airing holes according to a modified example of the above-described sixth modified embodiment of the present invention.

Fig. 105 is a schematic view illustrating an application of a fluid packing bag having eight airing holes according to a modified example of the above-described sixth modified embodiment of the present invention.

Fig. 106 is a schematic sectional view illustrating an application of a fluid packing bag having eight vents according to a modified example of the sixth modified embodiment of the present invention.

Fig. 107 is a schematic view showing a structure of a fluid packing bag having twenty-one vents according to a modified example of the sixth modified embodiment of the present invention after being filled with fluid.

Fig. 108 is a plan view illustrating a fluid packing bag having twenty-one airing holes according to a modified example of the sixth modified embodiment of the present invention.

Fig. 109 is a schematic view showing a configuration of the fluid packing bag according to the sixth modified embodiment of the present invention when it is unfolded in a plane.

Fig. 110 is a schematic structural view of the fluid packing bag according to the sixth modified embodiment of the present invention after being three-dimensionally molded.

Fig. 111 is a schematic structural view of the fluid packing bag according to the sixth modified embodiment of the present invention filled with fluid to pack an article.

Fig. 112 is a schematic sectional view showing the configuration of the fluid packing bag package according to the above-described sixth modified embodiment of the present invention.

Fig. 113 is a schematic structural view of a fluid packing bag according to the above-described sixth modified embodiment of the present invention.

Fig. 114 is a schematic structural view of a fluid packing bag according to the above-described sixth modified embodiment of the present invention.

Fig. 115 is a schematic view showing a structure of the fluid packing bag according to the sixth modified embodiment of the present invention when it is unfolded in a plane.

Fig. 116 is a schematic structural view of the fluid packing bag according to the sixth modified embodiment of the present invention after being filled with fluid.

Fig. 117 is a schematic view of a fluid packing bag according to a modified embodiment of the sixth modified example of the present invention, as unfolded in a plane.

Fig. 118 is a schematic view of a structure of a cylindrical fluid packing bag according to a modified embodiment of the sixth modified example of the present invention.

Fig. 119 is a schematic view of a fluid sheet structure of a three-dimensional packing bag according to a modified embodiment of the sixth modified example of the present invention.

Fig. 120 is a schematic structural view of the stereoscopic packing bag according to one variation of the sixth variation of the present invention after being filled with fluid.

Fig. 121 is a schematic structural view of the stereoscopic packing bag according to one variation of the sixth variation of the present invention after being filled with fluid.

Fig. 122 is a schematic view of a divided packaging bag according to a variation of the sixth variation of the present invention, after being filled with fluid.

Fig. 123 is a schematic view of a structure of a divided packing bag according to a modified embodiment of the sixth modified example of the present invention after being filled with fluid.

Fig. 124 is a schematic view of a cardboard cellular packaging bag according to a variant of the sixth variant of the invention, after being filled with fluid.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and thus the above terms are not to be construed as limiting the present invention.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

As shown in fig. 1 to 124, the present invention provides an online fruit purchasing system and a transportation method thereof, which integrates fruit suppliers such as fruit growers and fruit sellers, e-commerce platforms, transportation terminals and fruit purchasers such as consumers and fruit venues, so that fruits are marketed in a flow manner. For example, the online shopping fruit system can be used for online selling of fruits such as strawberries, blueberries, grapes, pomegranates, apples, pears, cherries, peaches, watermelons, cantaloupes, waxberries, mangoes, dragon fruits, guava (guava), and bananas. For example, it can make the fruit purchasers purchase grapes of specified producing area, variety or time (season), etc., of course, the grapes can be grapes, syzygium jambos, taraxacum cumingii, calabash, prunus salicina or american black grape, etc., in this embodiment, the grapes refer to a grape or a box of grapes, etc., rather than a single one.

As shown in fig. 1 to 6, the online fruit purchasing system 500 according to the preferred embodiment of the present invention includes a purchasing module 510, a processing module 520, a supplier module 530 and a transportation module 540, wherein the purchasing module 510 is capable of displaying information related to fruits and receiving information related to a fruit purchaser, wherein the processing module 520 generates an order according to the information related to the fruit purchaser and the information related to the fruit purchaser, and the supplier module 530 receives the order, so that a fruit supplier obtains grapes according to the order information and then designates a transportation terminal to transport the grapes to the fruit purchaser, and the fruit purchaser refers to a grape distributor or a consumer. The transportation module 540 provides the transportation-end related information to the supply-end module 530 for the fruit supplier to select the transportation end for selecting the suitable transportation end for transportation.

In other words, the purchasing module 510 can display the price, quantity, variety, production area, store information, maturity, days picked, sweetness, fruit color or eating method of each grape. After the fruit purchaser determines to purchase a grape at the purchasing end module 510, the processing module 520 generates the order according to the relevant information of the grape and the relevant information of the fruit purchaser, such as name (internet name or anonymity), payment method, purchase quantity, contact method, address, financial status or future purchase status. When the fruit supplier receives the order from the supplier module 530, the fruit supplier picks up and packages the grape according to the order information, and the transportation module 540 selects a suitable transportation terminal to send the grape to the fruit purchaser according to the transportation efficiency, transportation route, transportation cost, transportation time, transportation vehicle, contact manner, etc. of each express company such as the transportation company of downwind, zhongtong, yunyan, declaration, china post, express delivery, courier delivery, roundabout, remittance, sincerity, etc. related information of each transportation terminal provided by the order information.

It should be noted that the fruit supplier can pick or obtain corresponding grapes according to the order information, and package the grapes according to the transportation route, transportation time, weather conditions, seasons and the like, so as to select a proper transportation end to transport the grapes, so as to ensure that the grapes still keep fresh taste when arriving at the destination.

It is understood that the fruit supplier may also search for a suitable transportation terminal without the related information of each transportation terminal provided by the transportation terminal module 540, or may distribute the fruit by itself or by a person in support thereof, so as to improve the distribution efficiency and ensure the freshness of the grapes.

The purchasing module 510 includes a purchasing module 511, an information receiving module 512 and a payment module 513, wherein the purchasing module 511 is preferably a display screen such as a mobile phone screen, a computer or a tablet screen, and is connected to a communication terminal of the fruit purchaser for displaying information related to each fruit for the fruit purchaser to view and select to purchase. The purchasing side interaction module 511 can respond to an operation instruction, the information receiving module 512 receives the fruit related information and the fruit purchaser related information, and pops up a payment interface, the payment module 513 determines that the payment related information of the fruit purchaser is the confirmed payment, and then the processing module 520 generates the order and sends the order to the supplying side module 530 to provide the grape, thereby completing the transaction.

It can be understood that the purchasing end interaction module 511 may be a touch-type screen or a camera-type screen, that is, the operation instruction may be the sliding screen of the fruit purchaser, may be a click screen, may be a click mouse or a button press, may be a shake of the communication terminal, may be a photograph image such as a face recognition, may be a fingerprint verification, and the like, which is not required herein.

That is, when the fruit purchaser selects the grapes to be purchased at the purchasing side interaction module 511, and operates the operation instruction to purchase the grapes, the information receiving module 512 receives the fruit-related information and the fruit purchaser-related information, generates a payment-related information by the payment module 513, and accordingly pops up the payment interface at the purchasing side interaction module 511, and the fruit purchaser checks and confirms the payment information to complete the payment. The payment interface displays the purchase quantity, unit price and total price, coupon information, and related information of the fruit purchaser such as address, name, contact way, etc., or related information of payment such as anonymous purchase, purchase confirmation and payment way, etc., without any requirement. The payment mode can be payment treasure, WeChat, bank, K treasure and the like.

Preferably, in the purchasing side interaction module 511, in response to the operation instruction, the purchasing side interaction module 511 sends a purchase related information to the information receiving module 512, where the purchase related information may be the variety, quantity, production place, price, etc. of the grapes that the fruit purchaser needs to purchase.

In this embodiment, the information receiving module 512 includes a fruit related information obtaining module 5121, a fruit purchaser related information obtaining module 5122, and a storage module 5123, wherein the storage module 5123 is configured to store the fruit related information and the fruit purchaser related information. Preferably, the fruit-related information may be obtained from a network or stored by manual input, the fruit-purchaser-related information may be stored by input from the fruit purchaser or may be copied and pulled at the communication terminal, and of course, both the fruit-related information and the fruit-purchaser-related information may be modified to suit the needs. After responding to the operation instruction, the fruit-related information obtaining module 5121 obtains the fruit-related information from the storage module 5123, or from a network or a manual input, and the fruit-purchaser-related information obtaining module 5122 receives the purchase-related information and obtains the fruit-purchaser-related information from the storage module 5123, so that the payment module 513 can generate the payment-related information to complete the payment.

It is worth mentioning that after each purchase is finished, the storage module 5123 stores the last purchase information for the user to view or use next time.

The fruit-related information may be information on the price, number, variety, production area, store or fruit grower information, maturity period, picking days, sweetness, temperature, fruit grain type, color or eating method of the grapes. The fruit purchaser related information may be related information such as name (internet name or anonymity), payment method, purchase quantity, contact method, address, transportation method, arrival time, packaging form, personal financial status, family financial status, current purchase status, and personal edit bar, which can be inputted by the fruit purchaser to make self-demand.

That is, the fruit purchaser can choose to purchase a designated place of production, a designated variety, a designated temperature, a designated number of picking days, such as grapes, preferably plucked on the spot, a designated store, such as a fruit grower, etc., to meet the needs of the fruit purchaser in terms of taste or taste.

In this embodiment, the purchasing module 510 further includes a fruit related information editing module 514 and a purchasing side related information editing module 515, wherein the fruit related information editing module 514 is configured to edit or record the fruit related information, and transmit the fruit related information to the purchasing side interaction module 511, so that the fruit purchasing side can know the information related to the grapes, so as to select to purchase the grapes required by the purchasing side. Of course, the fruits related information editing module 514 can correspondingly bind the grapes to the supplier modules 530 of different fruit suppliers according to the fruit related information, so as to supply the grapes in a targeted manner and improve the supply efficiency. The buyer-related information editing module 515 is configured to edit or record the fruit buyer-related information, and store the fruit buyer-related information in the storage module 5123, so that the information receiving module 512 extracts the fruit buyer-related information to complete the order.

The processing module 520 includes an order generating module 521 and a transmission module 522, wherein after the payment is completed, the order generating module 521 generates the order according to the fruit related information and the fruit purchaser related information, and the transmission module 522 sends the order to the supplier module 530, so that the supplier module 530 can complete the demand of the fruit purchaser.

In this embodiment, the transmission module 522 includes an analysis module 5221 and a matching module 5222, when the order generation module 521 generates the order, the analysis module 5221 analyzes and generates a supply scheme according to the order information, the matching module 5222 matches the supplier module 530 according to the supply scheme, and sends the order to the supplier module 530, so as to designate a suitable fruit supplier to supply the grape.

That is to say, the transmission module 522 can match the supplier module 530 corresponding to the fruit supplier, which can satisfy these requirements, according to the information of the order, such as the variety, price, production area, fruit type, color, sweetness, etc. of the grape, or the shop and fruit grower information, or the transportation requirement, time requirement, payment amount, financial requirement, personal editing information, etc. of the fruit supplier, and then just enable the fruit supplier to satisfy the requirement of the fruit supplier.

For example, when the fruit purchaser needs to purchase grapes from trurana, the currently picked grapes are planted by the fruit grower a and are required to be transported by express in the downwind direction, and carton essence packages (with a specified package style) are adopted, the transmission module 522 sends the order to the supplier module 530 corresponding to the fruit grower according to the demand of the order, the order is obtained by the fruit grower a in trurana at a supply terminal, the grapes are picked by the fruit grower a at the present time, and the grapes are packaged by carton essence packages and are delivered to the fruit purchaser in the downwind direction, so as to meet the demand of the fruit purchaser.

It should be noted that the transmission module 522 can transmit the order to the cloud, the supplier module 530 obtains the order in the cloud, and then the corresponding fruit supplier receives the order to satisfy the order requirement.

In other words, the supplier modules 530 of different suppliers are classified and bound by the fruit-related information editing module 514 according to the fruit-related information, so that the transmission module 522 sends the order to the specified supplier module 530. That is, when the fruit buyer purchases a grape, the processor generates the order, and the transmission module 522 directly sends the order to the supplier module 530 bound with the fruit-related information to designate the fruit supplier to provide the grape to the fruit buyer.

The supplier module 530 includes a supplier interaction module 531, an order receiving module 532 and a cash register module 533, wherein the supplier interaction module 531 is preferably a display screen and connected to a communication device of the supplier, and wherein the order receiving module 532 receives the order and displays the order on the supplier interaction module 531, so that the fruit supplier can pick and package the grape according to the order information, and then select a suitable transportation terminal to send the grape to the fruit purchaser. And when the fruit purchaser confirms receipt, the money receiving module 533 receives the amount of the payment module 513, thereby completing the transaction.

In this embodiment, the supplier module 530 further includes an order processing module 534, and after the order receiving module 532 receives the order, the order processing module 534 generates a distribution scheme according to the related information of the order, so that the fruit supplier can provide the grapes according to the distribution scheme, thereby improving distribution efficiency.

In other words, the order processing module 534 can generate the allocation plan according to the order placing time, the variety, maturity, picking days and other related information of the grapes, the address of the fruit purchaser, the local climate, season, humidity, temperature, purchase quantity, pre-harvest time and other related information, the address of the fruit supplier, the local climate, season, humidity, temperature and other related information, and the transportation time, road condition, temperature difference, humidity difference and other related information of the transportation path. That is, the dispensing scheme may be the type of grape to be picked, such as color, size, quantity (weight), sweetness, etc., the environment in which the grape is to be packaged, such as the material and type of the packaging box, the temperature, humidity and softness of the box, the insulation index of the box, auxiliary media such as ice, ethylene inhibitor, warming agent, etc. Therefore, the fruit supplier can pick and pack the grapes according to the distribution scheme, and a proper grape storage and transportation environment is provided, so that the grapes are prevented from being damaged due to differences of geographic positions, temperature or humidity, the grapes are suitable for being transported to a place with larger temperature difference, the freshness and the taste of the grapes can be still kept, and the damage rate of the grapes is reduced.

Especially for greenhouse planting grapes, the greenhouse planting grapes can provide proper storage and transportation environments according to season time, temperature and humidity of transportation routes and the like so as to ensure that the grapes are fresh and delicious.

For example, in the grape ripening season, the grapes produced in northeast are purchased singly by fruit purchasers in the Guangdong, and since the temperature of the Guangdong can reach about 38 ℃, the distribution scheme provides a transportation scheme for keeping the temperature of the grapes at 3-5 ℃ and carrying the grapes cold, and preferably adopts a fluid packaging bag such as an air packaging bag for cold transportation, so that the grapes are prevented from being rotten rapidly due to overhigh temperature, and the taste of the grapes is guaranteed.

Still alternatively, in winter, grapes from Yunobao mountain are purchased separately by fruit purchasers in the northeast of China, where the temperature in the northeast of China is as low as-10 ℃ to-20 ℃, or even lower, and the distribution scheme provides for transporting the grapes at 3 to 5 ℃ with heat preservation, preferably in fluid bags such as air bags, to prevent the grapes from freezing and rotting.

Accordingly, the fluid packing bag provided by the online shopping fruit system has a structure capable of being filled with fluid, so that the fluid can provide a buffering effect and a heat preservation effect for the grapes after being filled with the fluid, preferably air, and the fluid can be conveniently stored and transported without being filled with the fluid when not used, and can be filled with the fluid on site when used, so that the use is very convenient.

Of course, the packing box can be other types of boxes, such as EPP incubator, carton, wooden box, etc., to adapt to the distribution scheme, and meet the requirements of packing and transportation.

It can be understood that when the fruit purchaser purchases the grapes which are just picked, according to the distribution scheme, the fruit supplier can pick the corresponding grapes in the orchard and then transport the packaged grapes to the fruit purchaser by the transportation terminal, so that the consumer can eat the grapes which are just picked before transportation, the freshness of the grapes is guaranteed, and the eating mouthfeel is improved. That is, when the order of the fruit purchasers arrives, it enables the fruit suppliers to pick fresh grapes, rather than grapes that have been picked for days or even tens of days later, to ensure the taste of the consumer.

The transportation end module 540 includes a transportation end information obtaining module 541, a transportation processing module 542, and a transportation end editing module 543, where the transportation end information obtaining module 541 is configured to obtain related information of each transportation end, such as a carrier, a transportation range, a transportation route, a carrier allocation and personal information, a transportation speed, a transportation vehicle model, a service guarantee, a delivery time, and the like, and according to the related information of each transportation end and the related information of the order, the transportation processing module 542 generates a transportation scheme and sends the transportation scheme to the supply end interaction module 531, so that the fruit supplier can select a suitable transportation end to transport the grape. The transportation terminal module 543 is used for manually editing the related information of each transportation terminal, so that the transportation terminal is manually controlled and more humanized.

Of course, the transportation end information obtaining module 541 can obtain the related information of each transportation end at the cloud end, and can also be edited manually, preferably, the fruit supplier can cooperate with each transportation end, the transportation end takes charge of transportation and delivery to the home, and the fruit supplier provides transportation cost to achieve win-win, thereby not only improving the transportation efficiency, but also ensuring the stability, reliability and low loss of the transported grapes. In other words, the order can be received by the fruit supplier, and after picking and packaging the grapes, the fruit supplier can designate the transportation terminal to transport the grapes to the fruit purchaser.

It should be noted that, the transportation end module 540 may further detect whether the transportation environment of the grapes is abnormal, and may set a pressure sensor, a thermometer, a hygrometer or other detection instruments on the transportation vehicle, or the packaging box, or the packaging bag to detect whether the transportation environment of the grapes is abnormal during transportation, and when the abnormality occurs, it may notify the transportation personnel to better package the grapes, or add an auxiliary medium or other devices to ensure that the grapes are intact during transportation.

As shown in fig. 3 and 4, the online fruit purchasing system 500C according to the first variant embodiment of the present invention includes a purchasing end system 510C, a processing module 520C, a supplying end module 530C, and a transporting end module 540C, wherein the purchasing end system 510C is used for displaying information related to fruits and receiving information related to a fruit purchaser. The processing module 520C generates an order according to the related information of the fruit purchaser and the related information of the fruit, the transporting end module 540C receives the order, so that a transporting end designates a fruit supplier to obtain grapes according to the order information, and transports the grapes to the fruit purchaser, wherein the supplying end module 530C provides the related information of the fruit suppliers to the transporting end module 540C, so that the transporting end selects a proper fruit supplier to provide the grapes.

In other words, the purchasing module 510C can display the price, quantity, variety, production area, store information, maturation period, days picked, sweetness, fruit color or eating method of each grape. After the fruit purchaser determines to purchase a grape at the purchasing module 510C, the processing module 520C generates the order according to the information related to the grape and the information related to the fruit purchaser, such as name (internet name or anonymity), payment method, purchase amount, contact method, address, financial status, or future purchase status. When the supplier receives the order at the supplier module 540C, the transportation terminal selects the grapes provided or picked by the appropriate fruit supplier according to the order information and the relevant information of each fruit supplier, such as the brand of the fruit supplier, the company address, the relevant information of the planted grapes, the orchard location and climate, the price, the preference, the service item, the marketing scale, the customer rating and the like, and sends the grapes to the fruit purchaser after packaging.

It should be noted that the transportation terminal can select the grapes picked or provided by the proper fruit supplier according to the order information and the related information of the fruit supplier, package the grapes according to the transportation route, the transportation time, the weather conditions, the season and the like, and transport the grapes to the destination, so that the fresh taste is still maintained.

It is understood that the transportation terminal may also search for a suitable fruit supplier without the information about the fruit suppliers provided by the supply terminal module 530C, or pick the grapes planted by itself or by partners to improve the distribution efficiency and ensure the freshness of the grapes.

The purchasing module 510C includes a purchasing module 511C, an information receiving module 512C and a payment module 513C, wherein the purchasing module 511C is preferably a communication terminal screen such as a display screen, a mobile phone screen, a computer or a tablet screen, and is connected to a communication terminal of the fruit purchaser for displaying information related to each fruit for the fruit purchaser to view and select to purchase. The purchasing side interaction module 511C can respond to an operation instruction, the information receiving module 512C receives the fruit related information and the fruit purchaser related information, and pops up a payment interface, the payment module 513C determines the payment related information of the fruit purchaser, that is, confirms payment, and then the processing module 520C generates the order and sends the order to the transportation side module 540C to complete the transaction.

That is, when the fruit purchaser selects the grapes to be purchased at the purchaser side interaction module 511C and operates the operation instruction to purchase the grapes, the information receiving module 512C receives the fruit related information and the fruit purchaser related information, the payment module 513C generates a payment related information, and thus the payment interface is popped up at the purchaser side interaction module 511C, and the fruit purchaser checks and confirms the payment information to complete the payment. The payment interface displays the purchase quantity, unit price and total price, coupon information, and related information of the fruit purchaser such as address, name, contact way, etc., or related information of payment such as anonymous purchase, purchase confirmation and payment way, etc., without any requirement. The payment mode can be payment treasure, WeChat, bank, K treasure and the like.

Preferably, in the purchasing end interaction module 511C, in response to the operation instruction, the purchasing end interaction module 511C sends a purchase related information to the information receiving module 512C, where the purchase related information may be the variety, quantity, production place, price, etc. of the grapes that the fruit purchaser needs to purchase.

In this embodiment, the information receiving module 512C includes a fruit related information obtaining module 5121C, a fruit purchaser related information obtaining module 5122C, and a storage module 5123C, wherein the storage module 5123C is configured to store each piece of fruit related information and the fruit purchaser related information. The relevant information of each fruit can be acquired by a network or manually input and stored, the relevant information of the fruit purchaser is input and stored by the fruit purchaser or copied and pulled at the communication terminal, and of course, the relevant information of the fruit and the relevant information of the fruit purchaser can be changed to adapt to the requirements. After responding to the operation instruction, the fruit-related information obtaining module 5121C obtains the fruit-related information from the storage module 5123C, and the fruit-purchaser-related information obtaining module 5122C receives the purchase-related information and obtains the fruit-purchaser-related information from the storage module 5123C, so that the payment module 513C can generate the payment-related information to complete the payment.

That is, the fruit purchaser can choose to purchase a designated place of production, a designated variety, a designated temperature, a designated number of picking days, such as grapes, preferably plucked on the spot, a designated store, such as a fruit grower, etc., to meet the needs of the fruit purchaser in terms of taste or taste.

In this embodiment, the purchasing module 510C further includes a fruit related information editing module 514C and a purchasing side related information editing module 515C, wherein the fruit related information editing module 514C is configured to edit or record the fruit related information, and transmit the fruit related information to the purchasing side interaction module 511C, so that the fruit purchasing side can know the related information of the grapes to select to purchase the grapes required by the purchasing side. Of course, through the fruit-related information editing module 514C, the grapes can be correspondingly bound to the supply end module 530C of different fruit suppliers according to the fruit-related information, and the transport end directly obtains the grapes supplied by the fruit supplier, so that the supply efficiency is improved. The buyer related information editing module 515C is configured to edit or record the fruit buyer related information, and store the fruit buyer related information in the storage module 5123C, so that the information receiving module 512C extracts the fruit buyer related information to complete the order.

The processing module 520C includes an order generating module 521C and a transmitting module 522C, wherein after the payment is completed, the order generating module 521C generates the order according to the fruit related information and the fruit purchaser related information, and the transmitting module 522C transmits the order to the transporting end module 540C, so that the transporting end module 540C can complete the demand of the fruit purchaser.

In this embodiment, the transmission module 522C includes an analysis module 5221C and a matching module 5222C, when the order generation module 521B generates the order, the analysis module 5221C analyzes and generates a supply scheme according to the order information, the matching module 5222C matches the transportation module 540C according to the supply scheme, and sends the order to the transportation module 540C, so as to designate a proper transportation terminal or a courier to complete the order.

That is, the transmission module 522C can match the transportation end module 540C corresponding to the transportation end, which can satisfy the requirements, according to the information of the order, such as the variety, price, production area, fruit type, color, sweetness, etc. of the grape, or the shop and fruit grower information, or the transportation requirement, time requirement, payment amount, financial requirement, personal edit information of the fruit purchasers, or the related information of each transportation end, such as the transportation provider, transportation range, transportation path, courier outfit and personal information, transportation speed, transportation vehicle model, service guarantee, delivery time, etc., thereby just enabling the transportation end to satisfy the requirements of the fruit purchasers.

It should be noted that the transmission module 522C may transmit the order to a cloud, and the transportation module 540C obtains the order from the cloud, and then receives the order from the corresponding transportation end to satisfy the order requirement.

In other words, the fruit-related information editing module 514C classifies and binds the transportation end modules 540C of different transportation ends according to the fruit-related information, so that the transportation module 522C sends the order to the designated transportation end module 540C. That is, when the fruit buyer purchases a grape, the processing module 520C generates the order, and the transmission module 522B directly sends the order to the transportation module 540C bound to the fruit-related information to specify the transportation to supply the grape to the fruit buyer.

The transportation module 540C includes a transportation interaction module 541C, an order receiving module 542C, and a collection module 543C, wherein the transportation interaction module 541C is preferably a display screen and is connected to a communication device of the carrier, and the order receiving module 542C receives the order and displays the order on the transportation interaction module 541C, so that the transportation selects a suitable grape supply end to pick up the grape according to the order information, packages the grape, and sends the grape to the fruit purchaser. And when the fruit purchaser confirms receipt, the money receiving module 543C receives the amount of the payment module 513C, thereby completing the transaction.

In this embodiment, the transportation module 540C further includes an order processing module 544C, and after the order receiving module 542C receives the order, the order processing module 544C generates a distribution scheme according to the order related information, so that the transportation terminal selects a designated fruit supplier according to the distribution scheme to supply the grapes, so as to improve distribution efficiency.

Therefore, the grapes are picked according to the distribution scheme, and are packaged by selecting a proper packaging box or a proper packaging means, and a proper grape storage and transportation environment is provided, so that the grapes are prevented from being damaged due to differences of geographic positions, temperature or humidity and the like, the grapes are suitable for being transported to a place with large temperature difference, the freshness and the taste of the grapes can be still kept, and the damage rate of the grapes is reduced.

In this embodiment, the packing box is implemented as a one-pack type fluid packing bag such as an air packing bag to provide heat preservation and buffering effects, and has strong adaptability.

The supplier module 530C includes a supplier information obtaining module 531C, a supply processing module 532C, and a supplier editing module 533C, where the supplier information obtaining module 531C is configured to obtain relevant information of each fruit supplier, such as personal information, address, contact information, company scale, fruit supply relevant information, orchard scale, and the like, according to the relevant information of each fruit supplier and the order relevant information, the supply processing module 532C generates a purchase scheme, and sends the purchase scheme to the transporter interaction module 541C, so that the transporter, such as a courier, selects a suitable fruit supplier to obtain the grape. The supplier editing module 533C is used for manually editing the related information of each fruit supplier for manual control and more humanization.

Of course, the supplier information obtaining module 531C may obtain the relevant information of each fruit supplier at the cloud, or may be edited manually, and preferably, the transportation terminal may cooperate with each fruit supplier, the transportation terminal provides the order and the grape fee, and the fruit supplier provides the grapes, so as to achieve win-win situation, not only improve the transportation efficiency, but also ensure the stability, reliability and less loss of the transported grapes. In other words, it may receive the order from the shipping terminal, and then designate the fruit supplier, pick, pack the grapes, and ship to the fruit purchaser.

As shown in fig. 5 and 6, in combination with the preferred embodiment and the first modified embodiment of the present invention, there is provided an online purchased grape transportation method, which includes the steps of:

A. displaying the related information of each fruit so that the fruit purchasers can choose to purchase grapes;

B. receiving the fruit purchaser related information;

C. generating the order according to the relevant information of the fruit purchaser; and

D. the order is sent to the supplier module 530 for the fruit supplier to obtain the grapes according to the order information, and then the transportation terminal is designated to transport the grapes to the fruit purchaser.

And D, replacing the step E, sending the order to the transportation end module 540C, so that the transportation end appoints the fruit supplier to obtain the grapes according to the order information and then transports the grapes to the fruit purchaser.

In step D, information related to each transportation terminal is provided to the supply terminal module 530.

In step E, information about each fruit supplier is provided to the transportation module 540C.

Fig. 7 to 15 show an online shopping fruit system 500 according to a second variant embodiment of the present invention, which is different from the above embodiments in that the online shopping fruit system 500 is used for online vending pomegranates. For example, in the pomegranate ripening season, the purchasers of the guangdong purchasers buy the pomegranates produced in the south of the river singly, and the temperature of the guangdong can reach about 30 ℃, wherein the online shopping fruit system 500 provides a transportation scheme for keeping the temperature of 3-5 ℃ and transporting the pomegranates cold, and preferably uses an air packaging bag for cold transportation to prevent the pomegranates from being rotten rapidly due to overhigh temperature, so as to ensure the taste of the pomegranates.

Or, in winter, the pomegranate purchasers in northeast buy the pomegranates from Shandong singly, and the temperature in northeast is lowered to minus 10 degrees to minus 20 degrees or even lower, wherein the online fruit purchasing system 500 provides a scheme for transporting the pomegranates with 3 to 5 degrees centigrade, preferably with air-packaged bags, so as to prevent the pomegranates from being frozen and rotten.

Further, the online fruit purchasing system 500 provides a separate air-packing bag for packing pomegranates. Specifically, the split air packing bag comprises a supporting cushion body 910 and a cross-shaped cushion body 920, wherein the supporting cushion body 910 is folded in a ring shape to form a containing space 911, and the cross-shaped cushion body 920 is disposed in the containing space 911 of the supporting cushion body 910 and divides the containing space 911 to form a plurality of triangular packing chambers 9111 for packing the pomegranate. That is, the packing compartment 9111 is defined by the supporting cushion body 910 and the cross-shaped cushion body 920. Preferably, the packaging compartment 9111 is in a closed state, and air is used as a carrier to provide heat preservation and cushioning effects.

Preferably, the supporting buffer body 910 and the cross buffer body 920 are made of resin materials, and are light, transparent, good in sealing performance, high in toughness, not easy to spall, recyclable, green, environment-friendly, small in size, space-saving, convenient to transport and low in cost.

Compared with the traditional foam box, the air buffer is utilized to protect the pomegranate and provide the heat preservation effect, and the integrated structure reduces the environmental pollution and provides a more excellent storage environment.

The supporting cushion body 910 has a head portion 912, a tail portion 913 and a set of pre-folded portions 914, wherein the supporting cushion body 912 is folded annularly along the pre-folded portions 914 to form a square-shaped structure, and the head portion 912 and the tail portion 913 are folded together to form the accommodating space 911. That is, the leading end 912 and the trailing end 913 meet but are not connected together, so that the accommodating space 911 can be disassembled from the side to expose the cross buffer 920 disposed in the accommodating space 911, and the packing chamber 9111 is exposed to take out the pomegranate. Promptly the dismouting of partial shipment formula air packaging bag is simple and easy, can save the packing time for this pomegranate supplier.

In this embodiment, the pre-folding portion 914 includes a first pre-folding line 9141, a second pre-folding line 9142 and a third pre-folding line 9143, wherein the first pre-folding line 9141, the second pre-folding line 9142 and the third pre-folding line 9143 are sequentially disposed between the head portion 912 and the tail portion 913, and are parallel to the head portion 912 and the tail portion 913. The distance between the head portion 912 and the first pre-break line 9141 is equal to the distance between the second pre-break line 9142 and the third pre-break line 9143, wherein the distance between the first pre-break line 9141 and the second pre-break line 9142 is equal to the distance between the third pre-break line 9143. That is, the supporting cushion body 910 can be folded into a regular square-shaped structure, and the leading end 912 and the trailing end 913 can meet together.

That is, the accommodating space 911 is a rectangular accommodating space, and the length, width and height of the accommodating space 911 are determined by the supporting cushion body 910. Accordingly, the length, width and height of the cross buffer 920 can correspond to those of the accommodating space 911, so that the cross buffer 920 can be placed in the accommodating space 911. Preferably, the size of the width and height of the cross buffer 920 is slightly larger than the size of the width and height of the accommodating space, so that the cross buffer 920 can be slightly clamped in the accommodating space 911, and the size of the length of the cross buffer 920 is close to equal to the size of the length of the accommodating space, so that the cross buffer 920 does not extend out of the accommodating space 911, thereby ensuring that the split air packing bag is of a flat square structure, so that the user can stack and store the split air packing bag, the stacking space is utilized maximally, and the occupied space is reduced.

In this embodiment, the supporting cushion body 910 is a double-layer film structure, and the supporting cushion body 910 forms a set of first air storage chambers 915, wherein the head portion 912 of the supporting cushion body 910 has a set of first check valves 9121 and a first inflation inlet 9122, wherein the first check valves 9121 are correspondingly communicated with the first air storage chambers 915 in a single direction, wherein the first inflation inlet 9122 is communicated with all of the first check valves 9121, wherein the first check valves 9121 are opened by inflating the first inflation inlet 9122 with air, so that the supporting cushion body 910 is inflated to form an air chamber, thereby providing a heat preservation and cushioning effect.

It is worth mentioning that the pre-folding portion 914 is a spaced heat-sealing point formed by a heat-sealing process, that is, the first pre-folding line 9141, the second pre-folding line 9142 and the third pre-folding line 9143 are heat-sealed together by the spaced heat-sealing point so that the double-layered film of the supporting cushion body 910 can be heat-sealed together. Preferably, the heat-sealing process does not seal the air storage accommodating space of the air storage chambers 915, that is, each air storage chamber is not sealed by the first pre-folding line 9141, the second pre-folding line 9142 or the third pre-folding line 9143, so as to ensure smooth air storage in the air storage chamber.

It should be noted that the first check valves 9121 are preferably two-layer membrane air check valves, and each first check valve 9121 is correspondingly communicated with one of the first air storage chambers 915, that is, each first air storage chamber 915 is independent, and even if any one air storage chamber 915 leaks air, the tightness of the other air storage chambers 915 is not affected. In addition, first check valve 9121 is set up side by side on same inflation accommodation space, so that first inflation inlet 9122 can communicate all first check valve 9121, and then it is right that messenger's user only need inflate inflation inlet 9122, can open all the air receiver 915 inflates air to make things convenient for the user to inflate.

In the preferred embodiment, the cross buffer 920 comprises two parallel arms 921 and a dividing partition 922, wherein the dividing partition 922 is an X-shaped structure, wherein the two parallel arms 921 are respectively connected to two sides of the dividing partition 922 in parallel and close the accommodating space 911, and the dividing partition 922 is disposed in the accommodating space 911 and divides the accommodating space 911 into four packing chambers 9111. That is, the packing room 9111 is shaped like a central symmetry, and when the accommodating space 911 is a cube, the packing room 9111 is shaped like a central symmetry, and the central symmetry point coincides with the center of the accommodating space 911, so that the packed articles are distributed in a diagonal distribution, which provides an aesthetic satisfaction, i.e., both practicability and beauty.

The divider member 922 has four ends 9221, 9222, 9223 and 9224, wherein the two parallel arms 921 include a fixed arm 9211 and a movable arm 9212, wherein the two ends of the fixed arm 9211 are integrally connected to the first end 9221 and the second end 9222 of the divider member 922, wherein a connection end 92121 of the movable arm 9212 is integrally connected to the third end 9223 of the divider member 922, and a free end 92122 of the movable arm 9212 integrally extends from the connection end 92121 to the fourth end 9224 of the divider member 922, but is not connected to the fourth end 9224. That is, the free end 92122 of the movable arm 9212 can swing in a fan shape about the connecting end 92121, and the user can separate the free end 92122 and the fourth end 9224 of the movable arm 9212.

Preferably, the crossed buffering body 920 is a double-layer membrane structure, air column the crossed buffering body 920 the two parallel arms 921 with the partial shipment separator 922 forms a set of second air storage chamber 923 jointly, the movable arm 9212 the free end 92122 has a set of second check valve 921221 and a second inflation inlet 921222, wherein the second check valve 921221 is corresponding to one-way intercommunication in the second air storage chamber 923, wherein the second inflation inlet 921222 is communicated in all the second check valve 921221, wherein through to the second inflation inlet 921222 is inflated with air, opens the second check valve 921221, stores air in the second air storage chamber 923, so that the crossed buffering body is expanded to form the air chamber 920, provides heat preservation, buffering effect.

It should be noted that the second check valve 921221 is preferably a two-layer film air check valve, and each second check valve 921221 is correspondingly communicated with one of the second air receivers 923, that is, each second air receiver 923 is independent, and even if any one of the second air receivers 923 leaks air, the tightness of the other second air receivers 923 is not affected. In addition, second check valve 921221 is set up side by side on same inflation accommodation space, so that second inflation inlet 921222 can communicate all second check valve 921221, and then it is right that messenger's user only need the second inflation inlet 921222 aerifys, can open all second gas receiver 923 inflates the air to make things convenient for the user to aerify.

In this embodiment, the cross buffer 920 has a set of heat-seal portions 924, wherein the heat-seal portions 924 include a first heat-seal spacer 9241, a second heat-seal spacer 9242, a third heat-seal spacer 9243, a fourth heat-seal spacer 9244 and a fifth heat-seal spacer 9245, wherein the first heat-seal spacer 9241, the second heat-seal spacer 9242, the third heat-seal spacer 9243, the fourth heat-seal spacer 9244 and the fifth heat-seal spacer 9245 are sequentially disposed in parallel between the head and the tail of the cross buffer 920. The first heat seal spacer 9241 is disposed between the connection end 92121 and the third end 9223 of the movable arm 9212 to provide that the movable arm 9212 can be bent along the first heat seal spacer 9241. The second heat-seal spacing point 92932 and the fifth heat-seal spacing point 9245 are heat-sealed together to form the dispensing center of the dispensing partition 922, wherein the third heat-seal spacing point 9243 and the fourth heat-seal spacing point 9244 are heat-sealed between the second heat-seal spacing point 9242 and the fifth heat-seal spacing point 9245 to form the fixed arm 9211. Preferably, first heat-seal interval point 9241 second heat-seal interval point 9242 third heat-seal interval point 9243 fourth heat-seal interval point 9244 and fifth heat-seal interval point 9245 are respectively one row of spaced heat-seal points and constitute, and can not block up the air receiver 923, in order to guarantee that the circulation of air receiver 923 is smooth.

Preferably, first heat-seal interval point 9241 second heat-seal interval point 9242 third heat-seal interval point 9243 fourth heat-seal interval point 9244 with fifth heat-seal interval point 9245 is equidistant parallel arrangement, so that the partial shipment separator four tip extremely the distance of the central point of partial shipment separator equals, wherein every two are adjacent distance and two other adjacent between the tip distance between the tip equals to increase whole aesthetic property, and the storage interval that makes simultaneously between the article by the packing is equal to make the atress balanced, keep warm, the cushioning effect is better.

It is worth mentioning that, adopt heat-seal process, can change first heat-seal interval point 9241 second heat-seal interval point 9242 third heat-seal interval point 9243 fourth heat-seal interval point 9244 with mutual distance between the fifth heat-seal interval point 9245 is in order to change partial shipment separator 922 with the specification size of two parallel arms 921, and then change packing chamber 9111's shape size. Preferably, the inscribed circle of the packaging chamber is slightly smaller than the circumference of the vulnerable article, and the maximum diameter of the circumference of the pomegranate is about 10cm in general. That is to say, this pomegranate can be blocked flexibly in the packing chamber, and then make this pomegranate can not rock, or take place relative rotation, receive external force effect simultaneously, the partial shipment formula air packaging bag can provide a buffer capacity and be used for protecting vulnerable article.

It will be appreciated that the supplemental medium can be placed within the package chamber 9111 and does not leak outside of the split-charge air bag package, thereby ensuring that the supplemental medium does not contaminate the environment, such as other adjacent items or the transport vehicle.

In a modified embodiment of the separate packaging type air packing bag as shown in fig. 14 to 15, the separate packaging type air packing bag comprises a multi-layered supporting buffering body 930A and two cross-shaped buffering bodies 920 of the preferred embodiment, wherein the multi-layered supporting buffering body 930A is bent annularly and forms a first accommodating space 931A and a second accommodating space 932A, wherein the first accommodating space 931A is parallel to the second accommodating space 932A, and wherein the two cross-shaped buffering bodies 920 are respectively disposed in the first accommodating space 931A and the second accommodating space 932A of the multi-layered supporting buffering body 930A and respectively separate the first accommodating space 931A and the second accommodating space 932A and respectively form a plurality of triangular packaging chambers 9311A, 9321A for packaging the pomegranate. That is, the number of the packing compartments 9311A of the separate type air packing bag of this modification is doubled compared to the previous one, so as to store a larger number of pomegranates.

In this embodiment, the first accommodating space 931A and the second accommodating space 932A have the same size and shape, so as to ensure that the cross-type buffering body 920 can be properly and respectively installed in the first accommodating space 931A and the second accommodating space 932A, thereby ensuring the overall consistency of the split air packing bag, so as to ensure the heat preservation, buffering effect and beauty.

In this variant, the multi-layer supporting buffer 930A is a zigzag structure, the multi-layer supporting buffer 930A is a double-layer film structure, wherein the multi-layer supporting buffer 930A forms a set of third air reservoirs 933A, wherein the head end of the multi-layer supporting buffer 930A has a set of third check valves 934A and a third air charging port 935A, wherein the third check valves 934A are correspondingly communicated with the third air reservoirs 933A in one-way, and wherein the third check valves 934A are opened by charging air into the third air charging ports 935A to store air in the third air reservoirs 933A, so that the multi-layer supporting buffer is expanded to form air insulation, buffering, and provide a buffering force to protect the pomegranate.

The supporting multi-layered buffer 930A has a set of bending lines 9301A, 9302A, 9303A, 9304A, 9305A and 9306A arranged in parallel in sequence, wherein the supporting multi-layered buffer 930A can be bent in sequence along the bending lines 9301A, 9302A, 9303A, 9304A, 9305A and 9306A to form the first accommodating space 931A and the second accommodating space 932A. Preferably, the multi-layered supporting buffer 930A is sequentially bent 90 degrees along the bending lines 9301A, 9302A, 9303A, 9304A, 9305A and 9306A to form the zigzag structure, so as to ensure that the first accommodating space 931A and the second accommodating space 932A are square accommodating spaces, and further ensure that the cross-type buffer 920 can be properly installed in the first accommodating space 931A and the second accommodating space 932A, so as to ensure the heat preservation and buffering packaging effect.

It is noted that the bend lines 9301A, 9302A, 9303A, 9304A, 9305A and 9306A are a row of spaced heat seal points formed by a heat sealing process to heat seal the two layers of film of the multi-layer support cushion 930A together and to facilitate bending by the user, and to ensure that the third gas reservoir 933A is not blocked for inflation by the user.

As shown in fig. 16 to 30, the online shopping fruit system according to the third modified embodiment of the present invention is different from the above embodiments in that the online shopping fruit system is used for online selling strawberries, blueberries, cherries or cherry tomatoes, wherein the online shopping fruit system can directly communicate a fruit supplier with a fruit purchaser, and the fruit supplier picks and packages the strawberries, blueberries, cherries or cherry tomatoes according to order information of the fruit purchaser, so that the strawberries, blueberries, cherries or cherry tomatoes are directly transported to the hand of the fruit purchaser after being picked, thereby truly realizing the process of directly going to the home for the strawberries, blueberries, cherries or cherry tomatoes.

It will be understood by those skilled in the art that the strawberry, blueberry, cherry or cherry tomato is a soft juicy fleshy fruit developed by ovary or other flower organ, and because of the characteristic that the strawberry, blueberry, cherry or cherry tomato product lacks hard peel protection, the strawberry, blueberry, cherry or cherry tomato product is easy to be mechanically damaged during transportation, so how to effectively prevent the strawberry, blueberry, cherry or cherry tomato product from being damaged during transportation becomes a key point in the transportation process of the strawberry, blueberry, cherry or cherry tomato.

Therefore, in the process of transporting the strawberries, the blueberries, the cherries or the cherry tomatoes, in order to prevent the strawberries, the blueberries, the cherries or the cherry tomatoes from being damaged in the transporting process, the method adopts an inflatable packaging bag to package the transported strawberries, the blueberries, the cherries or the cherry tomatoes, and the inflatable packaging bag can effectively provide buffer protection for the transported strawberries, the blueberries, the cherries or the cherry tomatoes and prevent the transported fruit products from being mechanically damaged in the transporting process.

As shown in FIG. 16, the present invention provides an online shopping system for fruit, which comprises a client 10F, a supplier 20F, a transaction platform 30F and a transportation platform 40F. The trading platform 30F is respectively connected to the user terminal 10F and the supply terminal 20F in a communication manner, a fruit purchaser 300F can obtain information of fruit products through the user terminal 10F, select fruit products to be purchased and input purchase information 11F, the trading platform 30F receives the purchase information 11F and generates order information 31F according to the purchase information 11F, a fruit supplier can obtain the order information 31F from the supply terminal 20F and provide corresponding strawberries, blueberries, cherries or cherry tomatoes according to the order information 31F, and the transportation platform 40F can complete a transportation process of the fruit products.

Specifically, a fruit supplier 100F acquires a fruit product information 200F, and uploads the fruit product information 200F to the trading platform 30F through the supplier 20F, the trading platform 30F processes the fruit product information 200F, the fruit product information 200F processed by the trading platform 30F is sent to the user terminal 10F for display, and the fruit purchaser 300F obtains the fruit product information 200F from the user terminal 10F and selects a product of strawberry, blueberry, cherry, or cherry type, which is intentionally purchased by the purchaser of the fruit purchaser, through the user terminal 10F.

It should be noted that the fruit product information 200F may be picture information of the strawberry, blueberry, cherry or cherry tomato products, of course, the fruit product information 200F may also be implemented as video information of the strawberry, blueberry, cherry or cherry tomato products being picked and packaged, and of course, the fruit product information 200F may also be implemented in a manner of including both the picture information of the strawberry, blueberry, cherry or cherry tomato products and the combination of the strawberry, blueberry, cherry or cherry tomato products being picked and packaged.

Preferably, in the preferred embodiment, the fruit product information 200F is implemented as a combination of a picture of a strawberry, blueberry, cherry or cherry tomato type product and video information of the strawberry, blueberry, cherry or cherry tomato type product being picked and packaged, and the picture information of the strawberry, blueberry, cherry or cherry tomato type product is displayed with information of the kind, production place, grower, production period, picked fruit information being packaged by the air bag, and information of a partner and a transportation mode.

The video information of the strawberry, blueberry, cherry or cherry tomato product picked and packaged shows the environmental information, the growth state information, the picked process information, the strawberry, blueberry, cherry or cherry tomato type information, the packaging process of the inflatable packaging bag and other video information of the fruit product growing.

Correspondingly, the supply terminal 20F has an information uploading module 21F, the fruit supplier 100F uploads the collected fruit product information 200F to the information uploading module 21F, and then the fruit product information 200F is sent to the transaction platform 30F by the information uploading module 21F.

Correspondingly, the transaction platform 30F has an information processing control module 32F, the fruit product information 200F can be sent to the information processing control module 32F, and the information processing control module 32F can adjust the format information, the typesetting information, the displaying sequence information and the like of the fruit product information 200F, and includes beautifying processing and the like of the fruit product information 200F.

On the other hand, the information processing control module 32F controls the display of the fruit product information 200F on the user terminal 10F, and the information processing control module 32F controls the content of the display of the fruit product information 200F on the user terminal 10F.

For example, when the display processing module 32F deletes or adds the content of the fruit product information 200F, the content of the fruit product information 200F presented by the user terminal 10F is also deleted or added accordingly.

Correspondingly, the user terminal 10F has a display module 12F, and the display module 12F receives the fruit product information 200F from the information processing control module 32F and displays the fruit product information 200F.

The fruit purchaser 300F can browse and/or view the fruit product information 200F from the display module 12F, and the fruit purchaser 300F can obtain the information of the fruit product from the fruit product information 200F, increasing the understanding of the fruit product.

Further, in the strawberry, blueberry, cherry or cherry tomato packing and transporting method provided by the present invention, the fruit purchaser 300F obtains the packing and transporting information of the strawberry, blueberry, cherry or cherry tomato from the fruit product information 200F. In the invention, the fruit product is packaged by the inflatable packaging bag, and the inflatable packaging bag can provide sufficient guarantee for the transportation process of the packaged strawberries, blueberries, cherries or cherry tomatoes, and effectively prevent the mechanical damage of the transported strawberries, blueberries, cherries or cherry tomatoes in the transportation process.

Further, the fruit purchaser 300F can select a specific presentation form of the fruit product information 200F by controlling the display module 12F, for example, the fruit purchaser 300F can select to view only the picture information about the fruit product in the fruit product information 200F, or only the video information about the fruit product in the fruit information 200F, or to view both the picture information about the fruit product and the video information about the fruit product.

As shown in fig. 17, the user further has a purchasing module 13F, and after the fruit purchaser 300F browses or views the fruit product information 200F, the user can select to order the strawberries, blueberries, cherries or cherry tomatoes through the purchasing module 13F. Through the purchasing module 13F, the fruit purchaser 300F can select the kind, quality and quantity of the fruit product. When the fruit purchaser 300F completes purchasing the fruit product, the purchasing module 13F generates the purchasing information 11F.

It is worth mentioning that the purchase information 11F not only includes the information such as the type, quality and quantity of the fruit product purchased by the fruit purchaser 300F, but also includes the information such as the address and contact information of the fruit purchaser 300F, so as to send the fruit product purchased by the fruit purchaser 300F to the fruit purchaser 300F according to the address and contact information.

When the fruit purchaser 300F purchases the fruit product through the on-line fruit purchasing system for strawberries, blueberries, cherries or cherry tomatoes provided by the present invention for the first time, the fruit purchaser 300F needs to input the address, contact information, etc. of the fruit purchaser 300F to the purchasing module 13F, and the purchasing module 13F can store the address, contact information, etc. of the fruit purchaser 300F, so that the address, contact information, etc. do not need to be input when the fruit purchaser 300F purchases the fruit product again.

As shown in fig. 18, the transaction platform 30F has a purchase information receiving module 33F, and the purchase information receiving module 33F receives the purchase information 11F from the user terminal 10F. After receiving the purchase information 11F, the purchase information receiving module 33F first sorts the purchase information 11F, and sends the sorted purchase information 11F to the purchase module 13F of the user end 10F to confirm the fruit purchaser.

After the fruit purchaser 300F confirms the sorted purchase information 11F, the purchase information receiving module 33F stores the purchase information 11F, and then performs the next step. When the fruit purchaser 33F does not confirm the sorted purchase information 11F, the purchase information receiving module 33 does not store the purchase information 11, and the purchase step is terminated.

Further, the transaction platform 30F further has a payment module 35F, after the order generation module 34F generates the order information 31F, the payment module 35F receives the order information 31F, generates a corresponding amount to be paid according to the order information 31F, and sends the amount to be paid to the purchase module 13F, and the fruit buyer 300F receives the amount to be paid through the purchase module 13F and completes the payment step.

It should be noted that the fruit purchaser 300F may complete the payment procedure by paying money, wechat payment, bank card payment, or person-finding substitute payment.

As shown in fig. 18, correspondingly, the trading platform 30F further has an order generating module 34F, and the order generating module 34F is configured to receive the purchase information 11F confirmed by the fruit buyer 300F and generate the corresponding order information 31F according to the content of the purchase information 11F.

Accordingly, the supplier 20F has an order receiving module 22F, and the order receiving module 22F can receive the order information 31F from the trading platform 30F. The fruit supplier 100F obtains the content of the order information 31F from the supplier 20F, and picks and packages the corresponding fruit product according to the content of the order information 31F.

According to an embodiment of the present invention, after the fruit supplier 100F receives the order information 31F, the fruit supplier 100F picks fruit products of corresponding varieties, corresponding quantities and corresponding qualities according to the order information 31F.

After picking the fruit product corresponding to the order information 31F, packing the picked fruit product using the air-packing bag, and then informing the transportation platform 40F to transport the picked and packed fruit product to the fruit purchaser 300F.

It should be noted that when the air-filled packing bag is used for packing picked strawberries, blueberries, cherries or cherry tomatoes, the strawberries, blueberries, cherries or cherry tomatoes can be directly placed into a containing cavity of the air-filled packing bag, and then air is filled into a fluid storage chamber of the air-filled packing bag, so that the fruit products placed into the containing cavity are tightly wrapped in the containing cavity.

Of course, it will be understood by those skilled in the art that the picked fruit product may be packaged in advance before being placed in the containing cavity of the air-filled packing bag by using a packaging device, such as a packing box, a packing paper and the like, without further limitation, and the invention is not limited thereto. After the fruit product is packaged by the packaging device, the packaging device and the fruit product packaged by the packaging device are placed into the containing cavity of the air inflation packaging bag together, then air is filled into the fluid storage chamber of the air inflation packaging bag, and the strawberry, blueberry, cherry or cherry tomato packaging device and the fruit product are tightly wrapped in the containing cavity.

It will be appreciated by those of ordinary skill in the art that the transportation platform 40F may be implemented as a combination of one or more of courier companies and courier enterprises, such as courier express, transship express, mass transit express, commute express, roundabout express, yuntan express, and national express.

Of course, according to another embodiment of the method for packaging and transporting strawberry, blueberry, cherry or cherry tomato in accordance with the present invention, after the fruit supplier 100F picks the corresponding fruit product according to the order information 31F, the transportation platform 40F is contacted, and the transportation platform assigns a transportation person to carry the air bag to complete the packaging of the fruit product, and complete the subsequent transportation steps.

According to another embodiment of the present invention, after the fruit supplier 100F receives the order information 31F, the fruit supplier 100F picks fruit products of corresponding varieties, corresponding quantities and corresponding qualities according to the order information 31F.

After picking the fruit product corresponding to the order information 31F, contacting the transportation platform 40F, wherein the transportation platform 40F designates the corresponding person to carry the air bag to the place where the fruit supplier is located, packages the picked fruit product by using the air bag, and then transports the packaged fruit product.

According to another embodiment of the present invention, the trading platform 30F further has a transportation unit 36F, and when the fruit supplier 100F receives the order information 31F, the transportation unit 36F designates a transportation person to the address of the fruit supplier 100F to take the corresponding fruit product.

According to an aspect of the present invention, after receiving the order information 31F, the fruit supplier 100F picks the corresponding fruit product according to the order information 31F, and uses the air bag to package the picked fruit product, and then hands the fruit product to the transportation staff assigned by the transportation unit 36F, and the transportation staff completes the transportation of the fruit product.

According to another aspect of the present invention, the fruit supplier 100F picks the corresponding fruit product according to the order information 31F after receiving the order information 31F, and then hands the picked fruit product to the transportation person assigned by the transportation unit 36F, who uses the air-filled packing bag to pack the picked fruit product and completes the transportation of the fruit product.

Further, when the fruit supplier 100F receives the order information 31F and picks the corresponding fruit product according to the order information 31F, the picking process of the corresponding fruit product and the subsequent packaging process of the fruit product using the air-filled packing bag are recorded in the form of pictures and/or videos, and a picking and packaging information 211F is formed.

After the picking and packaging information 211F is formed, the picking and packaging information 211F is uploaded to the information processing and control module 32F through the information uploading module 21F, and then the information processing and control module 32F sends the picking and packaging information 211F to the display module 12F of the user terminal 10F for display.

The fruit purchaser 300F can obtain the picking and packaging information 211F from the display module 12F, and the fruit purchaser can obtain the processes of picking and packaging the purchased fruit product through the picking and packaging information 211F, so that the fruit purchaser 300F can know that the fruit product is directly picked in a fruit tree on one hand, and the fruit purchaser 300F can know the packaging manner of the purchased fruit product on the other hand, and the fruit purchaser can know that the purchased fruit product is well protected in the transportation process.

Referring to fig. 20 to 22, a second preferred embodiment of the strawberry, blueberry, cherry, or cherry tomato online shopping system of the present invention is illustrated, which includes a client 10G, a supplier 20G, a cloud 30G, and a transportation platform 40G, wherein the cloud 30G is operably connected to the client 10G and the cloud 30G, and the cloud 30G receives a fruit product message 200G from the supplier 20G and transmits the fruit product message 200G to the client 10G. The transportation platform 40G is capable of transporting the fruit product at the supply end 20G to the user end 10G.

The user terminal 10G has a display module 12G, which can display the fruit product information 200G for a fruit buyer 300G to know and understand the fruit product information 200G and choose a fruit product therefrom.

Correspondingly, the supplying terminal 20G has an information uploading module 21G, and the fruit product information 200G is uploaded to the cloud 30G by a fruit supplier 100G through the information uploading module 21G.

It is understood that the cloud 30G may be implemented as one or more of a combination of communication platforms such as WeChat, QQ, microblog, etc. The fruit supplier 100G uploads the fruit product information 200G to a WeChat friend circle, a QQ space, a WeChat public number, a microblog platform, or directly sends the fruit product information 200B to WeChat friends, QQ friends, and the like, and uploads the fruit information 200G to the cloud 30G.

It should be noted that the fruit product information 200G includes not only the picture of the strawberry, blueberry, cherry or cherry tomato product and/or the combination of the video information that the strawberry, blueberry, cherry or cherry tomato product was picked and packaged, but also the contact and payment method of the fruit supplier 100G, and so on. The picture information of the strawberry, blueberry, cherry or cherry tomato products can display the information of the types of strawberry, blueberry, cherry or cherry tomato packages, the production places, the planters, the production periods, the picked fruit information, the air bags, the cooperative transportation partners, the transportation modes and the like.

The video information of the strawberry, blueberry, cherry or cherry tomato product picked and packaged shows the environmental information, the growth state information, the picked process information, the strawberry, blueberry, cherry or cherry tomato type information, the packaging process of the inflatable packaging bag and other video information of the fruit product growing.

After the fruit buyer 300G obtains the fruit product information 200G from the cloud 30G, an order message 31G is sent to the supplier 20G through the user terminal 10G, the fruit buyer 300G obtains the order message 31G from the supplier 20G, and after the fruit buyer 300G completes a payment step, the fruit supplier 100G sends a corresponding fruit product to the fruit buyer 300G according to the order message 31G.

It is understood that the fruit purchaser 300G can contact the fruit supplier 100B by one or a combination of WeChat messages, QQ messages, telephone calls, short messages, etc. according to the contact information of the fruit supplier 100G in the fruit product information 200G, and send the order information 31G to the fruit supplier 100G.

It is understood that the fruit purchaser 300G may perform the payment process through one or more of a WeChat payment, a QQ payment, a Payment.

Specifically, the order information 31G includes not only the information such as the quantity and variety of the fruit product purchased by the fruit purchaser 300G, but also the information such as the communication address and the contact manner of the fruit purchaser 300G, so that the fruit supplier 100G can send the fruit product corresponding to the order information 31G to the fruit purchaser 300G.

After the fruit supplier 100G receives the order information 31G and the fruit purchaser 300G completes the payment process, the fruit supplier 100G picks up fruit products of corresponding varieties and quantities according to the order information 31G and packages the picked fruit products using an air bag.

It should be noted that when the air-filled packing bag is used for packing picked strawberries, blueberries, cherries or cherry tomatoes, the strawberries, blueberries, cherries or cherry tomatoes can be directly placed into a containing cavity of the air-filled packing bag, and then air is filled into a fluid storage chamber of the air-filled packing bag, so that the fruit products placed into the containing cavity are tightly wrapped in the containing cavity.

Of course, it will be understood by those skilled in the art that the picked fruit product may be packaged in advance before being placed in the containing cavity of the air-filled packing bag by using a packaging device, such as a packing box, a packing paper and the like, without further limitation, and the invention is not limited thereto. After the fruit product is packaged by the packaging device, the packaging device and the fruit product packaged by the packaging device are placed into the containing cavity of the air inflation packaging bag together, then air is filled into the fluid storage chamber of the air inflation packaging bag, and the strawberry, blueberry, cherry or cherry tomato packaging device and the fruit product are tightly wrapped in the containing cavity.

After the fruit supplier 100G has packaged the fruit product, the transportation platform 40G is contacted, the packaged fruit product is delivered to the transportation platform 40G, and the transportation platform 40G transports the fruit product to the hand of the fruit purchaser.

According to a variant embodiment of the present invention, after the fruit supplier 100G picks up the corresponding variety and quantity of fruit products according to the order information 31G, the picked fruit products are handed to the transportation platform 40G, and the transportation platform 40G completes the steps of packaging and transporting the picked fruit products using the air-filled packing bag.

According to another aspect of the invention, as shown in fig. 23, the invention further provides a method of packaging and transporting fruit products, wherein the method comprises the steps of:

step 101: receiving order information;

step 102: picking corresponding fruit products according to the order information;

step 103: packaging the picked fruit product using at least one air-filled bag; and

step 104: delivering the fruit product packaged by the air-filled packaging bag to a transportation platform for transportation.

Wherein, in step 101, the order information is from a trading platform according to an aspect of the present invention.

Wherein, according to another aspect of the present invention, in step 101, the order information is from a fruit purchaser.

As shown in fig. 24, the step 103 further includes the following steps:

step 1031: placing the picked fruit product into a containing cavity of the inflatable packaging bag; and

step 1032: a suitable gas is filled into a fluid storage chamber of the inflatable packaging bag.

Wherein, at step 1032: the amount of gas filled into the fluid storage chamber can be determined according to the shape and the volume of the put fruit product, when the volume of the fruit product is larger, less gas is correspondingly filled, and when the volume of the fruit product is smaller, less gas is correspondingly filled, so that the inner wall of the accommodating cavity is tightly contacted with the fruit product, and the fruit product is prevented from shaking in the accommodating cavity.

According to another aspect of the present invention, as shown in fig. 25, the present invention further provides another fruit product packaging and transporting method, wherein the method comprises the steps of:

step 201: receiving order information;

step 202: picking corresponding fruit products according to the order information;

step 203: delivering the picked fruit product to a transport platform; and

step 204: the transportation platform uses at least one inflatable packaging bag to package the fruit products and transports the packaged fruit products.

Wherein, in step 201, the order information is from a trading platform according to an aspect of the present invention.

Wherein, in step 201, the order information is from a fruit purchaser according to another aspect of the present invention.

As shown in fig. 26, wherein the step 204 further comprises the following steps:

step 2041: placing the picked fruit product into a containing cavity of the inflatable packaging bag; and

step 2042: a suitable gas is filled into a fluid storage chamber of the inflatable packaging bag.

In step 2042, the amount of gas to be filled into the fluid storage chamber can be determined according to the shape and the volume of the fruit product to be placed, when the volume of the fruit product is large, less gas is filled correspondingly, and when the volume of the fruit product is small, less gas is filled correspondingly, so that the inner wall of the accommodating cavity is in close contact with the fruit product, and the fruit product is prevented from shaking in the accommodating cavity.

According to another aspect of the invention, as shown in fig. 27, the invention further provides a method of packaging and transporting fruit products, wherein the method comprises the steps of:

step 301: displaying fruit product information;

step 302: receiving purchase information;

step 303: generating order information according to the purchase information; and

step 304: and sending the order information to a fruit supplier.

In step 304, while sending the order information to the fruit supplier, a transporter is dispatched to the fruit supplier to carry at least one air bag, and the fruit product provided by the fruit supplier is packaged by the air bag, and the transportation of the fruit product packaged by the air bag is completed.

Referring to fig. 28, according to another aspect of the present invention, there is further provided a method for using an air packing bag, wherein the method comprises the steps of:

step 401: placing the picked fruit product into a containing cavity of the inflatable packaging bag; and

step 402: and filling fluid into a fluid storage chamber of the inflatable packaging bag, so that the fruit product is tightly wrapped in the containing cavity.

According to another aspect of the invention, as shown in fig. 29, the invention further provides a method of packaging and transporting fruit products, wherein the method comprises the steps of:

step 501: receiving a transportation request;

step 502: assigning a carrier to carry at least one inflatable bag to the fruit supplier;

step 503: packaging a fruit product provided by the fruit supplier using the air-filled packing bag; and

step 504: transporting the fruit product after being packed in the air-packing bag.

Wherein, according to an aspect of the invention, in the step 501, the shipping request is from a fruit supplier.

Wherein, in step 501, the request message comes from a transportation platform according to an aspect of the present invention.

According to another aspect of the invention, as shown in fig. 30, the invention further provides a method of packaging and transporting fruit products, wherein the method comprises the steps of:

step 601: receiving a transportation request;

step 602: getting the fruit product packaged by an air-filled packaging bag from a fruit supplier; and

step 603: transporting the fruit product after being packed in the air-packing bag.

Wherein, according to an aspect of the invention, in the step 601, the shipping request is from a fruit supplier.

Wherein, in step 601, the transportation request is from a transportation platform according to an aspect of the present invention.

Fig. 31 to 59 show an online shopping fruit system according to a fourth modified embodiment of the present invention, which is different from the above embodiments in that the online shopping fruit system is used for selling apples, pears or peaches on a network.

In this embodiment, the present invention provides a fruit transportation method, which provides convenience for all parties in a fruit transportation chain and reduces the cost. In the fruit transportation method of the present invention, a fruit purchaser 6300 puts forward a request 6310 for purchasing fruit through a transaction platform 6400, a fruit supplier 6200 selects a corresponding fluid packing device 600 to pack apples, pears or peaches according to a fruit order information 6410 formed by the request 6310 for purchasing fruit, and transports and delivers the apples, pears or peaches to the fruit purchaser 6300 through the fruit transporter, thereby completing the transaction.

That is to say, after the fruit supplier 6200 receives the order, that is, after the fruit order information 6410, the apple, pear or peach of the corresponding variety is picked, and is directly packaged by the fluid packaging device 600 for distribution, the apple, pear or peach does not need to be sent to a cold and fresh storage for storage, so that the storage space is saved, and the storage cost is reduced.

As shown in fig. 31, the fruit supplier 6200, particularly the fruit grower, may respond to the order information 6410 by performing the following steps.

Step 610: the fruit order information 6410 is received.

The fruit order information 6410 may include, but is not limited to, an order number, the recipient name, address, recipient contact, apple, pear, or peach type requested for purchase, weight, and the like, of the fruit purchaser 6300. The variety of apple, pear or peach requested to be purchased is not limited, and can be snake fruit, Liaonan Hanfu, Shandong Hongxing, Shanxi Wanrong, Qian county Hongfishi, etc.

Specifically, the fruit order information 6410 can be obtained through the trading platform 6400, for example, the trading platform 6400 is an online trading platform, and the fruit supplier 6200 receives the fruit order information 6410 through a sales end 6420 of the trading platform 6400.

Step 620: according to the fruit order information 6410, the corresponding fluid packing device 600 is prepared.

When the fruit order information 6410 shows that the fruit purchaser 6300 orders a plurality of apples, pears, or peaches, the fruit supplier 6200 may select the fluid-packing device 600 as shown in fig. 32 to 35, 39 to 43, or 44 to 53 according to the amount.

After the fluid packaging device 600 is filled with fluid, a three-dimensional packaging structure is formed, and the fluid packaging device can be used for packaging various apples, pears or peaches 6700 and providing different directions for the apples, the pears or the peaches 6700. When the fluid-packing device 600 is not filled with fluid, a flat packing structure is formed for convenient transportation and storage. The fluid-packing device 600 is shown by way of example and not limitation, and other shapes of the fluid-packing device 600 may be used by a fruit grower to pack different apples, pears or peaches, and the specific structure of the example will be described in detail later.

Step 630: picking the corresponding apple, pear or peach, and packaging with the corresponding fluid packaging device 600.

When the fruit order information 6410 indicates the variety and quantity of apples, pears or peaches purchased by the fruit purchaser 6300, the fruit supplier 6200, especially a fruit grower, may pick up a corresponding quantity or weight of apples, pears or peaches and pack the picked apples, pears or peaches with the fluid packing device 600.

In use, the fruit supply 6200 places picked apples, pears, or peaches 6700 into the receiving cavity 6100 of the fluid-packing device 600. Then, an inflator is used. Such as a manual or powered inflator, fills its main channel unit 615 with air so that the fluid-packing device 600 expands according to the size and shape of the package to thereby conformably protect the apple, pear or peach 6700. Of course, the fruit supplier 6200 can fill the fluid packing device 600 with fluid to expand the fluid packing device to be in the use state, and then put the apples, pears or peaches 6700 into the containing cavity 6100.

Step 640: and informing the fruit transporter to take apples, pears or peaches 6700.

After the fruit supplier 6200 packages the apples, pears, or peaches according to the fruit order information 6410, the apples, pears, or peaches to be shipped may be harvested by the fruit transporter. The fruit transporter can be a logistics express belonging to the trading platform 6400, or a logistics transport company of a third party, and the invention is not limited.

It is to be appreciated that the above-mentioned sequence of the flow is not limited as those skilled in the art can appreciate, and the fruit order information 6410 can be responded according to the above-mentioned sequence when the fruit supplying side 6200 is provided with the corresponding fluid packing devices 600. When the fruit supplier 6200 is not provided with the corresponding fluid-packing device 600, the fruit transporter may be informed to take the product and be required to carry a certain number of the fluid-packing devices 600, and then the fluid-packing device 600 is used to pack the corresponding apple, pear or peach 6700.

Step 650: the shipment is confirmed.

After the fruit transporter receives the apples, pears, or peaches 6700, the fruit supplier 6200 may confirm the delivery through the sales end 6420 so that the fruit purchaser 6300 can know the progress of the transaction and prepare for the delivery. For example, the display interface of the fruit order information 6410 may be provided with a "confirm delivery" key, and the fruit supplier 6200 may click the "confirm delivery" key to change the order status to indicate delivery.

Specifically, the fluid packaging apparatus 600 is implemented as a gas cushion material, i.e., the filled fluid is a gas, such as air. Of course, it will be appreciated by those skilled in the art that other fluids, such as insulating liquids, may be filled as desired by the user to provide insulating properties to the apple, pear or peach 6700, such as cryogenic liquids, to provide a cryogenic storage environment for the apple, pear or peach 6700 product, as desired for a particular application.

According to the first preferred embodiment of the present invention, as shown in fig. 32 to 35, the fluid packaging apparatus 600 comprises at least one fluid buffering body 610, which comprises one fluid storage unit 613 to form a three-dimensional packaging bag or a plurality of fluid storage units 613 to form the three-dimensional packaging bag through plastic sealing connection such as bonding or heat sealing. In the example of the present invention shown in fig. 32 to 35, it is formed of a plurality of the fluid storage units 613. More specifically, referring to fig. 32, the fluid buffering body 610 includes at least two fluid storage films 611 and 612 formed into the three-dimensional packaging bag including one or more connected fluid storage units 613 through a series of planar and three-dimensional plastic sealing seams 630 and 640, and each fluid storage unit 613 forms a fluid storage chamber 614 for storing fluid therein.

It will be understood by those skilled in the art that the planar sealing seam 630 is used for plastic sealing the multi-layer film to form a planar cushion material as shown in fig. 32, and the three-dimensional sealing seam 640 is used for further plastic sealing the planar cushion material to form the fluid packaging device 600 into the three-dimensional packaging structure having a spatial three-dimensional configuration and capable of accommodating the packaged article, as shown in fig. 34. The planar plastic sealing seam 630 and the three-dimensional plastic sealing seam 640 may connect the multi-layered films together by means of adhesion or heat-sealing connection, and preferably, in this embodiment, both the planar plastic sealing seam 630 and the three-dimensional plastic sealing seam 640 may be implemented by a heat-sealing process.

Specifically, the planar plastic sealing slit 630 includes a plurality of rows of dividing slits 631 which divide the two fluid storage films 611 and 612 into a plurality of the fluid storage cells 613. That is, it is preferable that each row of the separation slits 631 is formed through a heat-sealing process that heat-seals two layers of the fluid storage films 611 and 612, thereby forming one row of the separation slits 631 between the adjacent two fluid storage units 613. The separation slit 631 may be a continuous heat-seal line so that the fluid storage units 613 are independent from each other. Thus, when one of the fluid storage units 613 is damaged to leak fluid, the other fluid storage units 613 may not be affected. Of course, the fluid storage units 613 can also be communicated with each other, so that only one fluid filling valve 620 is needed to fill all the fluid storage units 613 with fluid. That is, the fluid packing device 600 of the present invention can form a plurality of the fluid storage cells 613 by heat-sealing the first fluid storage film 611 and the second fluid storage film 612.

Further, the fluid buffering body 610 further includes at least one fluid filling valve 620, which may be formed of a suitable valve body, such as a one-way mechanical valve. Referring to fig. 36 to 38, in this embodiment, it is the fluid filling valve 620 formed of at least two valve films 621 and 622, the valve films 621 and 622 of the fluid filling valve 620 and the fluid storage films 611 and 612 are disposed to overlap each other, and a fluid filling passage 623 for filling the fluid storage chamber 614 with fluid is formed between the valve films 621 and 622. It is understood that the valve films 621 and 622 are shorter in length than the fluid storage films 611 and 612. When the fluid storage chamber 614 is filled with fluid through the fluid filling passage 623 and the pressure in the fluid storage chamber 614 reaches a predetermined requirement, the fluid pressure in the fluid storage chamber 614 acts on the valve films 621 and 622 to make the valve films 621 and 622 adhere to one of the fluid storage films, thereby closing the fluid filling passage 623 so that the fluid filling valve 620 functions as a one-way valve.

More specifically, as shown in fig. 36, the fluid filling valve 620 includes valve films 621 and 622, which are shorter than the two fluid storage films 611 and 612, respectively, and which are overlapped with the fluid storage films 611 and 612 for forming a fluid filling passage 623 for filling the fluid storage chamber 614 of each of the fluid storage units 613 with fluid. As shown in fig. 37, the fluid filling valve 620 may further include adding a valve membrane 625 between the two valve membranes 621 and 622 for enhancing sealing performance. As shown in fig. 38, the fluid filling valve 620 may further include a reinforcing film 626 disposed between the fluid storage film 612 and the valve film 622, i.e., disposed outside the two valve films 621 and 622, so as to prevent the joint between the valve film 622 and the fluid storage film 612 from being torn, thereby enhancing the stable joint. Alternatively, the main passage unit 615 may be formed of an outer extension of the valve membranes 621 and 622, and an inner extension thereof forms the fluid filling passage 623 with the fluid storage membranes 611 and 612. It will be appreciated that the specific configuration of the fluid fill valve 620 described above is by way of example only and is not limiting of the invention.

It should be noted that the fluid storage films 611 and 612 of the fluid buffering body 610 and the valve films 621 and 622 of the fluid filling valve 620 may be made of various suitable film materials, such as polyethylene film, polypropylene film, polyvinyl chloride film, polyester film, polystyrene film or composite film, and the invention is not limited in this respect, as long as it is a suitable flexible film. It is worth mentioning that, in order to increase the one-way sealing effect, the valve membranes 621 and 622 of the fluid filling valve 620 may also be self-adhesive films modified by adding chemical components to the above films.

It should be noted that the fluid packing device 600 may have a plurality of the fluid filling valves 620, or may have only one fluid filling valve 620, which is not limited by the present invention.

Further, the fluid buffer main body 610 includes a main channel unit 615 connected to each of the fluid storage units 613, and preferably integrally extended from each of the fluid storage units 613. More specifically, according to the first preferred embodiment, the main channel unit 615 is perpendicular to the extending direction of the fluid storage unit 613. For example, in this embodiment, each of the fluid storage units 613 extends in a longitudinal direction, and the main channel unit 615 extends in a transverse direction. The main channel unit 615 forms a main channel 6151, and the main channel 6151 has a filling fluid port 152, when the filling fluid port 152 is located with a filling fluid nozzle and performs a filling fluid operation, the fluid enters the main channel 6151 from the filling fluid port 152 along a transverse direction and enters the fluid storage unit 613 along a longitudinal direction again, and when a predetermined fluid pressure is reached in the fluid storage chamber 614, the valve membranes 621 and 622 of the fluid filling valve 620 are attached to one of the fluid storage membranes 611 or 612, thereby realizing self-closing to prevent the filled fluid from re-permeating into the main channel 6151.

It is understood that the main channel unit 615 may be formed of two layers of the fluid storage membranes 611 and 612, as shown in fig. 36; it is also possible to form two layers of the valve films 621 and 622 as shown in fig. 38, or one of the fluid storage films 611 or 612 and one of the valve films 621 or 622.

As shown in fig. 32, the planar plastic sealing seam 630 further comprises a continuously sealed edge sealing seam 632 on the top and bottom sides of the fluid damping body 610 and a continuously sealed primary channel sealing seam 633 on the top side adjacent to the edge sealing seam 632, wherein the primary channel 6151 is formed between the edge sealing seam 632 on the top side and the primary channel sealing seam 633. It will be appreciated that the edge seal 632 is formed by a plastic molding process such as bonding or heat sealing and sealingly connects the two fluid storage films 611 and 612. The main passage sealing seams 633 are formed by a plastic molding process such as bonding or heat sealing and connect two layers of the fluid storage films 611 and 612 and two layers of the valve films 621 and 622, respectively, and the main passage sealing seams 633 at the upper and lower sides, which are formed by, for example, a one-time heat sealing process, respectively heat-seal the fluid storage film 611 and the valve film 621, and heat-seal the fluid storage film 612 and the valve film 622, as shown in fig. 36, and also heat-seal the valve films 621 and 622 at positions other than the positions corresponding to the fluid passages 623.

The planar sealing seam 630 includes a series of guide slits 634, wherein one fluid filling valve 620 is provided with two spaced rows of guide slits 634, which are formed by heat sealing the valve films 621 and 622, thereby forming the fluid filling passage 623 between the two rows of guide slits 634.

Further, the valve films 621 and 622 are heat-sealed to the fluid storage film 611 by a plurality of connecting seams 635, so that when a predetermined pressure is reached in the fluid storage chamber 614, the pressure acts on the valve films 621 and 622, and is simultaneously pressed toward the fluid storage film 611 and finally attached to the fluid storage film 611 due to the arrangement of the connecting seams 635, thereby closing the fluid filling channel 623. That is, the joining seam 635 heat-seals two layers of the valve films 621 and 622 and one layer of the fluid storage film 611. In addition, as shown in fig. 32, the shape of each of the connecting seams 635 is designed such that it further prevents backflow of fluid, that is, when the fluid in the fluid storage chamber 614 wants to flow back, the fluid is blocked by the connecting seam 635 and cannot easily permeate back into the main channel 6151.

In addition, in heat-sealing these planar plastic sealing seams 630, the fluid filling channels 623 of the valve films 621 and 622 of the fluid filling valve 620 may be formed by providing a heat-resistant barrier means, which is removed after the heat-sealing process. According to the first preferred embodiment, a heat-resistant layer 624, as shown in fig. 36 and 38, for example, heat-resistant ink, is disposed between the valve films 621 and 622 of the fluid filling valve 620 and attached to the inner surface of one of the valve films 621 or 622, so that when the main passage sealing seam 633 is formed by heat-sealing, the two valve films 621 and 622 are not heat-sealed at the position corresponding to the heat-resistant layer 624, and the fluid filling passage 623 can communicate with the main passage 6151 without closing the inlet thereof by heat-sealing.

According to the first preferred embodiment, the main channel 6151 is formed by two layers of the fluid storage film 611 and 612, the heat resistant layer 624 and the valve membranes 621 and 622 each have an extension into the main channel 6151, the planar plastic seam 630 further includes a row of spaced apart laterally aligned engagement seams 636 corresponding to the location of the extended sections of the heat resistant layer 624, because of the provision of the heat resistant layer 624, the joint seam 636 connects the two fluid storage membranes 611 and 612 and the two valve membranes 621 and 622 together, while the two valve membranes 621 and 622 are not heat sealed, the seam 636 is positioned such that when the fluid cushion body 610 is filled with fluid, after the fluid enters the main channel 6151, the adjacent valve membranes 621 and 622 and the corresponding connected fluid storage membranes 611 and 612 can expand together to open the corresponding fluid filling channel 623.

Fig. 32 to 35 show a fluid packing device 600 according to a preferred embodiment of the present invention, fig. 32 is a schematic plan view of the fluid packing device, and the fluid buffering body 610 in this exemplary embodiment includes a plurality of the fluid storage units 613 arranged side by side in a lateral direction. The main channel unit 615 is arranged in a lateral direction and is integrally formed with the fluid storage unit 613. The fluid storage unit 613 may also be provided with a plurality of the fluid filling channels 623 formed by the fluid filling valve 620, thereby enhancing fluid filling speed and efficiency.

The fluid storage unit 613 extending along the longitudinal direction as shown in fig. 32 is adapted to be folded in half longitudinally, so as to obtain a structure in which the high-end fluid storage unit and the low-end fluid storage unit are folded on each other as shown in fig. 33, so that the fluid buffering body 610 forms a front sidewall 610a and a rear sidewall 610b, and then edge portions of the front sidewall 610a and the rear sidewall 610b on the left and right sides of the fluid buffering body 610 are connected by the three-dimensional plastic-sealed seams 640 on the left and right sides, so that after the fluid buffering body 610 is filled with fluid, the fluid buffering body 610 forms a containing cavity 6100 having an opening 6110, wherein a packaged article is adapted to be placed into the containing cavity 6100 through the opening 6110 and stored in the containing cavity 6100.

It is understood that, in this embodiment, the fluid buffering body 610 is provided with two rows of the three-dimensional plastic sealing seams 640, which may be continuous plastic sealing or intermittent plastic sealing. The plastic packaging structure can be formed through primary plastic packaging, and can also be formed through secondary plastic packaging. The invention is not limited in this respect.

More specifically, the three-dimensional plastic sealing seam 640 includes two side sealing seams 641 which respectively connect the front sidewall 610a and the rear sidewall 610b at two sides of the fluid-packing device 600, so as to form the fluid-packing device 600 into a bag-like structure. According to the first preferred embodiment of the present invention, the side sealing seam 641 is a continuous heat sealing seam so as to prevent the fluid filled in the fluid packaging device 600 from overflowing. It is worth mentioning that the side sealing seam 641 can be formed by one heat sealing or by two heat sealing. The invention is not limited in this respect.

Further, according to the first preferred embodiment of the present invention, the fluid packing device 600 has at least one through hole 650 which is spaced apart by the separation slit 631. In the present embodiment, as shown in fig. 32, the through hole 650 is formed between two adjacent fluid storage units 613. It should be understood that the present embodiment is only an example and not a limitation, and the through holes 650 may be disposed at intervals of different numbers of the fluid storage units 613, such as two intervals of the fluid storage units 613, or a part of the fluid storage units 613, another part of the fluid storage units 613, and the like. That is, the designer can select an appropriate arrangement according to the ventilation requirement or the shape of the packaged object.

The through hole 650 penetrates the fluid storage films 611 and 612, and the apple, pear or peach 6700 can be contacted with the outside through the through hole 650, so that aerobic respiration is performed, and rotting caused by insufficient aerobic respiration or anaerobic respiration in the accommodating cavity 6100 is avoided. Meanwhile, the through hole 650 provides a heat dissipation channel for the apples, the pears or the peaches 6700, and is used for removing respiratory heat, field heat and the like.

In the first preferred embodiment of the present invention, the through hole 650 is formed between the adjacent separation lines 631, that is, the through hole 650 penetrates one of the fluid storage units 613, that is, the fluid storage films 611 and 612, to communicate the housing chamber 6100 with the outside. As shown in fig. 32, the partition line 631 forms a plurality of the fluid storage units 613 connected, and the through hole 650 is formed in any one of the fluid storage units 613.

In this case, the formation of the through hole 650 is simple, and it is only necessary to form the through hole 650 by using a scribing, a shearing, or the like action on the predetermined fluid storage unit 613 after the fluid storage unit 613 is formed. That is, the through hole 650 can be formed based on the existing fluid packing bag, without making a great change to the existing process flow or discarding the existing fluid packing bag, thereby saving the cost.

It will be understood by those skilled in the art that the through hole 650 may be disposed on the front sidewall 610a and the rear sidewall 610b of the fluid packaging bag, respectively, or may be disposed only on the front sidewall 610a or the rear sidewall 610b of the fluid packaging bag, which is not limited in this respect.

Since the through hole 650 is formed in the fluid storage unit 613, in order to prevent fluid leakage, the fluid storage unit 613 where the through hole 650 is located is not communicated with the other fluid storage units 613 that can be filled with fluid, so that fluid leakage due to the through hole 650 is prevented. Accordingly, the dividing line 631 on both sides of the through hole 650 is preferably continuously molded, so as to prevent the fluid storage unit 613 on both sides of the through hole 650 from leaking fluid and affecting the buffering performance.

In addition, in order to avoid leakage of the filling fluid from the through hole 650 when filling the fluid, it is wasteful or a safety hazard, especially when the filling fluid is a liquid or a harmful gas, while further blocking the communication between the fluid storage unit 613 where the through hole 650 is located and the other fluid-chargeable fluid storage units 613. The fluid channel 633 of the fluid storage unit 613 where the through-hole 650 is located is sealed by a series of barrier slits 637.

Specifically, the blocking slit 637 is formed by a plastic-sealing process such as bonding or heat-sealing, and connects the fluid storage membrane and the valve membrane around the heat-resistant device together to block the communication between the fluid storage chamber 614 and the main passage 6151. In the first preferred embodiment, the blocking slit 637 is provided in the path of the fluid filling passage 623, connecting the fluid storage membranes 611 and 612 and the valve membranes 621 and 622 therearound, and blocks the passage of the filled fluid into the fluid storage unit 613 where the through hole 650 is located. It is worth mentioning that in order to avoid the heat-resistant layer 624 from preventing the blocking slit 637 from being heat-sealed, the blocking slit 637 is disposed under the heat-resistant layer 624.

Of course, it is known to those skilled in the art that when the planar plastic sealing seam 630 is formed, a heat-resistant device may not be disposed between the valve films 621 and 622 of the fluid storage unit 613 where the through hole 650 is previously defined, and the planar plastic sealing line 630 may function as the blocking seam 637 to block the communication between the fluid storage chamber 614 and the main passage 6151.

Further, the fluid packing device 600 includes at least one positioning portion 660 spaced apart from the through hole 650 in the lateral direction. In the first preferred embodiment, the positioning parts 660 are provided at intervals to the fluid storage unit 613, and the fluid storage films 611 and 612 are connected by a plastic molding process such as bonding or heat sealing.

In the first preferred embodiment of the present invention, the positioning portion 660 spaces the adjacent through holes 650 from the same fluid storage unit 613. That is, according to the first preferred embodiment of the present invention, a plurality of the through holes 650 can be disposed at intervals between two adjacent dividing slits 631, that is, a plurality of the through holes 650 can be disposed at intervals on the same fluid storage unit 613. The through holes 650 of the same fluid storage unit 613 are spaced by the positioning portions 660.

It is noted that the positioning parts 660 may be preset according to the size of the through-hole 650, and the through-hole 650 is formed between the adjacent positioning parts 660. A plurality of the positioning parts 660 may be provided in advance of the fluid storage unit 613 where the through hole 650 is located, and a manufacturer or a user may select whether to cut the positioning parts 660 according to a requirement, such as a size of an apple, a pear, or a peach 6700, and a ventilation or heat exhaust requirement, to increase the size of the through hole 650. That is, the diameter of the through hole 650 may be a distance between one or more adjacent positioning parts 660.

It should be noted that the positions of the positioning portion 660 and the through hole 650 are illustrated by way of example and not limitation. The positioning portion 660 and the through hole 650 only need to be disposed below the blocking slit 637 to prevent fluid leakage. In this embodiment, the front sidewall 610a and the rear sidewall 610b are connected to the adjacent fluid storage unit 613 on the blocking slot 637, so as to enhance the stability of the opening 6110 of the housing 6100 and enhance the connection strength between the adjacent fluid storage units 613.

Of course, when the positioning part 660 and the through hole 650 are formed at the fluid filling valve 620, the positioning part 660 connects the valve membrane and the fluid storage membrane, and the through hole 650 connects through the valve membrane and the fluid storage membrane.

Further, the planar plastic sealing seam 630 further includes at least one gap 638 disposed at intervals in the fluid storage unit 613, the fluid storage membranes 611 and 612 are connected by a plastic sealing process such as bonding or heat sealing, so as to divide the fluid storage unit 613 into a plurality of sub fluid storage units 6131, and the adjacent sub fluid storage units 6131 are communicated with each other. The spaced seams 638 allow for relatively flexible deformation of adjacent sub-fluid storage units 6131, allowing for an increased range of deformation of the fluid storage unit 613, and thus an increased range of sizes of apples, pears, or peaches 6700 for which the fluid storage unit is suitable.

Preferably, the positioning portions 660 and the spaced seams 638 are formed in a unified manner, the planar plastic sealing seams 630 form a plurality of the fluid storage units 613, and the spaced seams 638 or the positioning portions 660 form a plurality of sub fluid storage units 6131. The through-hole is formed between any two positioning parts 660 or the spacing slits 638. Preferably, the spacing slits 638 and the positioning parts 660 are formed at the same horizontal line, the diameter of the through hole 650 may be the length of one or more longitudinally adjacent sub fluid storage units 6131.

That is, the transverse interval of the positioning part 650 and the longitudinal interval of the separation slit 631 and the adjacent through holes 650 are connected, the accommodation cavity 6100 forms a net type storage ventilation space, and the apple, pear or peach 6700 can ventilate and radiate heat from different directions, thereby prolonging the shelf life of the apple, pear or peach 6700. Compared with cold chain transportation, the fluid packaging device 600 is lower in cost and economical and practical. In addition, the positioning portion serves as a stress point to distribute the force applied to the fluid packaging apparatus 600, thereby reducing the possibility of breakage of the fluid packaging apparatus 600.

Since the fluid packing device 600 is generally made of flexible films such as polyethylene film, polypropylene film, polyvinyl chloride film, polyester film, polystyrene film, or composite film, it is deformed by a force in an allowable moving space. When the apple, pear or peach 6700 is put into the containing cavity 6100, the fluid buffering body 610 is pressed to deform, so as to provide a storage space for the apple, pear or peach 6700. In the invention, as the adjacent sub-fluid storage units 6131 are separated by the through hole 650, the relative movement range of the adjacent sub-fluid storage units 6131 is increased, the limitation is reduced, the distance between the adjacent sub-fluid storage units 6131 can be adaptively adjusted according to the volume and shape of the apple, pear or peach 6700, and the fitting degree between the fluid packaging device 600 and the apple, pear or peach 6700 is higher. Compared with the traditional fluid packaging bag with fixed empty containing space, the fluid packaging device 600 of the invention has higher adaptability, and the size range of the applicable apples, pears or peaches 6700 is enlarged.

In addition, when an apple, pear or peach 6700 is placed in the containing cavity 6100, the bottom end portions of the front side wall 610a and the back side wall 610b are forced to deform outward, and the top end portions of the front side wall 610a and the back side wall 610b are driven by the bottom end portions and tend to deform inward, so the opening 6110 of the containing cavity 6100 formed by the top end portions of the front side wall 610a and the back side wall 610b tends to shrink, and the apple, pear or peach 6700 is reduced from leaving the fluid packaging apparatus 600 from the opening 6110.

It should be noted that the arrangement, arrangement position, arrangement number and arrangement shape of the through holes 650 are merely examples and not limitations of the present invention. According to other embodiments of the present invention, the pressing seams 642 may have other shapes, positions and numbers. The present invention is not limited in this respect as long as the object of the present invention can be achieved.

As shown in fig. 39 to 43, there is the fluid packaging apparatus 600 according to the second embodiment of the present invention. In this embodiment, the fluid packaging apparatus 600 is composed of more than one fluid buffering body 610, for example, two fluid buffering bodies, a first fluid buffering body 610A and a second fluid buffering body 610B.

In this embodiment, the first fluid buffering body 610A is provided with a series of corresponding fluid filling valves 620A as described in fig. 32. The first fluid buffering body 610A includes a plurality of first fluid storage units 613A which are formed by two layers of fluid storage films 611A and 612A through a series of planar plastic sealing seams 630A and a series of three-dimensional plastic sealing seams 640A. The first fluid storage unit 613A has a first fluid storage chamber 614A.

The planar plastic seal seam 630A includes a series of separation seams 631A, two edge seal seams 632A, a primary channel seal seam 633A, a series of guide seams 634A, a series of connecting seams 635A, a series of joining seams 636A, and a series of spacer seams 638A.

Accordingly, the second fluid cushion body 610B is provided with a series of corresponding fluid fill valves 620B as described in fig. 39 and 40. The second fluid buffering body 610B includes a plurality of second fluid storage units 613B formed by two layers of fluid storage films 611B and 612B through a series of planar molding seams 630B. The second fluid storage unit 613B has a second fluid storage chamber 614B.

The planar plastic seam 630B includes a series of separation seams 631B, two edge seal seams 632B, a primary channel seal seam 633B, a series of guide seams 634B, a series of connecting seams 635B, a series of joining seams 636B, and a series of spacer seams 638B.

As shown in fig. 39 and 40, the first fluid buffer main body 610A is divided into a plurality of first sub-fluid storage units 6131A by a plurality of dividing slits 638A, the first sub-fluid storage units 6131A in the same column are communicated with each other, fluid can flow through, and the plurality of first sub-fluid storage units 6131A arranged side by side form a plane. That is, the first fluid buffer main body 610A is foldable and polyhedral by the space 638A. In the present second embodiment, the first fluid buffering body 610A is partitioned into six sides at intervals. Each adjacent face can be continuously bent along the spacing seam 638A into an 8 shape to form a plurality of partitioned first accommodation cavities 6100A for accommodating apples, pears or peaches 6700 as shown in fig. 39.

The second fluid buffer main body 610B is also divided into a plurality of second sub-fluid storage units 6131B by the dividing slits 638B, the second sub-fluid storage units 6131B in the same row are communicated with each other, fluid can flow through, and the plurality of second sub-fluid storage units 6131B arranged side by side form a plane. That is, the second fluid buffering body 610B is partitioned by the partition seams 638B into a bendable multi-face. In the present second embodiment, the second fluid buffering body 610B is partitioned into four sides. Each adjacent surface can be continuously bent along the gap 638A in a shape of a "square" to form the second receiving cavity 6100B to receive the folded first fluid buffering main body 610A, as shown in fig. 43.

The first fluid buffering body 610A has opposite first and fourth sides 610A 'and 610 d'. When the folded first fluid buffering body 610A is placed in the containing cavity 6100, the first side 610A 'and the fourth side 610 d' cooperate with the second buffering body 610B to form a complete packing box. That is, it is not necessary to additionally provide both sides of the packing box to the second buffer body 610, so that the fabrication of the fluid buffer body 610 is simplified.

Further, the first fluid buffering body 610A is bent to have a second side 610b ', a third side 610 c', a fifth side 610e 'and a sixth side 610 f' arranged at an angle with respect to each other. When the first fluid buffering body 610A is bent, the first side 610A ', the second side 610 b', the third side 610c ', the fourth side 610 d', the fifth side 610e 'and the sixth side 610 f' are sequentially connected in an end-to-end manner to form the "8" shape. When the first fluid buffering body 610A in the shape of "8" is placed into the second accommodating cavity 6100B, the second side surface 610B ', the third side surface 610 c', the fifth side surface 610e ', and the sixth side surface 610 f' divide the second accommodating cavity 6100B into a plurality of first accommodating cavities 6100A, and accommodate a plurality of apples, pears, or peaches 6700. The apples, pears or peaches 6700 are spaced apart from one another and adjacent apples, pears or peaches 6700 are spaced apart from one another by a fluid, such as a column of air, that is filled with a fluid and does not collide with one another. Each individual apple, pear or peach 6700 is surrounded by a column of fluid that is protected, and the likelihood of "injury" to the apple, pear or peach is reduced as compared to when the apples, pears or peaches are stacked together in conventional shipping and storage.

It is worth mentioning that the circumferential surface of the second buffer main body 610B in the shape of "mouth" is adapted to the length, width and height of the first buffer main body 610B in the shape of "8", so as to avoid that the two buffer main bodies cannot be matched for use due to size reasons or cause scattered shelves when combined.

As shown in fig. 44 to 53, the fluid packaging apparatus 600 according to the second embodiment of the present invention is a modified fluid packaging apparatus 600, and in this embodiment, the fluid packaging apparatus 600 is composed of more than one fluid buffering body 610, for example, two fluid buffering bodies, a first fluid buffering body 610C and a second fluid buffering body 610D.

In this embodiment, the first fluid cushion body 610C is provided with a series of corresponding fluid fill valves 620C. The first fluid buffering body 610C includes a plurality of first fluid storage units 613C formed by two layers of fluid storage films 611C and 612C through a series of planar plastic sealing seams 630C and a series of three-dimensional plastic sealing seams 640C. The first fluid storage unit 613C has a first fluid storage chamber 614C.

The planar plastic seal seam 630C includes a series of separation seams 631C, two edge seal seams 632C, a primary channel seal seam 633C, a series of guide seams 634C, a series of connecting seams 635C, a series of joining seams 636C, and a series of spacer seams 638C.

Accordingly, the second fluid cushion body 610D is provided with a series of corresponding fluid fill valves 620D. The second fluid buffering body 610D includes a plurality of second fluid storage units 613D which are formed by two layers of fluid storage films 611D and 612D through a series of planar plastic sealing seams 630D and a series of three-dimensional plastic sealing seams 640D. The second fluid storage unit 613D has a fluid storage chamber 614D.

The planar plastic seal seam 630D includes a series of separation seams 631D, two edge seal seams 632D, a primary channel seal seam 633D, a series of guide seams 634D, a series of connecting seams 635D, a series of joining seams 636D, and a series of spacer seams 638D.

Unlike the second embodiment described above, the first fluid buffering body 610C is partitioned into nine surfaces at intervals. The faces at both ends are continuously bent approximately ninety degrees along the said spaced seams 638C to form a plurality of partitioned first housing cavities 6100 to package a plurality of apples, pears or peaches. That is, in this embodiment, four sides of the top end of the first fluid buffering body 610C are continuously bent by approximately ninety degrees and end to form one first accommodating cavity 6100C, and four sides of the bottom end are continuously bent by approximately ninety degrees and end to form another first accommodating cavity 6100C. In addition, after being bent, the middle surface connects the edges of the bent top and bottom surfaces to form another first accommodation cavity 6100C.

In this embodiment the second fluid buffering body 610D is the same as the second embodiment described above. In this embodiment, when the second fluid buffering body 610D is placed in the second containing cavity 6100D of the second fluid buffering body 610D, the peripheral walls thereof also cooperate to form a complete packing box, so as to avoid having a gap.

The first fluid buffering body 610C may be used in combination, as shown in fig. 48 to 53, two or more first fluid buffering bodies 610C may be placed in the same direction or in a back direction, and the first accommodation cavity 6100C located at the middle portion may form a closed structure by using a side wall of another first fluid buffering body 610C or a peripheral wall of the second fluid buffering body 610D, so as to accommodate and protect the apple, pear or peach 6700.

It is worth mentioning that the fluid-packing device 600 has better heat-insulating performance regardless of the model of the fluid-packing device 600, as shown in fig. 54 and 55. Tests were performed using the same apples, pears or peaches, and fig. 54 shows the temperature change of the packaged apples, pears or peaches 6700, the temperature change of the external environment and the temperature change of the interior of the package when the foam box and the carton were used in the conventional transportation method. Fig. 55 shows that under the same conditions, the temperature change of the packaged apple, pear or peach 6700, the temperature change of the external environment and the temperature change of the interior of the package are almost the same in the method of the present invention.

That is, the heat insulation performance of the fluid packaging device 600 can inhibit the external environment and the internal environment from exchanging heat, when transporting and storing apples, pears or peaches in winter, the fluid packaging device 600 can keep the internal environment at normal temperature, so as to prevent the internal heat from dissipating outside, and further prevent the apples, the pears or the peaches from being frostbitten. When transporting and storing apples, pears or peaches in summer, the fluid packing device 600 can prevent external high temperature from affecting the temperature of the internal environment, preventing the formation of thermal convection. If the transportation scope is nearer, apple, pear or peach can be directly normal atmospheric temperature delivery need not to adopt the cold chain transportation, if the transportation is far away, the time that needs the transportation is longer, when adopting the cold chain transportation, fluid packaging device 600 can restrain the air conditioning of refrigerant and disperse outward, makes internal environment keep low temperature, prolongs the fresh-keeping period of apple, pear or peach.

As shown in fig. 56, in the transportation and distribution link of the fruit transportation method of the present invention, the flow of transporting apples, pears or peaches is as follows:

step 710: a shipping order message 6510 is received.

After the fruit order information 6410 is formed, the fruit supplier 6200 may send a transportation request to the fruit transporter. For example, the fruit supplier 6200 may contact a third party transportation company by telephone, WeChat, QQ, SMS, etc., or the fruit supplier 6200 sends a transportation request to a transportation end 6430 through the sales end 6420, and the transportation end 6430 receives the transportation order information 6510.

The shipping order information 6510 may include, but is not limited to, a sender address, a sender name, a sender contact address, a recipient name, a recipient contact address, whether to order or time to send, an order time, whether to carry the fluid packaging apparatus 600 and the model of the fluid packaging apparatus 600 that it is required to carry, and the like, information required in shipping.

Step 720: and distributing corresponding transportation tasks according to the transportation order information 6510.

Based on the transportation order information 6510, the fruit transporter assigns the corresponding transportation task to an appropriate transporter, such as to the closest transporter pick up to the fruit supplier 6200, or to a transporter having time to pick up.

The task allocation mode may be to notify the corresponding transportation staff by way of on-the-spot, telephone, short message, etc., and may be to use the sub-transportation terminal 6431 of the transportation terminal 6430 by the transportation staff, where the sub-transportation terminal 6431 and the transportation staff may correspond to each other one to one by a unique identifier.

As mentioned above, the fruit supplier 6200 can reserve the pick-up time, and the transporter can distribute the orders with the time and the place closer to the transporter in a centralized manner, so as to reduce the time of the transporter and improve the transportation efficiency.

Those skilled in the art will appreciate that this step may be omitted in some cases, such as when the supplier 6200 directly contacts nearby points of transport or transporters, where the transport tasks are equivalent to being directly assigned to those nearby points of transport or transporters.

Step 730: taking apples, pears or peaches, and carrying the required fluid packaging device 600.

The transportation personnel assigned with the transportation task goes to the fruit supply party 6200 to collect the apples, pears or peaches to be transported according to the information such as picking address and picking time required by the transportation order information 6510. When the fruit supplier 6200 requests to carry the fluid-packing devices 600, a carrier carries the corresponding fluid-packing devices 600 to pick up the products, so that the fruit supplier 6200 can use the corresponding fluid-packing devices 600 to pack apples, pears, or peaches.

Step 740: and transporting, distributing and packaging the apples, the pears or the peaches, and updating logistics information.

According to the progress of transportation and distribution, the fruit transporter updates the position of the packaged apples, pears or peaches through the transportation end 6430, so that after the sales end 6420 and the purchase end 6440 display the fruit supplier 6200 and the fruit purchaser 6300 can timely acquire the dynamic state of logistics information.

Step 750: and (5) settling the transportation fee.

It is understood that there are various ways to settle the transportation fee, such as payment by the fruit purchaser 6300, payment by the goods delivery, prepayment at the time of sending the fruit purchase request, such as payment by the fruit supplier 6200, payment at the time of getting goods by the fruit transporter, or payment by the fruit transporter directly from the sales end 6420 to the transportation end 6430.

As shown in fig. 57, in the fruit transportation method of the present invention, the fruit order information 6410 is formed as follows:

step 810: apple, pear, or peach information is received.

Compared with the traditional offline sales, the important point of online sales combined with the network platform is that all aspects of information of apples, pears or peaches are displayed as comprehensively as possible, and besides basic information of apple, pear or peach types, names, production places, prices, real object photos and the like, the information is described by words or audio images, and other auxiliary information can be provided. For example, the growth process, the picking process, the packaging process and the like of the apples, the pears or the peaches can be displayed by videos or photos, so that the authenticity of the information such as the production place and the like can be indirectly proved. Or may upload the packaged state of apples, pears or peaches, illustrating the advantages of the fluid-packing device 600.

The fruit transporter 6200 may upload the apple, pear, or peach information using the sales end 6420, be received and stored by the data storage 6450 of 6400 of the transaction platform, and the purchasing end 6440 invoke a display.

Step 820: the fruit purchase request 6310 and advance payment are received, forming the fruit order information 6410.

When the fruit purchaser 6300 browses and selects apples, pears, or peaches provided by the fruit supplier 6200 through the purchasing end 6440, the fruit purchasing request 6310 may be sent, for example, to add corresponding apples, pears, or peaches and the amount to a shopping cart, and submit an order after selecting or filling a shipping address. A processing unit 6460 of the trading platform 6400 generates the fruit order information 6410 according to the fruit purchase request 6310, and transmits the fruit order information 6410 to the sales end 6420 of the corresponding fruit supplier 6200.

Meanwhile, in order to ensure the benefits of both parties of the transaction, the fruit purchaser 6300 has to pay in advance to the transaction platform 6400 when submitting an order. That is, the transaction platform 6400 receives advance payment as an intermediate account, rather than being paid directly by the merchant. The fruit order information 6410 may include an order status, such as whether the fruit purchaser 6300 pays in advance.

Step 830: and (3) packaging the corresponding apples, pears or peaches by using the corresponding fluid packaging device 600.

After the fruit order information 6410 is formed, the fruit supplier 6200 may perform the steps 610 to 650, and select the corresponding fluid packing device 600 to pack the apple, pear or peach according to the fruit order information 6410.

Step 840: transporting, distributing and packaging the apples, the pears or the peaches.

The fruit supply 6200 can transport and deliver the packaged apples, pears or peaches after packaging the corresponding apples, pears or peaches. The detailed flow and details of the transport dispatch may be found in steps 710 through 740.

Step 850: an order for receiving the goods is received.

When the fruit purchaser 6300 receives the packaged apple, pear or peach, it may be confirmed by the sales terminal 6420 that the apple, pear or peach has been received, that is, the receiving confirmation instruction is transmitted. For example, the seller 6420 may be provided with a "receive confirmation" key corresponding to the fruit order information 6410, and the fruit purchaser 6300 may click the "receive confirmation" key to transmit the receive confirmation command.

Step 860: transfer to the fruit-supplier 6200 account.

The confirmation receipt command triggers a transfer command, and the processing module 6400 transfers the prepayment to the account of the fruit supplier 6200 to complete the order.

The fruit supplier 6200 may be a fruit grower planted with a fruit tree, an agent of a farm, a fruit wholesaler, a fruit retailer, or an online e-commerce, etc. The fruit purchaser 6300 may be a general consumer, or an agent of the farm that is stocking the farm, a fruit wholesaler, a fruit retailer, and so forth. That is, the fruit-providing party 6200 and the fruit purchaser 6300 are relative, not specifically designated. Preferably, the fruit supply 6200 is a fruit grower planted with fruit trees, and a fruit transportation method suitable for the present invention can make the efficiency of the whole fruit transportation chain higher.

The fruit transporter can be a third-party logistics express company independent of the transaction platform 6400, or an express transportation chain affiliated to the transaction platform 6400. The transaction platform 6400 is a platform for the fruit supplier 6200 and the fruit buyer 6300 to implement remote online transaction of apple, pear or peach.

Specifically, as shown in fig. 59, the transaction platform 6400 includes the sales end 6420, the transportation end 6430, the purchasing end 6440, the data storage unit 6450, and the processing unit 6460. The processing unit 6460 sends the fruit order information 6410 to the corresponding selling end 6420 according to the fruit purchase request 6310 sent by the purchasing end 6440. The sales end 6420 sends different status change instructions according to different status of the fruit order information 6410, for example, the sales end 6420 sends a shipped instruction so that the fruit order information 6410 is in a shipped status. The transportation end 6430 changes the logistics information, and the sales end 6420 and the purchasing end 6440 can call the display of the logistics information.

Further, the sales end 6420 corresponds to the fruit-supplying side 6200, and the fruit-supplying side 6200 may receive the fruit order information 6410 using the sales end 6420 or send a transportation request to the transportation end 6430. The sales end 6420 can be a mobile phone, a computer, a tablet computer, a wearable device, and the like.

The point-of-sale 6420 includes a point-of-sale display module 6421, a point-of-sale input module 6422, a point-of-sale order module 6423, a merchandise module 6424, a point-of-sale transportation module 6425, and a point-of-sale interface 6426. The sales end interface 6426 operatively connects the sales end 6420 to the transportation end 6430, the purchasing end 6440, the data storage unit 6450, and the processing unit 6460, circulates data information throughout the transaction platform. Meanwhile, the sales end interface 6426 may be operatively connected to the sales end display module 6421, the sales end input module 6422, the sales end order module 6423, the goods module 6424 and the sales end transportation module 6425, so that the instruction and data information of each module can also be communicated to other unit modules.

The sales-side display module 6421 displays the sales-side input module 6422 input information and the information received by the sales side 6420 for the fruit-supplying side 6200 to respond. For example, the sales end display module 6421 displays the fruit order information 6410, the fruit supplier 6200 can pick the corresponding apple, pear or peach to select the corresponding fluid-packing device 600. For example, the sales-side display module 6421 may display logistics information so as to know the transportation status of the corresponding order.

The point-of-sale input module 6422 receives information and instructions entered by the fruit-supplying party 6200. For example, the seller input module 6422 receives the input of a user name and a password, performs identity verification, and logs in the transaction platform. Or the sales end input module 6422 receives an instruction to change the state of the fruit order information 6410, and receives a transportation request instruction. Or the sales end input module 6422 receives uploading of information of the apples, the pears or the peaches, such as characters or audio, for example, uploading of character descriptions of names, types, places of origin, and the like of the apples, the pears or the peaches, for example, uploading of pictures or videos of the apples, the pears or the peaches. The point-of-sale input module 6422 may be a keyboard, touch screen, mouse, voice or gesture recognition system, etc.

The sales-side order module 6423 responds to instructions directed to the fruit order information 6410, such as instructions to alter the status of the fruit order information 6410, and the like. When the buyer 6440 sends the fruit purchase request 6310, the sales-side order module 6423 receives the sales order information 6410 formed by the processing unit 6460 and displays it by the sales-side display module 6421. When the fruit vendor 6200 picks apples, pears, or peaches and packages for shipment, a confirmation shipment instruction may be sent by the vendor order module 6423 to change the fruit order information 6410 from a ready-to-ship state to a shipped state.

The goods module 6424 may respond to instructions directed to the apple, pear, or peach information, such as receiving the apple, pear, or peach information. When an apple, pear, or peach is newly listed or is about to ripen from a new variety of apple, pear, or peach, such as mature peach in mid-June or early-ripe pear in late August, the fruit provider 6200 inputs an instruction to add fruit information, and the goods module 6424 may display a form for inputting information of the apple, pear, or peach to be listed, for filling in the information of the new or about to be listed apple, pear, or peach. When the apple, pear or peach is out of the market at the end of the mature period, such as watermelon or Hami melon in mid-September, the fruit supplier 6200 inputs a command for deleting the fruit information, and the commodity module 6424 deletes the corresponding apple, pear or peach information.

The sales end transportation module 6425 responds to transportation requests, i.e., when the fruit supplier can send an apple, pear, or peach transportation request to the fruit transporter by sending the sales end transportation module 6425. The sales-side transportation module 6425 may further receive logistics information, and after the fruit transportation party takes the goods, the fruit supplier 6200 may input the corresponding transportation order number into the matched fruit order information 6410, or may query the corresponding logistics information according to the unique transportation order number.

Further, the purchasing end 6440 corresponds to the fruit purchaser 6300. The fruit purchaser 6300 may transmit the fruit purchase request 6310 or receive logistics information using the purchasing end 6440. The purchasing end 6440 can be a mobile phone, a computer, a tablet computer, or a wearable device.

The purchasing end 6440 includes a purchasing end display module 6441, a purchasing end input module 6442, a browsing module 6443, a shopping cart module 6444, a purchasing end order module 6445, a payment module 6446, a purchasing end transportation module 6448 and a purchasing end interface 6447. The purchasing agent interface 6447 operatively connects the purchasing agent 6440 to the transportation agent 6430, the purchasing agent 6440, the data storage unit 6450, and the processing unit 6460, to communicate data information throughout the transactional platform. Meanwhile, the purchasing end interface 6447 may be operatively connected to the purchasing end display module 6441, the purchasing end input module 6442, the browsing module 6443, the shopping cart module 6444, the purchasing end order module 6445, the payment module 6446 and the purchasing end transportation module 6448, so that the instruction and data information of each module can also be communicated to other unit modules.

The purchasing side display module 6441 displays the information accepted by the purchasing side 6440 and the information input by the purchasing side input module 6442 for the fruit purchasing side 6300 to operate. Such as displaying apple, pear, or peach information, the fruit purchaser 6300 may review all of the apple, pear, or peach information in detail to select a desired apple, pear, or peach. Such as displaying the fruit order information 6410, the fruit purchaser 6300 can confirm the type and quantity of apples, pears, or peaches purchased. For example, the fruit purchaser 6300 can know the progress of the logistics and estimate the receiving time by displaying the logistics information.

The purchasing end input module 6442 receives the information and instructions input by the fruit purchaser 6300. For example, the buyer-side input module 6442 receives the input of a user name and a password, identifies the user, and logs in the transaction platform 6400. For example, when the fruit purchaser 6300 desires to purchase an apple, pear or peach, the purchasing side input module 6442 receives a join shopping cart command, and the shopping cart module 6444 adds the corresponding apple, pear or peach and the quantity to the shopping cart in response to the join shopping cart command. For example, when the fruit buyer 6300 wants to know the logistics dynamics of the fruit order information 6410, the buyer-side input module 6442 receives a logistics inquiry command, and the buyer-side transportation module 6448 responds by calling the logistics information to the transportation side 6430. The purchasing input module 6442 may be a keyboard, touch screen, mouse, voice recognition system, or gesture recognition system.

The browsing module 6443 responds to instructions for the apple, pear, or peach information. When the fruit purchaser 6300 browses the apple, pear or peach information, the browsing module 6443 may respond to an input instruction to turn to a next page, zoom in a picture, play a video, filter, search for an apple, pear or peach or storefront name, and the like. Specifically, for example, when the fruit purchaser 6300 wants to purchase only apples, pears, peaches or apples, pears or peaches in a certain producing area, the browsing module 6443 may respond to a search command or an apple, pear or peach screening command, so that the purchasing end display module 6441 displays only apple, pear or peach information related to the apples, pears, peaches or the producing area.

The shopping cart module 6444 responds to apple, pear, or peach operating instructions. When the fruit purchaser 6300 wants to purchase an apple, pear or peach, a fruit selection command may be sent, for example, the information of the apple, pear or peach corresponds to a "join shopping cart" button, and the fruit purchaser 6300 may click to join the "join shopping cart" and send the apple, pear or peach selection command. The fruit selection instruction comprises the responding apple, pear or peach information or the corresponding apple, pear or peach identifier of the apple, pear or peach information and the quantity. The shopping cart module 6444 displays the selected apples, pears, or peaches, the quantity, the corresponding fruit supplier, and the price of the response. If the fruit purchaser 6300 abandons the purchase, this may send a fruit delete command and the shopping cart module 6444 deletes the corresponding apple, pear, or peach from the shopping cart before submitting the order after joining the shopping cart.

The buy-side order module 6445 responds to instructions directed to the fruit order information 6410. When the shopping cart module 6444 sends a submit order command, the buy-side order module 6445 can receive the fruit order information 6410 formed and display it when the fruit buyer 6300 sends a select buy-side order module command. The fruit buyer 6300 can also manage order information through the purchase order module 6445, such as sending a delete order command, the customer order module 6445 deletes the corresponding fruit order information 6410, such as sending a confirm receiving command, and the customer order module 6445 changes the fruit order information from the transporting status to the received status.

The payment module 6446 receives a prepayment command to transfer prepayment from the account of the fruit buyer 6300 to the account of the transaction platform 6400. When the fruit purchaser 6300 confirms the receipt, the receipt confirmation command is transmitted, and the payment module 6446 transmits the transfer command, which triggers the processing module 6460 to transfer the pre-payment to the account of the corresponding fruit supplier 6200.

In particular, the fruit-supplying party 6200 and the fruit-purchasing party 6300 are both assigned a unique identity identifier and a unique account, the identity identifier and the corresponding account are in an associated match, the transaction platform 6400 is also provided with an account as an intermediate account. When various items of information of the fruit-supplier 6200 and the fruit-buyer 6300, such as a user name, a password, account information, fruit order information, apple, pear, or peach information, etc., are stored in the data storage 6450 corresponding to the corresponding id. When the fruit purchaser 6300 logs in, the prepayment instruction triggers the payment module 6446 to call account information according to the id, and then transfers the predetermined amount of money to the account of the transaction platform 6400 according to the prepayment instruction. Similarly, when the fruit purchaser 6300 logs in, the transfer instructions trigger the processing module 6460 to transfer the prepaid of the corresponding order to the account of the corresponding fruit supplier 6200 according to the corresponding order number or other identifier.

The purchasing end transportation module 6448 sends the logistics inquiry instruction and receives the feedback logistics information. When the fruit purchaser 6300 wants to query the logistics information corresponding to the fruit order information 6410, the logistics query instruction may be sent to the processing unit 6450, and the processing unit 6450 may retrieve the logistics information of the data storage unit 6450 according to a corresponding order label or logistics number included in the logistics query instruction. Or when the logistics information is not stored in the data storage unit 6450, for example, the fruit transporter is a third-party transportation logistics company, the logistics information is stored in a database of the third-party transportation logistics company, and the like, the processing module 6460 may connect to the transportation end 6430 corresponding to the third-party transportation logistics company, retrieve the logistics information, and feed the logistics information back to the purchasing-end transportation module 6448.

Further, the transportation end 6430 corresponds to the fruit transporter, and the fruit transporter may receive the transportation request and the transportation order information 6510, update the logistics information, allocate a logistics task, and the like, using the transportation end 6430. As mentioned above, the fruit transportation party may be a logistics affiliated to the trading platform 6400, or may be a third-party logistics company, so the transportation terminal 6430 may be a corporate network terminal of the third-party logistics company, or may be affiliated to the trading platform 6400, but not limited thereto.

Specifically, the transportation end 6430 includes a transportation end display module 6431, a transportation end input module 6432, a logistics update module 6433, a task assignment module 6434, and a transportation end interface 6435. The transport end interface 6435 operatively connects the transport end 6430 to the sales end 6420, the purchasing end 6440, the data storage unit 6450 and the processing unit 6460, to circulate data information throughout the transaction platform. Meanwhile, the purchasing transportation end interface 6435 may be operatively connected to the transportation end display module 6431, the transportation end input module 6432, the logistics update module 6433, and the task allocation module 6434, so that the instruction and data information of each module can also be communicated to other unit modules.

The transportation-end display module 6431 displays the information instruction received by the transportation end 6430 and the information instruction input by the transportation-end input module 6432. For example, the transportation end display module 6431 displays the transportation order information 6510 so that the fruit transporter can know whether to carry the fluid packing device 600 for assignment, delivery, packing of apples, pears, or peaches, and delivery.

The transport end input module 6432 receives information and instructions input by the fruit transporter. When the fruit transporter logs in, the fruit transporter can input a user name and a password by using the transportation end input module 6432 to identify the fruit transporter. When the logistics information is updated, the transport-side input module 6432 may receive the updated logistics information.

The logistics update module 6433 receives updated logistics information. The positions of packaged apples, pears or peaches are changed continuously in the transportation process, and logistics information is updated in time, so that the fruit purchaser 6300 and the fruit supplier 6200 can know logistics dynamics in time. The logistics information can be updated by a positioning device carried by the packaged apple, pear or peach, for example, the positioning device is arranged on the fluid packaging device 600, and the positioning device automatically sends position information to the logistics updating module 6433, so as to realize updating. The update of the logistics information may also be fixed-point scanning input, for example, when the logistics transfer station records and stores the packaged apples, pears or peaches every time the logistics transfer station arrives, the logistics information is updated by scanning an identification code such as a bar code or a two-dimensional code.

The task assignment module 6434 assigns the transportation task corresponding to the transportation order information 6510 to a suitable transportation point or transportation worker. And the task receiving module 6436 receives the task allocated by the task allocating module 6434. The transportation terminal 6430 includes a plurality of task receiving modules 6436, and each task receiving module 6436 corresponds to a transportation person, that is, the transportation person can receive the task assigned by the task assigning module 6434 by using the task receiving module 6436. The task receiving module 6436 may be a cell phone, a tablet, a wearable device, or the like of a transportation person or an APP (application) installed in these electronic devices.

The task allocation module 6434 may allocate a transportation task according to a close-distance priority principle, for example, positioning by using a mobile phone of a transportation person, selecting the transportation person closest to the transportation person, and sending the transportation order information 6510 to the corresponding task receiving module 6436. The task assignment module 6434 assigns a range of transportation tasks to a transportation person according to the transportation route of the transportation person.

Further, the processing unit 6460 processes instructions and information from the sales end 6420, the transportation end 6430, and the purchasing end 6430 to provide data processing functions. The processing unit 6460 may be a server, a desktop host, a notebook computer, etc., or other devices that may be used by one skilled in the art. The processing unit 6460 is communicatively connected to the sales end 6420, the transportation end 6430, and the purchasing end 6430, so as to process instructions from the sales end 6420, the transportation end 6430, and the purchasing end 6430.

The data storage 6450 is communicatively connected to the processing unit 6460 for the processing unit 6460 to call data or store information and data from the sales end 6420, the transportation end 6430, and the purchasing end 6430. It is understood that the data storage unit 6450 may be a database server, or may be a memory of a device such as a mobile phone, a tablet computer, a notebook computer, a desktop computer, etc., and may be disposed at the selling end 6420 or the purchasing end 6430.

That is to say, the fruit transportation method provided by the invention combines the modern internet technology, and utilizes a network sales platform to expand the sales range of apples, pears or peaches, thereby realizing further expansion of the apple, pear or peach market.

As shown in fig. 60 to 68, an online shopping fruit system according to a fifth modified embodiment of the present invention is different from the above embodiments in that the online shopping fruit system is used for selling fruits such as watermelon, cantaloupe, or cantaloupe.

Further, the online fruit purchasing system selects a fluid packaging device 600 to package fruits such as watermelon, hami melon or hami melon. Further, the fluid-packing device 600 is implemented as a gas cushion material, i.e., the filled fluid is a gas, such as air. Of course, it will be understood by those skilled in the art that other fluids, such as insulating liquids, may be filled as desired by the user to provide insulating properties to the watermelon or cantaloupe 7700, such as cryogenic liquids, and to provide a cryogenic storage environment for the watermelon or cantaloupe 7700 product, as desired for a particular application.

According to the first preferred embodiment of the present invention, as shown in fig. 60 to 63, the fluid packing device 600 includes at least one fluid buffering body 710, which includes one fluid storage unit 713 to form a three-dimensional packing bag or a plurality of fluid storage units 713, which are plastically bonded, such as bonded or heat-sealed, to form the three-dimensional packing bag. In the example of the present invention shown in fig. 60 to 63, it is formed of a plurality of the fluid storage units 713. More specifically, referring to fig. 60, the fluid buffering body 710 includes at least two fluid storage films 711 and 712 formed into the three-dimensional packaging bag including one or more connected fluid storage units 713 through a series of planar plastic sealing seams 730 and three-dimensional plastic sealing seams 740, and each fluid storage unit 713 forms a fluid storage chamber 714 for storing fluid therein.

It will be understood by those skilled in the art that the planar plastic-sealing seam 730 is used for plastic-sealing the multi-layer film to form a planar cushion material as shown in fig. 60, and the three-dimensional plastic-sealing seam 740 is used for further plastic-sealing the planar cushion material to form the fluid-packing device 600 into the three-dimensional packing structure having a spatial three-dimensional configuration and capable of accommodating the packed article, as shown in fig. 62. The planar plastic seam 730 and the three-dimensional plastic seam 740 may be bonded together by means of an adhesive or heat-seal bond, and preferably, in this embodiment, the planar plastic seam 730 and the three-dimensional plastic seam 740 may be both formed by a heat-seal process.

Specifically, the planar plastic sealing slit 730 includes a plurality of rows of separation slits 731, which separate the two fluid storage films 711 and 712 into a plurality of fluid storage cells 713. That is, it is preferable that each row of the separation slits 731 is formed by a heat-sealing process that heat-seals two layers of the fluid storage films 711 and 712, thereby forming one row of the separation slits 731 between adjacent two fluid storage cells 713. The separation slits 731 may be a continuous heat-seal line so that the fluid storage units 713 are independent from each other. In this way, when one of the fluid storage units 713 is damaged to leak fluid, the other fluid storage units 713 may not be affected. Of course, the fluid reservoirs 713 may also be interconnected such that only one fluid fill valve 720 is required to fill all of the fluid reservoirs 713. That is, the fluid packing device 600 of the present invention can form a plurality of the fluid storage cells 713 by heat-sealing the first fluid storage film 711 and the second fluid storage film 712.

Further, the fluid buffering body 710 further includes at least one fluid filling valve 720, which may be formed with a suitable valve body, such as a one-way mechanical valve. Referring to fig. 64 to 66, in this embodiment, it is the fluid filling valve 720 formed of at least two valve films 721 and 722, the valve films 721 and 722 of the fluid filling valve 720 and the fluid storage films 711 and 712 are disposed to overlap each other, and a fluid filling channel 723 for filling the fluid storage chamber 714 with fluid is formed between the valve films 721 and 722. It is understood that the valve membranes 721 and 722 are shorter in length than the fluid storage membranes 711 and 712. When the fluid storage chamber 714 is filled with fluid through the fluid filling channel 723 and the pressure in the fluid storage chamber 714 reaches a predetermined requirement, the fluid pressure in the fluid storage chamber 714 acts on the valve membranes 721 and 722 to make the valve membranes 721 and 722 fit to one of the fluid storage membranes, thereby closing the fluid filling channel 723 to make the fluid filling valve 720 function as a one-way valve.

More specifically, as shown in fig. 64, the fluid filling valve 720 includes valve films 721 and 722 that are shorter relative to the two fluid storage films 711 and 712, which are respectively overlapped with the fluid storage films 711 and 712 for forming a fluid filling channel 723 for filling the fluid storage chamber 714 of each of the fluid storage units 713 with fluid. As shown in fig. 65, the fluid filling valve 720 may further include adding a valve membrane 725 between two valve membranes 721 and 722 for enhancing sealing performance. As shown in fig. 66, the fluid filling valve 720 may further include a reinforcing film 726 located between the fluid storage film 712 and the valve film 722, i.e., located outside the two valve films 721 and 722, so as to prevent the joint between the valve film 722 and the fluid storage film 712 from being torn, thereby enhancing the stable joint. Alternatively, the main channel unit 715 may be formed of an outer extension of the valve membranes 721 and 722, and an inner extension thereof forms the fluid filling channel 723 with the fluid storage membranes 711 and 712. It will be appreciated that the specific configuration of the fluid fill valve 720 described above is by way of example only and is not limiting of the invention.

It should be noted that the fluid storage films 711 and 712 of the fluid buffering body 710 and the valve films 721 and 722 of the fluid filling valve 720 may be made of various suitable film materials, such as polyethylene film, polypropylene film, polyvinyl chloride film, polyester film, polystyrene film, or composite film, and the invention is not limited in this respect, as long as it is a suitable flexible film. It is worth mentioning that, in order to increase the one-way sealing effect, the valve membranes 721 and 722 of the fluid filling valve 720 may also be self-adhesive films obtained by modifying the above films by adding chemical components.

It should be noted that the fluid packing device 600 may have a plurality of the fluid filling valves 720, or may have only one fluid filling valve 720, which is not limited by the present invention.

Further, the fluid buffering body 710 includes a main channel unit 715 connected to each of the fluid storage units 713, and preferably integrally extended from each of the fluid storage units 713. More specifically, according to the first preferred embodiment, the main channel unit 715 is perpendicular to the extending direction of the fluid storage unit 713. For example, in this embodiment, each of the fluid storage units 713 extends in a longitudinal direction, and the main channel unit 715 extends in a transverse direction. The main channel unit 715 forms a main channel 7151, and the main channel 7151 has a filling fluid port 7152, when the filling fluid port 7152 is located with a filling fluid nozzle and performs a filling fluid operation, a fluid enters the main channel 7151 from the filling fluid port 7152 along a transverse direction and enters the fluid storage unit 713 along a longitudinal direction, and when a predetermined fluid pressure is reached in the fluid storage chamber 714, the valve membranes 721 and 722 of the fluid filling valve 720 are attached to one of the fluid storage membranes 711 or 712, thereby achieving self-sealing to prevent the re-permeation of the filled fluid into the main channel 7151.

It is understood that the main channel unit 715 may be formed of two layers of the fluid storage films 711 and 712, as shown in fig. 64; it is also possible to form two layers of the valve films 721 and 722 as shown in fig. 66, or one of the fluid storage films 711 or 712 and one of the valve films 721 or 722.

As shown in fig. 60, the planar plastic seam 730 further comprises a continuously sealed side seam 732 on the top and bottom sides of the fluid-damping body 710 and a continuously sealed main channel seam 733 on the top side adjacent to the side seam 732, wherein the side seam 732 on the top side and the main channel seam 733 form the main channel 7151 therebetween. It is understood that the edge sealing slit 732 is formed by a plastic sealing process such as bonding or heat sealing and connects the two fluid storage films 711 and 712. The main channel sealing slit 733 is formed by a plastic molding process such as bonding or heat-sealing and connects two layers of the fluid storage films 711 and 712 and two layers of the valve films 721 and 722, respectively, and the main channel sealing slit 733 on both upper and lower sides, for example, formed by a one-time heat-sealing process, heat-seals the fluid storage film 711 and the valve film 721 and the fluid storage film 712 and the valve film 722, respectively, as shown in fig. 64, and heat-seals the valve films 721 and 722 together at positions other than the positions corresponding to the fluid channel 723.

The planar sealing seam 730 comprises a series of guide slits 734, wherein one fluid filling valve 720 is provided with two rows of mutually spaced guide slits 734, which are formed by heat sealing and connecting the valve membranes 721 and 722, thereby forming the fluid filling channel 723 between the two rows of the guide slits 734.

Further, the valve films 721 and 722 are heat-sealed to the fluid storage film 711 by a plurality of connecting seams 735, so that when a predetermined pressure is reached in the fluid storage chamber 714, the pressure acts on the valve films 721 and 722, and is simultaneously pressed toward the fluid storage film 711 and finally attached to the fluid storage film 711 due to the provision of the connecting seams 735, thereby closing the fluid filling passage 723. That is, the connecting seam 735 heat-seals the two valve films 721 and 722 and the one fluid storage film 711. In addition, as shown in fig. 60, each of the connecting seams 735 is shaped such that it further acts to prevent backflow of fluid, i.e., when fluid in the fluid storage chamber 714 is intended to flow back, it is blocked by the connecting seam 735 and cannot easily reverse into the main channel 7151.

In addition, in heat-sealing these planar plastic sealing seams 730, the fluid filling channels 723 of the valve films 721 and 722 of the fluid filling valve 720 may be formed by providing a heat-resistant barrier that is removed after the heat-sealing process. According to the first preferred embodiment, a heat-resistant layer 724, which may be, for example, a heat-resistant ink, is provided between the valve films 721 and 722 of the fluid filling valve 720 as shown in fig. 64 and 66, and is attached to the inner surface of one of the valve films 721 or 722, so that, when the main passage sealing slit 733 is formed by heat-sealing, the two valve films 721 and 722 are not heat-sealed at positions corresponding to the heat-resistant layer 724, and the fluid filling passage 723 is allowed to communicate with the main passage 7151 without closing its inlet port by heat-sealing.

According to the first preferred embodiment, the main channel 7151 is formed by two layers of the fluid storage films 711 and 712, the heat resistant layer 724 and the valve membranes 721 and 722 each have an extension into the main channel 7151, the planar plastic seam 730 further includes a row of spaced apart bonding seams 736 arranged in the transverse direction corresponding to the location of the extension of the heat resistant layer 724, because of the provision of the heat resistant layer 724, the joint seam 736 connects the two fluid storage membranes 711 and 712 and the two valve membranes 721 and 722 together, while the two valve membranes 721 and 722 are not heat sealed, the seam 736 is provided such that when the fluid cushion body 710 is filled with fluid, after the fluid enters the main channel 7151, the adjacent valve membranes 721 and 722 and the corresponding connected fluid storage membranes 711 and 712 can expand together to open the corresponding fluid filling channel 723.

Fig. 60 to 63 show a fluid packing device 600 according to a preferred embodiment of the present invention, fig. 60 is a schematic plan view of the fluid packing device, and the fluid buffering body 710 includes a plurality of the fluid storage units 713 in the illustrated embodiment, which are arranged laterally side by side. The main channel unit 715 is aligned in the lateral direction and is integrally formed with the fluid storage unit 713. The fluid reservoir 713 may also be provided with a plurality of the fluid filling channels 723 formed by the fluid filling valves 720, thereby enhancing fluid filling speed and efficiency.

The fluid storage unit 713 extending in the longitudinal direction as shown in fig. 60 is adapted to be folded in half longitudinally to have a structure in which the top end fluid storage unit and the bottom end fluid storage unit are folded on each other as shown in fig. 61, such that the fluid buffering body 710 forms a front sidewall 710a and a rear sidewall 710b, and then edge portions of the front sidewall 710a and the rear sidewall 710b of the left and right sides of the fluid buffering body 710 are connected by the three-dimensional encapsulation slits 740 of the left and right sides, such that the fluid buffering body 710 forms a receiving chamber 7100 having an opening 7110 after the fluid buffering body 710 is filled with fluid, wherein a packaged item is adapted to be put into the receiving chamber 7100 through the opening 7110 and stored in the receiving chamber 7100.

It is understood that, in this embodiment, the fluid buffering body 710 is provided with two rows of the three-dimensional plastic sealing seams 740, which may be a continuous plastic sealing or an intermittent plastic sealing. The plastic packaging structure can be formed through primary plastic packaging, and can also be formed through secondary plastic packaging. The invention is not limited in this respect.

More specifically, the three-dimensional plastic sealing seam 740 includes two side sealing seams 741 that respectively connect the front sidewall 710a and the rear sidewall 710b at two sides of the fluid-packing device 600, so as to form the fluid-packing device 600 into a bag-like structure. According to the first preferred embodiment of the present invention, the side sealing slit 741 is a continuous heat sealing slit, thereby preventing the fluid filled in the fluid packing device 600 from overflowing. It is worth mentioning that the side seal 741 may be formed by one heat-sealing or may be formed by two heat-sealing. The invention is not limited in this respect.

Further, according to the first preferred embodiment of the present invention, the fluid-packing device 600 has at least one through-hole 750 spaced apart by the separation slits 731. In the present embodiment, as shown in fig. 60, the through hole 750 is formed between two adjacent fluid storage units 713. It should be appreciated that the present embodiment is only exemplary and not limiting, and the through holes 750 may be disposed at intervals of different numbers of the fluid storage units 713, such as two fluid storage units 713 apart, or two fluid storage units 713 apart, three fluid storage units 713 apart, and so on. That is, the designer can select an appropriate arrangement according to the ventilation requirement or the shape of the packaged object.

The through hole 750 penetrates through the fluid storage films 711 and 712, and the watermelon or Hami melon 7700 can pass through the through hole 750 and contact with the outside, so that aerobic respiration is performed, and the phenomenon that the accommodating cavity 7100 is rotten due to insufficient aerobic respiration or anaerobic respiration is avoided. Meanwhile, the through hole 750 provides a heat dissipation channel for the watermelon or the Hami melon 7700, and is used for removing respiratory heat, field heat and the like.

In the first preferred embodiment of the present invention, the through hole 750 is formed between the adjacent separation lines 731, that is, the through hole 750 penetrates one of the fluid storage units 713, that is, the fluid storage films 711 and 712, to communicate the receiving chamber 7100 with the outside. As shown in fig. 60, the dividing line 731 forms a plurality of the fluid storage units 713 connected, and the through hole 750 is formed in any one of the fluid storage units 713.

In this case, the formation of the through hole 750 is simple, and it is only necessary to form the through hole 750 by using a scribing, shearing, or the like of the predetermined fluid storage unit 713 after the formation of the fluid storage unit 713. That is, the through hole 750 can be formed based on the existing fluid packaging bag, without making a great change to the existing process flow or discarding the existing fluid packaging bag, thereby saving the cost.

It will be understood by those skilled in the art that the through hole 750 may be respectively disposed on the front sidewall 710a and the rear sidewall 710b of the fluid packaging bag, or may be disposed only on the front sidewall 710a or the rear sidewall 710b of the fluid packaging bag, which is not limited in this respect.

Since the through hole 750 is formed in the fluid storage unit 713, in order to prevent fluid leakage, the fluid storage unit 713 in which the through hole 750 is located is not communicated with other fluid storage units 713 that may be filled with fluid, thereby preventing fluid leakage due to the through hole 750. Accordingly, the dividing line 731 on both sides of the through hole 750 is preferably continuously plastic-encapsulated, so as to prevent the fluid storage units 713 on both sides of the through hole 750 from leaking fluid and affecting the buffering performance.

In addition, to avoid leakage of the filling fluid from the through hole 750 when filling the fluid, waste or safety hazards are caused, especially when the filling fluid is a liquid or a harmful gas, while further blocking the fluid storage unit 713 in which the through hole 750 is located from communicating with other fluid storage units 713 that may be filled with fluid. The fluid channel 733 of the fluid storage unit 713, where the through hole 750 is located, is sealed by a series of blocking slits 737.

Specifically, the blocking slit 737 is formed by a plastic molding process such as bonding or heat sealing, which couples the fluid storage membrane and the valve membrane around the heat resistant device to block the fluid storage chamber 714 from communicating with the main channel 7151. In the first preferred embodiment, the blocking slit 737 is provided in the fluid filling channel 723 passage, connects the fluid storage membranes 711 and 712 and the valve membranes 721 and 722 therearound, and blocks the passage of the filled fluid into the fluid storage unit 713 where the through hole 750 is located. It is noted that in order to prevent the heat-resistant layer 724 from blocking the heat-seal of the blocking slits 737, the blocking slits 737 are disposed under the heat-resistant layer 724.

Of course, it will be appreciated by those skilled in the art that, when the planar plastic sealing seam 730 is formed, a heat-resistant device may not be provided between the valve films 721 and 722 of the fluid storage unit 713 where the predetermined through hole 750 is located, and the planar plastic sealing line 730 may function as the blocking seam 737 to block the communication between the fluid storage chamber 714 and the main channel 7151.

Further, the fluid-packing device 600 includes at least one positioning portion 760 spaced apart from the through hole 750 in the lateral direction. In the first preferred embodiment, the positioning parts 760 are disposed at intervals on the fluid storage unit 713, and the fluid storage films 711 and 712 are coupled by a plastic molding process such as bonding or heat sealing.

In the first preferred embodiment of the present invention, the positioning portion 760 spaces the adjacent through holes 750 from the same fluid storage unit 713. That is, according to the first preferred embodiment of the present invention, a plurality of the through holes 750 can be disposed between two adjacent dividing slits 731 at intervals, that is, a plurality of the through holes 750 can be disposed at intervals on the same fluid storage unit 713. The through holes 750 of the same fluid storage unit 713 are spaced apart from each other by the positioning portion 760.

It is noted that the positioning parts 760 may be previously set according to the size of the through-hole 750, and the through-hole 750 is formed between the adjacent positioning parts 760. A plurality of the positioning portions 760 may be set in advance of the fluid storage unit 713 in which the through hole 750 is located, and a manufacturer or a user may select whether to open the positioning portions 760 according to a requirement, such as the size of the watermelon or the cantaloupe 7700, or a requirement for ventilation or heat dissipation, so as to increase the size of the through hole 750. That is, the diameter of the through hole 750 may be a distance between one or more adjacent positioning parts 760.

It should be noted that the positions of the positioning portion 760 and the through hole 750 are only illustrated by way of example and not limited. The positioning portion 760 and the through hole 750 are only required to be disposed below the blocking slit 737 to prevent fluid leakage. In this embodiment, the front wall 710a and the rear wall 710b are connected to the adjacent fluid storage unit 713 over the blocking slit 737, which enhances the stability of the opening 7110 of the receiving cavity 7100 and enhances the connection strength between the adjacent fluid storage units 713.

Of course, when the positioning part 760 and the through hole 750 are formed at the fluid filling valve 720, the positioning part 760 connects the valve membrane and the fluid storage membrane, and the through hole 750 is connected through the valve membrane and the fluid storage membrane.

Further, the planar plastic sealing seam 730 further includes at least one gap 738 which is disposed at intervals on the fluid storage unit 713, the fluid storage films 711 and 712 are connected by a plastic sealing process such as bonding or heat sealing, etc. to divide the fluid storage unit 713 into a plurality of sub fluid storage units 7131, and the adjacent sub fluid storage units 7131 are communicated with each other. The spaced seams 738 provide for relatively flexible deformation of adjacent sub-fluid storage units 7131 such that the range of deformation of the fluid storage units 713 is increased, thereby increasing the size range of watermelon or cantaloupe 7700 for which the fluid storage units are suitable.

Preferably, the positioning portion 760 and the spaced gap 738 are formed together, the planar plastic sealing gap 730 forms a plurality of the fluid storage units 713, and the spaced gap 738 or the positioning portion 760 forms a plurality of sub fluid storage units 7131. The through-hole is formed between any two positioning portions 760 or the spacing gap 738. Preferably, the spacing slits 738 and the positioning portions 760 are formed at the same horizontal line, the diameter of the through hole 750 may be the length of one or more longitudinally adjacent sub fluid storage units 7131.

That is, through the transverse spacing of the positioning parts 750 and the longitudinal spacing of the separation seams 731 and the connection of the adjacent through holes 750, the accommodating cavity 7100 forms a net type storage ventilating space, and the watermelon or the cantaloupe 7700 can ventilate and radiate heat from different directions, so that the shelf life of the watermelon or the cantaloupe 7700 is prolonged. Compared with cold chain transportation, the fluid packaging device 600 is lower in cost and economical and practical. In addition, the positioning portion serves as a stress point to distribute the force applied to the fluid packaging apparatus 600, thereby reducing the possibility of breakage of the fluid packaging apparatus 600.

Since the fluid packing device 600 is generally made of flexible films such as polyethylene film, polypropylene film, polyvinyl chloride film, polyester film, polystyrene film, or composite film, it is deformed by a force in an allowable moving space. When the watermelon or Hami melon 7700 is placed in the containing cavity 7100, the fluid buffering body 710 is pressed and deformed, and a storage space is provided for the watermelon or Hami melon 7700. In summary, since the adjacent sub-fluid storage units 7131 are separated by the through hole 750, the range of relative movement of the adjacent sub-fluid storage units 7131 is increased, the restriction is reduced, the distance between the adjacent sub-fluid storage units 7131 can be adaptively adjusted according to the volume and shape of the watermelon or cantaloupe 7700, and the fitting degree between the fluid packaging apparatus 600 and the watermelon or cantaloupe 7700 is high. Compared with the traditional fluid packaging bag with a fixed empty accommodating space, the fluid packaging device 600 provided by the invention has higher adaptability, and the size range of the applicable watermelon or Hami melon 7700 is increased.

Furthermore, when a watermelon or hami melon 7700 is placed in the receiving cavity 7100, the bottom end portions of the front and rear side walls 710a and 710b are forced to deform outwardly, and the top end portions of the front and rear side walls 710a and 710b are driven by the bottom end portions and tend to deform inwardly, so that the opening 7110 of the receiving cavity 7100 formed by the top end portions of the front and rear side walls 710a and 710b tends to contract, thereby reducing the watermelon or hami melon 7700 from leaving the fluid packaging apparatus 600 from the opening 7110.

It should be noted that the arrangement, arrangement position, arrangement number and arrangement shape of the through holes 750 are merely examples and are not limited to the present invention. The pressing seams 742 may be formed in other shapes, positions, and numbers according to other embodiments of the present invention. The present invention is not limited in this respect as long as the object of the present invention can be achieved.

As shown in fig. 67 to 68, the fluid packing device 600 according to a modification of the first embodiment of the present invention. In this embodiment, the fluid buffering body 710A is provided with a series of corresponding fluid filling valves 720A, and includes a plurality of fluid storage units 713A that are two layers of fluid storage membranes 711A and 712A that are overmolded via a series of planar molding seams 730A and a series of three-dimensional molding seams 740A. The fluid reservoir 713A has a fluid reservoir chamber 714A.

The planar plastic seam 730A includes a series of separation seams 731A, two edge sealing seams 732A, a main channel sealing seam 733A, a series of guide seams 734A, a series of connecting seams 735A, a series of joining seams 736A, and a series of spacer seams 738A.

The fluid buffering main body 710A is folded along the extending direction of the fluid storage unit 713A and then is plastically packaged by the three-dimensional plastic packaging seam 740A to form a containing cavity 7100A, two ends of the containing cavity 7100A are both communicated with the external environment, that is, the containing cavity 7100A is provided with a first opening 7110A and a second opening 7120A.

In use, the watermelon or cantaloupe 7700 can be placed in the receiving cavity 7100A from the first opening 7110A or the second opening 7120A and then filled with a fluid, such as air. Then, the top and bottom ends of the fluid-packing device 600 are bent, and the bent air column is filled between the watermelon or cantaloupe 7700 and the adjacent air column. At this time, the sizes of the first opening 7110A and the second opening 7120A are reduced, and the packed watermelon or cantaloupe 7700 is not easily leaked from the first opening 7110A and the second opening 7120A. Meanwhile, the storage space of the watermelon or the Hami melon 7700 is filled with the bent air column, the movement of the watermelon or the Hami melon 7700 is prevented, the watermelon or the Hami melon 7700 is fixed in a half-suspended mode, and the air buffering protection effect is further enhanced.

One skilled in the art will appreciate that the method of using the package is not exclusive and the user can fill the fluid first and then bend the top and bottom ends of the fluid packaging apparatus 600. The watermelon or cantaloupe 7700 is placed into the receiving cavity 7100A from the first opening 7110A or the second opening 7120A by virtue of the elasticity of the material used for the fluid packaging apparatus 600.

In this embodiment, a user can select the length of the bent air column according to the size of the packaged watermelon or cantaloupe 7700, so as to ensure that the watermelon or cantaloupe 7700 is half suspended and fixed in the containing cavity 7100A, thereby avoiding the phenomenon that the bent air column is too short, and the air column is automatically stressed to return to the original position in the transportation process, so that the watermelon or cantaloupe 7700 is moved out of the package.

Alternatively, in this embodiment, the gap 738A divides the fluid storage unit 713A into a plurality of sub fluid storage units 7131A, and the adjacent sub fluid storage units 7131A communicate with each other. A user may bend along the gap 738A, and the gap 738 limits the expansion of the fluid storage unit 713A, so that the adjacent sub fluid storage units 7131 are relatively flexibly deformed, and the air column is more easily bent and is not easily restored after bending.

It is worth mentioning that the fluid packing device 600 has better heat preservation performance regardless of the model of the fluid packing device 600. Tests were conducted using the same watermelon or cantaloupe, with the foam boxes and cartons used in conventional shipping methods, the temperature change of the watermelon or cantaloupe 7700 being packaged, the temperature change of the external environment, and the temperature change of the interior of the package. In the method of the present invention, the temperature change of the packed watermelon or cantaloupe 7700, the temperature change of the external environment and the temperature change of the inside of the package are almost the same under the same conditions.

That is, it is said that the thermal insulation performance of the fluid packaging device 600 can inhibit the external environment and the internal environment from exchanging heat, when transporting and storing watermelon or cantaloupe in winter, the fluid packaging device 600 can keep the internal environment at normal temperature, avoid the internal heat from dissipating outside, and further avoid the watermelon or cantaloupe from being frostbitten. When transporting and storing watermelons or Hami melons in summer, the fluid packaging device 600 can avoid the influence of external high temperature on the temperature of the internal environment, and prevent the formation of heat convection. If the transportation scope is nearer, watermelon or Hami melon can be direct normal atmospheric temperature delivery need not to adopt the cold chain transportation, if the transportation is far away, the time that needs the transportation is longer, when adopting the cold chain transportation, fluid packaging device 600 can restrain the cold air of refrigerant and disperse outward, makes the internal environment keep low temperature, prolongs the fresh-keeping period of watermelon or Hami melon.

Fig. 69 to 124 show an online fruit purchasing system according to a sixth variant embodiment of the present invention, which is different from the above embodiments in that the online fruit purchasing system and the method for selling fruits by a seller are configured in block diagrams. The online fruit purchasing system and the fruit selling method of the seller utilize the inflatable packaging bag as a fruit transporting and packaging mode and provide the online fruit selling and transporting system and the online fruit selling and transporting method. The online fruit purchasing system and the fruit selling method of the seller comprise a purchasing client module 810, a purchasing client module 820 and a cloud platform 830, wherein the purchasing client module 810 and the purchasing client module 820 are connected with the cloud platform 830 and transmit information through the cloud platform 830, and the purchasing client module 810 and the purchasing client module 820 exchange information with each other wirelessly.

The purchase client module 810 and the purchase client module 820 may be installed on a mobile device terminal such as a mobile phone or a computer, and the purchase client module 810 serves fruit sellers such as fruit growers, e-makers, etc. for assisting the fruit sellers in providing fruit commodity information and selling bayberry, dragon fruit, bayberry, plantain, or mango. Purchase client module 820 supplies the buyer to use, and the buyer can with purchase client module 820 installs the mobile device end, acquires the relevant information of bayberry, dragon fruit, plantain or mango commodity through installing purchase client module 820 of mobile device end, and through the mobile device end purchases bayberry, dragon fruit, plantain or mango and provides the purchase information. The purchase client module 820 acquires order information of a purchaser and transfers specific customer information to the purchase client module 810.

Fig. 69 is a block diagram illustrating a purchase client module 810 of the online fruit purchase system according to the first preferred embodiment of the present invention. As shown, the purchase client module 810 includes a sales information processing unit 812 and a sales information interacting unit 813, and a seller can submit goods information through the sales information processing unit 812, receive order information, and use the purchase client module 810 and acquire purchase information by the sales information interacting unit 813.

The sales information processing unit 812 includes a commodity information uploading module 8122, an order receiving module 8121, and a first information transmitting module 8123, where a seller uploads fruit commodity information through the commodity information uploading module 8122, the fruit commodity information is used for a buyer to browse and select, and after the buyer selects and submits an order, the order receiving module 8121 receives the order information and then reminds the seller of generating a new order for delivery. The first information delivery module 8123 is connected to the sales information interaction unit 813, a seller sends information to a user through the sales information interaction unit 813, and the information sent by the seller is delivered to the purchase client module 820 through the first information delivery module 8123.

The sales information interaction unit 813 is used for a seller to perform information interaction with the purchase client module 810, and controls the purchase client module 810 and obtains sales information through the sales information interaction unit 813, wherein the sales information includes customer information, order information, payment destination, logistics information, and the like.

Specifically, in order to display the sales information, the sales information interacting unit 813 includes a display module 8133, an order display module 8132, and a first communication module 8131, where the order display module 8132 is connected to the first communication module 8131 and the order display module 8132, respectively, the first communication module 8131 provides a message input port for a seller through the display module 8133, and the order display module 8132 provides the seller with order information submitted by a buyer through the display module 8133.

The display module 8133 controls the display interface of the purchasing client module 810, and generally, a display screen of a mobile device side of the display client is installed as a carrier of the display interface of the client. The order display module 8132 receives order information submitted by a purchaser, analyzes order information data, converts the order information data into related image information or voice prompt information, and displays the related image information or voice prompt information to a seller through the order display module 8132.

The first communication module 8131 is used for a seller to communicate with a buyer, the first communication module 8131 receives the input of the information of the mobile device equipped with the display client, specifically, the seller can input messages through the input device of the mobile device equipped with the purchase client module 810, such as keyboard typing and voice, process the messages through the first communication module 8131 and transmit the messages to the first information transmission module 8123 of the sales information processing unit 812, and transmit the messages to the purchase client module 820 through the first information transmission module 8123 to transmit the messages to the buyer. It is worth mentioning that the first communication module 8131 can also receive the information from the official party of the online shopping fruit system, and the seller replies the information through the first communication module 8131.

Further, the sales information interacting unit 813 further includes a receiving unit 8134, the receiving unit 8134 is connected to the cloud platform 830, when the purchase client module 820 submits order information, the cloud platform 830 receives the order information and sends the order information to the receiving unit 8134, a merchant can control the order price through the receiving unit 8134, the cloud platform 830 transmits final order information to the purchase client module 820, after a user determines payment, the payment is transferred to the cloud platform 830, and after a seller confirms receiving goods, the payment is input to the receiving unit 8134 for processing by the seller, or the payment is directly input to the receiving unit 8134 for processing by the seller.

The gathering unit 8134 includes a goods expense module and a postage module, the goods expense module corresponds to money amount of waxberry, dragon fruit, guava, banana or mango, the postage module corresponds to postage amount. The seller can choose to bear the postage, the money amount corresponding to the postage module is zero, and when the seller chooses the buyer to pay the postage, the money amount corresponding to the gathering unit 8134 is the sum of the commodity cost and the postage cost. It is worth mentioning that the postage module calculates the postage amount according to the weight corresponding to the order information analysis delivery address and the fruit order quantity.

Fig. 71 is a block diagram of a cloud platform of an online fruit purchasing system according to a first preferred embodiment of the invention. As shown, the cloud platform 830 includes a storage unit 831 and an information delivery unit 832, and the information delivery unit 832 receives and delivers purchase information, such as order information, commodity information, etc., to the storage unit 831 for storage. The cloud platform 830 is connected to the purchasing client module 810 and the purchasing client module 820, respectively. The information transfer unit 832 exchanges information with the purchase client module 810 and the purchase client module 820, and the storage module unit stores information transferred from the purchase client module 810 and the purchase client module 820, such as purchase information, order information, customer information, and the like.

Further, the message passing unit 832 includes a message sending module 8321 and a message receiving module 8322. The information receiving module 8322 and the information sending module 8321 are respectively connected to the storage unit 831. The purchase client module 810 and the purchase client module 820 upload purchase information, such as order information or commodity information, respectively. The information receiving module 8322 receives the information transmitted from the client and the purchasing client module 820 and 810, and further, the information sending module 8321 may send related purchasing information, such as order information and commodity information, to the purchasing client module 810 and the purchasing client module 820, and when a purchaser retrieves the commodity information from the purchasing client module 820, the information sending module 8321 immediately sends the commodity information to the purchasing client module 820 to obtain commodity specific information.

Further, the storage unit 831 includes a receipt storage module 8312 and a commodity information storage module 8311. The money receiving storage module 8312 stores commodity transaction money. The goods information storage module 8311 stores order information and goods information. Specifically, the money receiving storage module 8312 stores received money when the user submits an order and pays, and transmits the received money to the money receiving unit 8134 of the seller through the information transmitting module 8321 after the user confirms the receipt.

Fig. 72 is a block diagram illustrating the structure of a purchase client module of the online fruit purchasing system according to the first preferred embodiment of the present invention. As shown, the purchase client module 820 includes a purchase information processing unit 821 and a purchase information interacting unit 822, and a purchaser can acquire goods information through the purchase information processing unit 821 and submit order information, and the purchase client module 820 and submit purchase information and payment are used by the sales information interacting unit 813.

Further, the purchase information processing unit 821 includes an order uploading module 8211, a goods information display module 8212 and a second information transmission module 8213, the goods information display module 8212 is wirelessly connected with the goods information upload module 8122, to obtain commodity information uploaded by merchants, such as waxberry, dragon fruit, guava, plantain or mango information, price varieties and the like, the order upload module 8211 is connected to the goods information display module 8212 of the display sales information processing unit 812, submitting a purchase order of a user through the order upload module 8211, further connecting the order upload module 8211 with the cloud platform 830, the purchase order submitted by the user is directly uploaded to the cloud platform 830 through the order uploading module 8211, and further, the purchase order information is sent to the order receiving module 8121 through the order uploading module 8211. The commodity information display module 8212 is connected to the commodity information upload module 8122, and it is worth mentioning that the commodity upload module is connected to the cloud platform 830, receives the commodity information uploaded from the commodity upload module through the information receiving module 8322, when the purchaser browses the commodity information from the purchase client module 820, the purchase client module 820 receives the commodity information from the storage unit 831 stored in the cloud platform 830, and displays specific commodity information through a display device of a mobile device side on which the purchase client module 820 is installed, so that the purchaser can determine specific contents of a purchase order, the second information transfer module 8213 is connected to the first information transfer module 8123, and through information interaction between the first information transfer module 8123 and the second information transfer module 8213, the buyer and the seller can communicate with each other, so as to further obtain the commodity information and the specific content of the order.

Further, the order uploading module 8211 includes an order generating module 82111 and an order transmitting module 82112, the order generating module 82111 and the mobile device carried by the purchasing client module 820 form an order submitting interface, a purchaser can input specific order information, such as price, receiving address and other information, to the order submitting interface through an input device on the mobile device, the order information is transmitted to the cloud platform 830 through the order information transmitting module after being generated by the order generating module 82111, the order information is transmitted to the purchasing client module 810 through the information transmitting module of the cloud platform 830, and a seller selects goods distribution and transmits goods according to the content of the order information after obtaining the order information.

In this embodiment, the seller calls the related personnel of the logistics company such as the courier to take the goods and delivers the goods according to the delivery address provided by the order information, and it is worth mentioning that the package adopted when delivering and delivering the waxberry, dragon fruit, musa, plantain or mango is the inflatable packaging bag device specially proposed by the present invention, so as to achieve the purpose of buffering and protecting the waxberry, dragon fruit, musa, plantain or mango.

Fig. 73 is a schematic view showing the internal relationship of the fruit online shopping system according to the first preferred embodiment of the present invention. As shown in the figure, the purchase information interaction unit 822 provides an operation channel for a user to use the purchase client module 820, and further the purchase information interaction unit 822 includes a second communication module 8221 and an information input module 8222, the second communication module 8221 is connected to the second information transmission module 8213, and the user inputs information through the second communication module 8221 and transmits the information to the purchase client module 810 through the second information transmission module 8213. It should be noted that the second information delivery module 8213 simultaneously delivers the message sent by the user to the cloud platform 830 through the information delivery module, and the storage unit 831 of the cloud platform 830 stores the message sent by the user as backup storage.

The purchase information interaction unit 822 includes a logistics display module 8223 and a payment module 8224, and the logistics display module 8223 is bound with logistics information provided by a logistics company contacted by a seller to inquire the logistics information of the goods bayberry, dragon fruit, ballet, banana or mango. The payment module 8224 is connected to the receiving amount storage module 8312 of the cloud platform 830, and when a user makes a payment through the payment module 8224 and transfers a payment amount to the receiving amount storage module 8312, the purchaser confirms receipt and then pays the purchase amount to the seller. The information input module 8222 is connected to the order upload module 8211, and a purchaser can input order information such as a self-receiving address, an additional request, and the like through the information input module 8222. After the order information of the order is input and completed, the order information is uploaded to the order uploading module 8211 and then transmitted to the seller, the seller packages the waxberries, the dragon fruits, the basjo, the plantain or the mangos according to the order information, and related shipping personnel of the parallel logistics company are transported to a goods receiving address submitted by a buyer, so that the waxberries, the dragon fruits, the basjo, the plantain or the mangos in tropical and subtropical zones are sold.

The sales information interaction unit 813 is connected with the logistics display module 8233, and logistics information in the fruit transportation process is displayed through the logistics display module. Specifically, after receiving the order information, the seller notifies the logistics company of the fact that the related personnel take the part, and the logistics display module 8223 is bound with the logistics company and obtains the logistics information from the logistics company.

The fluid-filled bag is a fluid-filled, inflatable bag which, in this preferred embodiment of the invention, may be embodied as an air-cushioning material, i.e. the fluid filled may be a gas, such as air, for example. Of course, it will be understood by those skilled in the art that other gases are possible in the application as desired. According to the first preferred embodiment, a three-dimensional package can be formed after filling with fluid to provide an air cushioning effect for a bayberry, dragon fruit, Japanese banana, or mango or other tropical and subtropical berry type bayberries, dragon fruits, Japanese bananas, or mangoes. It will be appreciated that the fluid may also be a liquid, such as a warming liquid, to provide a warming effect to the fluid packaging bag. That is, when the fluid packing bag is not used, the fluid packing bag can be not filled with the fluid, thereby being convenient for storage and transportation; when the fluid packaging bag is used, the fluid packaging bag can be filled with fluid to form a space structure body so as to provide a buffering effect for the waxberry, dragon fruit, ballet, plantain or mango.

In this preferred embodiment of the invention, the fluid packaging bag may be filled with a gas cushioning material, such as an air cushioning material, although it will be appreciated by those skilled in the art that other gases may be used as desired in the application. According to the first preferred embodiment, the fluid packing bag, after being filled with the gas buffering material, can form a three-dimensional packing bag having a spatial configuration, thereby providing a gas buffering effect to the product packed therein. It will be appreciated that the fluid cushioning material may also be a liquid, such as a warming liquid, to provide a warming effect to the product packaged therein; the fluid cushioning material may also be a cryogenic liquid, thereby providing a cryogenic environment for the product packaged therein.

It is worth mentioning that the fluid packaging bag is suitable for packaging waxberry, dragon fruit, guava, plantain or mango. In the present invention, the fluid packaging bag is used for packaging and transporting tropical and subtropical berries such as waxberry, dragon fruit, guava, plantain or mango, and comprises at least one fluid buffer 10, that is, a three-dimensional packaging bag is formed by one fluid buffer 10 or a plurality of fluid buffers 10 are plastically connected, such as bonded or heat-sealed, to form the three-dimensional packaging bag. In the example of the invention shown in fig. 76 to 80, it is formed by one such fluid cushion body 10. More specifically, referring to fig. 76, the fluid cushion body 10 includes at least two fluid storage films 11 and 12 formed into the three-dimensional packaging bag including one or more connected fluid storage units 13 through a series of planar plastic seams 30 and three-dimensional plastic seams 40, and each fluid storage unit 13 forms a fluid storage chamber 14 for storing fluid therein.

It will be understood by those skilled in the art that the flat sealing seam 30 is used to plastically seal the multi-layer film to form a flat cushioning material as shown in fig. 76, and the three-dimensional sealing seam 40 is used to further plastically seal the flat cushioning material to form the fluid packaging bag into the three-dimensional packaging bag having a three-dimensional configuration and capable of containing the waxberry, dragon fruit, balla, plantain or mango or other tropical and subtropical berry type waxberry, dragon fruit, balla, plantain or mango as shown in fig. 78. The planar seam 30 and the three-dimensional seam 40 may be formed by bonding or heat sealing the plurality of films together, and preferably, in this embodiment, both the planar seam 30 and the three-dimensional seam 40 may be formed by a heat sealing process.

According to the first preferred embodiment, the fluid packaging bag comprises at least one fluid buffering body 10, that is, a three-dimensional packaging bag is formed by one fluid buffering body 10 or a plurality of fluid buffering bodies 10 are connected by plastic sealing, such as bonding or heat sealing, to form the three-dimensional packaging bag. In the example of the present invention shown in fig. 69 to 72, it is formed by one such fluid cushion body 10. More specifically, referring to fig. 69, the fluid buffering body 10 includes at least two fluid storage films 11 and 12 formed into the three-dimensional packaging bag including one or more connected fluid storage units 13 through a series of planar plastic sealing seams 30 and three-dimensional plastic sealing seams 40, and each fluid storage unit 13 forms a fluid storage chamber 14 for storing fluid therein.

It will be understood by those skilled in the art that the flat sealing seam 30 is used for sealing a multi-layer film to form a flat cushion material, and the three-dimensional sealing seam 40 is used for further sealing the flat cushion material to form the fluid packaging bag into the three-dimensional packaging bag having a three-dimensional configuration and capable of containing the waxberry, dragon fruit, musa, banana or mango, as shown in fig. 70. The planar seam 30 and the three-dimensional seam 40 may be formed by bonding or heat sealing the plurality of films together, and preferably, in this embodiment, both the planar seam 30 and the three-dimensional seam 40 may be formed by a heat sealing process.

According to the first preferred embodiment, the fluid cushion body 10 further comprises at least one fluid filling valve 20, which may be formed by a suitable valve body, such as a one-way mechanical valve or the like. Referring to fig. 75 to 78, in this embodiment, it is the fluid filling valve 20 formed of at least two valve films 21 and 22, the valve films 21 and 22 of the fluid filling valve 20 and the fluid storage films 11 and 12 are disposed to overlap each other, and a fluid filling channel 23 for filling the fluid storage chamber 14 with fluid is formed between the valve films 21 and 22. It is understood that the valve films 21 and 22 are shorter in length than the fluid storage films 11 and 12. When the fluid storage chamber 14 is filled with fluid through the fluid filling passage 23 and the pressure in the fluid storage chamber 14 reaches a predetermined requirement, the fluid pressure in the fluid storage chamber 14 acts on the valve films 21 and 22 to make the valve films 21 and 22 adhere to one of the fluid storage films, thereby closing the fluid filling passage 23 so that the fluid filling valve 20 functions as a check valve.

More specifically, as shown in fig. 75, the fluid filling valve 20 includes valve films 21 and 22 shorter than the two fluid storage films 11 and 12, which are respectively overlapped with the fluid storage films 11 and 12 for forming a fluid filling passage 23 for filling the fluid storage chamber 14 of each of the fluid storage units 13 with fluid. As shown in FIG. 76, the fluid filled valve 20 may further include the addition of a valve membrane 25 positioned between the two valve membranes 21 and 22 for enhanced sealing performance. As shown in fig. 77, the fluid filling valve 20 may further include a reinforcing film 26 between the fluid storage film 12 and the valve film 22, i.e., outside the two valve films 21 and 22, to prevent the joint between the valve film 22 and the fluid storage film 12 from being torn, thereby reinforcing the stable joint. As shown in fig. 78, the main channel unit 15 may also be formed by the outer extension of the valve membranes 21 and 22, and the inner extension thereof forms the fluid filling channel 23 with the fluid storage membranes 11 and 12. It will be appreciated that the specific configuration of the fluid filling valve 20 described above is by way of example only and is not limiting to the present invention.

It should be noted that the fluid storage films 11 and 12 of the fluid buffering body 10 and the valve films 21 and 22 of the fluid filling valve 20 can be made of various suitable film materials, such as polyethylene film, polypropylene film, polyvinyl chloride film, polyester film, polystyrene film or composite film, and the invention is not limited in this respect, as long as the film is a suitable flexible film. It is worth mentioning that the valve membranes 21 and 22 of the fluid filled valve 20 may also be self-adhesive films modified by adding chemical components to the above films in order to increase the one-way sealing effect.

It should be noted that the fluid packaging bag may have a plurality of fluid filling valves 20, as shown in fig. 69 to 72, or may have only one fluid filling valve 20, as shown in fig. 73 to 74, which is not limited in this respect.

The fluid buffering body 10 further includes a main channel unit 15 connected to each of the fluid storage units 13, preferably integrally extended from each of the fluid storage units 13. More specifically, according to the first preferred embodiment, the main passage unit 15 is perpendicular to the extending direction of the fluid storage unit 13. For example, in this embodiment, each of the fluid storage units 13 extends in the longitudinal direction, and the main passage unit 15 extends in the transverse direction. The main passage unit 15 forms a main passage 151, and the main passage 151 has a filling fluid port 152, when a filling fluid nozzle is provided at the position of the filling fluid port 152 and a filling fluid operation is performed, fluid enters the main passage 151 from the filling fluid port 152 in a lateral direction and enters the fluid storage unit 13 again in a longitudinal direction, and when a predetermined fluid pressure is reached in the fluid storage chamber 14, the valve films 21 and 22 of the fluid filling valve 20 are attached to one of the fluid storage films 11 or 12, thereby achieving self-closure to prevent the re-permeation of the filled fluid into the main passage 151.

It is understood that the main channel unit 15 may be formed of two layers of the fluid storage films 11 and 12, as shown in fig. 75; it is also possible to form two layers of the valve films 21 and 22 as shown in fig. 78, or one of the fluid storage films 11 or 12 and one of the valve films 21 or 22.

As shown in fig. 69, the planar plastic seam 30 further comprises a continuously sealed side seam 32 and a continuously sealed main channel seam 33, wherein the continuously sealed side seam 32 and the continuously sealed main channel seam 33 are respectively located on the top and bottom sides of the fluid buffering body 10, and the main channel 151 is formed between the side seam 32 and the main channel seam 33 on the top side. It will be appreciated that the edge seal 32 is formed by a plastic molding process such as bonding or heat sealing and sealingly connects the two fluid storage films 11 and 12. The main passage sealing seams 33 are formed by a plastic molding process such as bonding or heat sealing and connect two layers of the fluid storage films 11 and 12 and two layers of the valve films 21 and 22, respectively, the main passage sealing seams 33 on the upper and lower sides, which are formed by, for example, a one-time heat sealing process, respectively heat-seal the fluid storage film 11 and the valve film 21, and heat-seal the fluid storage film 12 and the valve film 22, as shown in fig. 75, and also heat-seal the valve films 21 and 22 at positions other than the positions corresponding to the fluid passages 23.

As shown in fig. 69, the flat pinch 30 includes a series of guide slits 34, wherein a fluid fill valve 20 is correspondingly provided with two spaced rows of guide slits 34 formed by heat sealing the valve membranes 21 and 22 to form the fluid fill channel 23 between the two rows of guide slits 34.

Referring to fig. 72, the valve films 21 and 22 are further heat-sealed to the fluid storage film 11 through a plurality of connecting seams 35 such that when a predetermined pressure is reached in the fluid storage chamber 14, the pressure acts on the valve films 21 and 22 and is simultaneously pressed toward the fluid storage film 11 and finally attached to the fluid storage film 11 due to the arrangement of the connecting seams 35, thereby closing the fluid filling channel 23. That is, the joining seam 35 heat-seals two layers of the valve films 21 and 22 and one layer of the fluid storage film 11. In addition, as shown in fig. 69, the shape of each connecting seam 35 is designed such that it further functions to prevent the backflow of fluid, that is, when the fluid in the fluid storage chamber 14 is desired to flow back, it is blocked by the connecting seam 35 and cannot easily reverse into the main channel 151.

It is worth mentioning that the guiding slit 34 according to the preferred embodiment of the present invention is also connected to the valve membrane 11 to cooperate with the connecting slit 35 such that when a predetermined pressure is reached in the fluid storage chamber 14, the pressure acts on the valve membranes 21 and 22 to press and adhere the valve membranes 21 and 22 to the fluid storage membrane 11.

In addition, in heat-sealing the planar plastic seams 30, the fluid-filling passage 23 of the valve films 21 and 22 of the fluid-filling valve 20 can be formed by providing a heat-resistant barrier means which is removed after the heat-sealing process. According to the first preferred embodiment, a heat-resistant layer 24, which may be, for example, a heat-resistant ink, as shown in fig. 75 and 78, is provided between the valve films 21 and 22 of the fluid filling valve 20, and is attached to the inner surface of one of the valve films 21 or 22, so that, when the main passage sealing seam 33 is formed by heat-sealing, the two valve films 21 and 22 are not heat-sealed at the position corresponding to the heat-resistant layer 24, and the fluid filling passage 23 can communicate with the main passage 151 without closing its inlet port by heat-sealing.

According to the first preferred embodiment, the main channel 151 is formed by two layers of the fluid storage membranes 11 and 12, the heat-resistant layer 24 and the valve membranes 21 and 22 each have an extension into the main channel 151, the planar plastic seam 30 further includes a row of mutually spaced bonding seams 36 arranged in the transverse direction corresponding to the position of the extension of the heat-resistant layer 24, because of the arrangement of the heat-resistant layer 24, the bonding seams 36 connect the two layers of the fluid storage membranes 11 and 12 and the two layers of the valve membranes 21 and 22 respectively, and the two layers of the valve membranes 21 and 22 are not heat-sealed, and the arrangement of the bonding seams 36 is such that when the fluid cushion body 10 is filled with fluid, after the fluid enters the main channel 151, the adjacent valve membranes 21 and 22 and the corresponding connected fluid storage membranes 11 and 12 can expand together to open the corresponding fluid filling channel 23.

Fig. 69 to 72 show a fluid packing bag according to a preferred embodiment of the present invention, fig. 69 is a schematic plan view of the fluid packing bag, and the fluid buffering body 10 includes one fluid storage unit 13 in this exemplary embodiment and is arranged in a longitudinal direction. The main passage unit 15 is arranged in the lateral direction and is integrally formed with the fluid storage unit 13. As shown in the figure, the fluid storage unit 13 may be provided with a plurality of the fluid filling channels 23 formed by the fluid filling valve 20, thereby enhancing fluid filling speed and efficiency.

The fluid storage unit 13 extending in the longitudinal direction as shown in fig. 69 is adapted to be folded in half to obtain a structure in which the sub-fluid storage units 131 shown in fig. 73 are folded on each other, so that the fluid buffering body 10 forms the front side wall 10a and the rear side wall 10b, and then edge portions of the front side wall 10a and the rear side wall 10b on the left and right sides of the fluid buffering body 10 are connected by the three-dimensional plastic sealing seams 40 on the left and right sides, so that after the fluid buffering body 10 is filled with fluid, the fluid buffering body 10 forms the receiving cavity 100 having the opening 110, wherein a packaged article is adapted to be put into the receiving cavity 100 through the opening 110 and stored in the receiving cavity 100.

It will be appreciated that in this embodiment, the fluid cushion body 10 is provided with two rows of the three-dimensional plastic seams 40, which may be continuous or intermittent. The plastic packaging structure can be formed through primary plastic packaging, and can also be formed through secondary plastic packaging. The invention is not limited in this respect.

More specifically, the three-dimensional plastic sealing seam 40 includes two side sealing seams 41 which respectively connect the front sidewall 10a and the rear sidewall 10b at both ends of the fluid-packing bag, thereby forming the fluid-packing bag to have a bag-like structure. According to the first preferred embodiment of the present invention, the side seal 41 is a continuous heat seal to prevent the fluid filled in the fluid packing bag from overflowing. It is worth mentioning that the side seal 41 may be formed by one heat-seal or by a second heat-seal. The invention is not limited in this respect.

As shown in fig. 69, the three-dimensional plastic-sealed seam 40 further includes a series of press-fit seams 42 which plastically connect the fluid storage membranes 11 and 12 and the valve membranes 21 and 22, thereby functioning to press the fluid storage membranes 11 and 12 and the valve membranes 21 and 22 so that they are positioned not to be expanded by the filling fluid and the expansion degree of the surrounding portions thereof is relatively reduced.

According to the first preferred embodiment of the present invention, the pressing slits 42 are formed in a long bar shape and are arranged in a straight line, thereby partitioning the fluid storage units 13 into different sub-fluid storage units 131. A plurality of the press-fit slits 42 are provided at intervals to form a series of communicating channels 133. The fluid filled in the fluid packing bag can flow through the communication passage and be exchanged between the sub-fluid storage units 131 at both sides thereof.

Specifically, the front side wall 10a includes a front main side wall 101a, a front left side wall 102a, a front right side wall 103a, and a front bottom side wall 104 a. The front main side wall 101a is integrally connected to the front left side wall 102 a. A row of the pressing seams 42 is disposed between the front main sidewall 101a and the front left sidewall 102 a. The front main side wall 101a is integrally connected to the front right side wall 103 a. Another row of the pressing seams 42 is disposed between the front main sidewall 101a and the front right sidewall 103 a. The front main sidewall 101a is integrally connected to the front bottom sidewall 104 a. Another row of the pressing seams 42 is disposed between the front main sidewall 101a and the front bottom sidewall 104 a.

The rear side wall 10b includes a rear main side wall 101b, a rear left side wall 102b, a rear right side wall 103b, and a rear bottom side wall 104 b. The rear main side wall 101b is integrally connected to the rear left side wall 102 b. A row of the pressing seams 42 is disposed between the rear main sidewall 101b and the rear left sidewall 102 b. The rear main side wall 101b is integrally connected to the rear right side wall 103 b. Another row of the pressing seams 42 is disposed between the rear main sidewall 101b and the rear right sidewall 103 b. The rear major side wall 101b is integrally connected to the rear bottom side wall 104 b. Another row of the pressing seams 42 is disposed between the rear major sidewall 101b and the rear bottom sidewall 104 b.

More specifically, the pressing seams 42 include a row of first pressing seams 421, a row of second pressing seams 422, and a row of third pressing seams 423, which are respectively disposed at the left side, the right side, and the bottom side of the fluid packing bag and are respectively arranged in a straight line.

The first, second and third press- fit seams 421, 422 and 423 connect the front and rear major sidewalls 101a and 101b at left, right and bottom sides, respectively, to form a packaging body 101 having the receiving cavity 100.

In addition, the first press-fit seam 421 also heat-seals the front left sidewall 102a and the rear left sidewall 102b, thereby forming a left cushion body 102. The second press-fit seam 421 also heat-seals the front right sidewall 103a and the rear right sidewall 103b, thereby forming a right cushion body 103. The third pressing seam 421 also connects the front bottom sidewall 104a and the rear bottom sidewall 104b by heat sealing, thereby forming a bottom buffer 104. The left cushion body 102, the right cushion body 103 and the bottom cushion body 104 provide cushion protection at the left side, the right side and the bottom side of the package main body 101, respectively, to enhance the safety of the fluid packing bag.

It is worth mentioning that, since the pressing seams 42 are arranged at intervals, the sub-fluid storage unit 131 forming the package main body 101 and the sub-fluid storage unit 131 forming the left buffer 102 are communicated with each other. The fluid stored in the package main body 101 and the fluid stored in the left cushion body 102 can be exchanged through the communication channel 133.

Similarly, the sub-fluid storage unit 131 forming the package main body 101 and the sub-fluid storage unit 131 forming the right buffer 103 are communicated with each other. The fluid stored in the package main body 101 and the fluid stored in the right buffer body 103 can be exchanged through the communication channel 133. The sub-fluid storage unit 131 forming the package body 101 and the sub-fluid storage unit 131 forming the bottom buffer 104 are communicated with each other. The fluid stored in the package main body 101 and the fluid stored in the bottom buffer body 104 can be exchanged through the communication channel 133.

Therefore, when the package main body 101 is pressed by the outside, the fluid stored in the sub-fluid storage unit 131 can pass through the communication channel 133 and further pass through the sub-fluid storage unit 131 of the left buffer 102, the right buffer 103 and the bottom buffer 104, thereby dispersing the pressure applied thereto, enhancing the pressure resistance thereof and further enhancing the safety thereof.

Similarly, when the left buffer 102, the right buffer 103 or the bottom buffer 104 is pressed by the outside, the fluid stored in the sub-fluid storage unit 131 can enter the sub-fluid storage unit 131 of the package main body 101 through the communication channel 133, so as to disperse the pressure applied thereto, thereby enhancing the pressure resistance and the safety.

In summary, the provision of the stitching 42 is advantageous for enhancing the security of the fluid packaging bag.

It should be noted that the arrangement, arrangement position, arrangement number and arrangement shape of the press-fit seams 42 are merely examples and are not limited. Other shapes, locations and numbers of the stitching seams 42 may be provided according to other embodiments of the present invention. The present invention is not limited in this respect as long as the object of the present invention can be achieved.

It is understood that, when the fluid cushion body 10 of the fluid packing bag is packed without being filled with fluid, the bayberry, dragon fruit, guava, banana or mango is put into the containing cavity 100 from the opening 110. Then, a fluid filling operation will be performed, at which time fluid enters the fluid storage chamber 14, so that the fluid storage unit 13 is filled with fluid, thereby protruding inward and pressing against the outer surface of the bayberry, dragon fruit, guava, plantain, or mango to form a concavo-convex shape that conforms to the shape of the bayberry, dragon fruit, guava, plantain, or mango. That is, the fluid packing bag can be filled with a fluid to have a shape that matches the shape of a packing article previously set in the receiving chamber 100, and thus can be used for packing articles of different shapes and can be used for packing articles of irregular shapes.

Fig. 79 to 84 of the accompanying drawings illustrate a fluid packing bag according to a second preferred embodiment of the present invention. The fluid packaging bag comprises a fluid cushion body 10A and a series of fluid filling valves 20 arranged on the fluid cushion body 10A. The fluid buffer body 10A comprises a fluid storage unit 13A formed by plastic-molding two layers of fluid storage films 11 and 12 through a series of plane plastic-molding seams 30A and a series of three-dimensional plastic-molding seams 40A. The fluid storage unit 13A has a fluid storage chamber 14.

The planar plastic seam 30A includes two-sided sealing seams 32A, a main channel sealing seam 33A, a series of guide seams 34, a series of connecting seams 35, and a series of joining seams 36. The three-dimensional plastic seam 40A includes two side seams 41A and a series of stitching seams 42A.

The fluid cushion body 10A includes a front sidewall 10A 'and a rear sidewall 10 b'. The side seal 41A heat-seals the front sidewall 10A 'and the rear sidewall 10 b' at both sides of the fluid cushion body 10A, thereby forming a receiving chamber 100A having an opening 110A.

Unlike the first preferred embodiment described above, the crimp seam 42A according to the first preferred embodiment of the present invention is shaped like a ring, which is disposed in the vicinity of the side seal seam 41A to reduce the expansion of its location and its periphery. According to the second preferred embodiment of the present invention, the number of the press-fit seams 42A is six, which are respectively provided at four corners and the middle of both sides of the fluid packing bag. These areas are areas that are susceptible to compression and expansion during packaging and shipping. The provision of the stitching 42A reduces the degree of expansion of these areas, so that the risk of damage to them from external stresses is reduced.

More specifically, the periphery of the fluid packing bag, i.e., the left, right and bottom sides thereof, is an area where the fluid filling amount is relatively small and the cushioning protection strength is weak. The provision of the seam 42A prevents the packaged article from being wrapped around the left and right side seams 41A and the bottom thereof, and thus away from the weakened cushioning region. On the contrary, when the periphery of the fluid packing bag is pressed by the outside, the fluid at the periphery flows toward the center, so that the pressure resistance is enhanced. Similarly, when the middle region of the fluid packaging bag is pressed, the fluid in the middle flows to the periphery, so that the compression resistance of the middle part of the fluid packaging bag is enhanced. That is, the pressing seam 42A forms a buffer area around the fluid packaging bag, thereby increasing the safety of the fluid packaging bag.

It should be noted that the arrangement, number, position and shape of the pressing seam 42A are only examples and not limitations of the present invention.

As shown in fig. 79-84, the planar molding slit 30A further includes at least one positioning slit 38A. The positioning slit 38A is provided in the fluid damper 10A. According to the second preferred embodiment of the present invention, the number of the positioning slits 38A is two and the positions of the two positioning slits 38A correspond when the fluid cushion body 10A is folded in half to form the front side wall 10A 'and the rear side wall 10 b'. That is, the flat sealing slit 30 includes one positioning slit 38A that is sealed to the front sidewall 10a 'and one positioning slit 38A that is sealed to the rear sidewall 10 b', and both are formed at the front and rear sides of the fluid packing bag and are located corresponding to each other. It should be noted that the above-mentioned number and arrangement positions of the positioning slits 38A are only examples of the present invention and are not limited thereto. The positioning slots 38A may be of other numbers and locations according to other embodiments of the invention. The number and the arrangement position thereof may be set according to the shape of the packaged article.

According to the second preferred embodiment of the present invention, the positioning slit 38A is located at a middle position of the fluid storage unit 13A. It will be appreciated that the positioning slit 38A plastically bonds at least two layers of the fluid storage films 11 and 12, such that the portion corresponding to the positioning slit 38A cannot be filled with fluid, and the surrounding portion can be filled with fluid for cushioning the packaged article.

As will be appreciated by those skilled in the art, the positioning slits 38A are implemented as planar molding slits in this embodiment, i.e., the positioning slits 38A are formed without three-dimensional molding. In another modification, the positioning slit 38A may also be performed in a three-dimensional plastic-molding step, that is, the fluid cushion body 10A is folded in half to form the front sidewall 10A 'and the rear sidewall 10 b', and then the three-dimensional plastic-molding slit 40 and the positioning slit 38A are formed by a plastic-molding machine, during the process of forming the positioning slit 38A, for example, in a heat-sealing process, a heat-resistant blocking device is disposed in the receiving cavity 100A, so as to prevent an inner fluid storage film, such as the fluid storage film 12, from being heat-sealed by the positioning slit 38A on the inner surface after being folded in half, that is, the positioning slit 38A only heat-seals two layers of the fluid storage films, but does not heat-seal four layers of the films into a whole, thereby ensuring that the receiving cavity 100A is continuously and completely formed. Or the inner surface of the fluid storage film is attached to a heat resistant object like the heat resistant layer 24, thereby preventing the inner surfaces thereof from being heat sealed together.

When the fluid cushion body 10A is filled with fluid and forms the fluid packing bag, the positioning slits 38A are formed to form the front side wall 10A 'and the rear side wall 10 b' into the concave-convex structure inwardly and outwardly, respectively. The concave inward tendency of the front 10a 'and rear 10 b' side walls advantageously retains the packaged item between the two locating slits 38A, so that the bayberry, dragon fruit, musa, banana or mango can be more securely packaged and better protected.

In the preferred embodiment of the present invention, each positioning slit 38A is a plastic block and has a circular shape, and those skilled in the art will understand that the positioning slit 38A may also have a triangular shape, or other polygonal shapes such as a quadrilateral, a pentagonal, a hexagonal, etc., and the present invention is not limited in this respect. It can be understood that, because the positioning slits 38A are provided, the fluid cushion body 10A forms a concave-convex structure on both the inner surface and the outer surface when being filled with fluid to form the fluid packaging bag, and the concave-convex structure formed on the inner surface can effectively fix the bayberry, dragon fruit, ballet, banana or mango to prevent the bayberry, dragon fruit, the ballet, banana or mango from being collided. The fluid packing bag has an uneven structure formed on the outer surfaces of the opposite front and rear side walls 10A 'and 10 b' thereof, so that when a plurality of fluid packing bags are stacked together, the concave structure of the fluid cushioning body 10A of one fluid packing bag can correspond to the convex structure of the fluid cushioning body 10A of another fluid packing bag, thereby effectively saving space and facilitating storage.

It is understood that, when the fluid cushion body 10A of the fluid packing bag is packed without being filled with fluid, the bayberry, dragon fruit, guava, banana or mango is put into the containing cavity 100A from the opening 110A. Then, a fluid filling operation will be performed, at which time fluid enters the fluid storage chamber 14, so that the fluid storage unit 13A is filled with fluid, so as to protrude inward and press against the outer surface of the bayberry, dragon fruit, balla, plantain, or mango to form a concavo-convex shape that conforms to the shape of the bayberry, dragon fruit, balla, plantain, or mango. That is, the fluid packing bag can be filled with a fluid to have a shape that matches the shape of the packing article previously set in the containing chamber 100A, and thus can be used for packing articles of different shapes and can be used for packing articles of irregular shapes.

As shown in fig. 77 and 78, the planar pinch-off seam 30A further includes a series of pinch-off seams 39A. The shaping slit 39A is formed at the bottom of the fluid packing bag to connect the two fluid storage films 11 and 12 at the bottom of the fluid packing bag, thereby preventing the inner one of the fluid storage films 11 and 12 from being excessively inwardly contracted, thereby facilitating to maintain the overall shape of the fluid packing bag. In addition, the shaping slit 39A provides a flatter bottom for the fluid packaging bag, which is more suitable for standing, such as in a packaging box.

According to this second preferred embodiment of the invention, the shaped slits 39A are crescent-shaped arranged in pairs. It will be understood by those skilled in the art that the above-described shape of the shaping slit 39A is merely illustrative of the present invention and is not limiting. According to other embodiments of the present invention, the shaping slit 39A may have other shapes, such as circular, square, etc. The present invention is not limited in this respect as long as the object of the present invention can be achieved.

A modified embodiment of the second preferred embodiment of the present invention is shown in fig. 85-99. The fluid packaging bag further has at least one vent hole 200B and at least one corresponding hole sealing seam 201B, wherein the vent hole 200B connects the accommodating cavity 100A with the external environment of the fluid packaging bag, so that the packaging material packaged in the accommodating cavity 100A can contact with the external environment through the vent hole 200B to perform moderate breathing activity. That is, when the fluid packing bag is used to pack bayberry, dragon fruit, musa, plantain, or mango, ambient air can be supplied to the bayberry, dragon fruit, musa, plantain, or mango through the air holes 200B, so that it can be appropriately aerobic-breathed to prevent it from being anaerobic-breathed to cause the bayberry, dragon fruit, musa, plantain, or mango, thereby extending the fresh-keeping time of the bayberry, dragon fruit, musa, plantain, or mango. It is worth mentioning that the hole sealing seam 201B is correspondingly disposed at a position close to the edge of the ventilation hole 200B, which connects the two layers of fluid storage films illustrated in the figure by plastic sealing. In the preferred embodiment of the present invention, the fluid packing bag has two vents 200B, wherein the two vents 200B are symmetrically disposed on the front main sidewall 101a and the rear main sidewall 101B of the fluid packing bag, respectively. Specifically, the two air holes 200B are respectively disposed inside the two sealing seams 201B. It will be understood by those skilled in the art that the locations of the vent 200B and the hole sealing seam 201B of the preferred embodiment of the present invention are provided only as examples, and the vent 200B and the hole sealing seam 201B can also be implemented in other suitable locations of the front main sidewall 101a and the rear main sidewall 101B, and the present invention is not limited in this respect. The hole sealing seam 201 may be used to facilitate the formation of the containing cavity 101C for containing bayberry, dragon fruit, musa, or mango therein when the fluid cushion body 10C is filled with fluid, and the opening 102C thereof may close the opening 102C due to the expansion of the fluid storage unit 13A of the fluid packing bag, but the containing cavity 101C may communicate with the external environment through the ventilation hole 200B, thereby preventing the anaerobic respiration of bayberry, dragon fruit, musa, or mango.

It will be understood by those skilled in the art that the vent 200B may be disposed on the front main sidewall 101a and the rear main sidewall 101B of the fluid packaging bag, respectively, or may be disposed on the front main sidewall 101a or the rear main sidewall 101B of the fluid packaging bag. That is, the ventilation holes 200B may be respectively disposed on both sides of the fluid packaging bag, or may be disposed only on one side of the fluid packaging bag, which is not limited in the present invention.

In addition, in this preferred embodiment of the present invention, the airing hole 200B is implemented in a circular shape. It will be understood by those skilled in the art that the vent 200B can be implemented in any other shape such as a rectangle, a triangle, a cross, etc., and can be implemented in different sizes as required, and the invention is not limited in these two aspects.

It will be understood by those skilled in the art that the airing holes 200B may be symmetrically formed at the front and rear main sidewalls 101a and 101B.

It is worth mentioning that the fluid packaging bag may further have 4 ventilation holes 200B, as shown in fig. 89 to 92; 6 ventilation holes 200B as shown in fig. 93 to 94; 8 ventilation holes 200B, as shown in fig. 95 to 98; and 21 ventilation holes 200B as shown in fig. 98 to 100, which are not limited in the present invention. The ventilation holes 200B may be implemented in various shapes, sizes, numbers and arrangements according to the need, but the present invention is not limited in these respects.

Fig. 101-104 show a third preferred embodiment of the fluid packaging bag of the present invention, wherein the fluid packaging bag includes at least one fluid buffering body 10C, that is, a three-dimensional packaging bag is formed by one fluid buffering body 10C or a plurality of fluid buffering bodies 10C are connected by plastic sealing, such as bonding or heat sealing, to form the three-dimensional packaging bag. In the example of the present invention shown in fig. 101 to 104, it is formed by one such fluid cushion body 10C. More specifically, referring to fig. 101 and 104, the fluid cushion body 10C includes at least two fluid storage films 11 and 12 formed into the three-dimensional packaging bag including one or more connected fluid storage units 13C through a series of planar plastic seams 30C and three-dimensional plastic seams 40C, and each fluid storage unit 13C forms a fluid storage chamber 14C for storing fluid therein.

It will be understood by those skilled in the art that the flat seam 30C is used to mold the multi-layer film to form a flat cushioning material as shown in fig. 101, and the three-dimensional molding seam 40C is used to further mold the flat cushioning material to form the fluid-packaging bag into the three-dimensional packaging device having a three-dimensional configuration and capable of containing the bayberry, dragon fruit, balla, plantain or mango as shown in fig. 96. The planar seam 30C and the three-dimensional seam 40C may be formed by bonding or heat sealing the plurality of films together, and preferably, in this embodiment, the planar seam 30C and the three-dimensional seam 40C may be formed by a heat sealing process.

As shown in fig. 101, the planar molding slit 30C further includes at least one dividing slit 31C, and in the preferred embodiment of the present invention, the dividing slits 31C are implemented in two rows, respectively disposed on both sides of the fluid cushion body 10C to become side boundary slits of the fluid cushion body 10C. That is, the separation slit 31C connects and seals the fluid storage membrane 11 and the fluid storage membrane 12 together. The fluid storage unit 13C may have various shapes such as a bar shape, a circular shape, a polygonal shape, or other irregular shapes, and the present invention is not limited in this respect. In the example shown in fig. 101 to 104, the fluid packing bag includes one fluid storage unit 13, and the partition slits 31C on both sides form side boundary slits, and the fluid storage chamber 14C is formed between two rows of the partition slits 31C.

As shown in fig. 101, the planar plastic seam 30C further comprises a continuously sealed side seam 32C on the top and bottom sides of the fluid cushion body 10C and a continuously sealed main channel seam 33C on the top side adjacent to the side seam 32C, wherein the main channel 151C is formed between the side seam 32C and the main channel seam 33C on the top side.

It will be appreciated that the edge seal 32C is formed by a plastic molding process such as bonding or heat sealing and sealingly connects the two fluid storage films 11 and 12. The main passage sealing slit 33C is formed by a plastic molding process such as bonding or heat sealing and connects two layers of the fluid storage films 11 and 12 and two layers of the valve films 21C and 22C, respectively. For example, the main passage sealing seams 33C formed at the upper and lower sides by one heat-sealing process heat-seal the fluid storage film 11 and the valve film 21, and heat-seal the fluid storage film 12 and the valve film 22, respectively, and heat-seal the valve films 21 and 22 at positions other than the positions corresponding to the fluid passages 23C.

As shown in fig. 101, the fluid cushion body 10C includes one fluid storage unit 13C and is arranged in the longitudinal direction. The main passage unit 15C is arranged in the lateral direction and is integrally formed with the fluid storage unit 13C. It is worth mentioning that the fluid packaging bag may have one or more of the fluid filling valves 20C, and in the preferred embodiment of the present invention, the fluid packaging bag has a plurality of the fluid filling valves 20C to form a plurality of fluid filling passages, thereby increasing the speed and efficiency of fluid filling. In another embodiment of the present invention, the fluid packaging bag may also have a fluid filling valve 20C, and the present invention is not limited in this respect.

It is worth mentioning that when the fluid packaging bag is implemented with a fluid filling valve 20C, the fluid can enter the fluid storage chamber 14C through the main passage 151C and the fluid filling valve 20C in order. In another embodiment of the present invention, the fluid packaging bag can be implemented without the main channel 151C, wherein the fluid cushioning material passes directly through the fluid filling valve 20C into the fluid storage chamber 14C.

The fluid storage unit 13C extending in the longitudinal direction as shown in fig. 101 is adapted to be folded in half to obtain a structure in which two folded parts of the storage unit 13C are folded in half to each other as shown in fig. 102, so that the fluid cushion body 10C forms a front side wall 10a and a rear side wall 10b, and then edge portions of the front side wall 10a and the rear side wall 10b on the left and right sides of the fluid cushion body 10C are connected by the three-dimensional plastic-sealed seams 40C on the left and right sides, so that after the fluid cushion body 10C is filled with fluid, the fluid cushion body 10C forms a housing chamber 101C having an opening 102C through which a packaged article is adapted to be put into the housing chamber 101C and stored in the housing chamber 101C.

In this embodiment, the fluid buffering body 10C is provided with two rows of the three-dimensional plastic sealing seams 40C, wherein the three-dimensional plastic sealing seams 40C are continuously plastic-sealed, that is, the three-dimensional plastic sealing seams 40C hermetically seal two sides of the front sidewall 10a and the rear sidewall 10b, as shown in fig. 101 and 102. The three-dimensional plastic sealing seam 40C may also be an intermittent plastic sealing, that is, the three-dimensional plastic sealing seam 40 intermittently connects the front sidewall 10a and the rear sidewall 10b, so as to form at least one through seam between each intermittent front sidewall 10a and rear sidewall 10 b. Thus, air in the external environment can enter the accommodating cavity 101C through the through seam. When the fluid packaging bag is used for packaging waxberry, dragon fruit, musa, plantain or mango, the waxberry, dragon fruit, musa, plantain or mango placed in the containing cavity 101C can perform moderate aerobic respiration, so that the packaged waxberry, dragon fruit, musa, plantain or mango is inhibited from anaerobic respiration to a certain extent, and the fresh-keeping period of the waxberry, dragon fruit, musa, plantain or mango is prolonged.

It should be noted that, when the three-dimensional plastic sealing seam 40C may be an additional independent plastic sealing seam, or may be formed simultaneously with the separation seams 31C on the left and right sides of the fluid buffering body 10C by the same heat sealing process, or the separation seam 31C is not formed in the planar plastic sealing step, but the three-dimensional plastic sealing seam 40C is formed in the three-dimensional plastic sealing step, and at this time, the three-dimensional plastic sealing seam 40C is continuously plastic-sealed to seal the fluid storage chamber.

As shown in fig. 101 to 104, the fluid cushioning body 10C is further provided with a plurality of sets of hole seals 201C arranged at intervals from each other, and when the fluid cushioning body 10C is folded in half to form the front and rear side walls 10a and 10b, the respective hole seals 201C of each set of hole seals 201C are positioned correspondingly. That is, each set of hole sealing slits 201C includes at least one hole sealing slit 201C that is mold-coupled to the fluid storage films 11 and 12 of the front sidewall 10a and at least one hole sealing slit 201C that is mold-coupled to the fluid storage films 11 and 12 of the rear sidewall 10b, and both are formed on the front and rear sides of the fluid packing bag and correspond in position to each other.

As shown in fig. 101 to 104, in this example, the fluid buffering body 10C is provided with 10 hole sealing seams 201C along the longitudinal direction, wherein the hole sealing seams 201C are in plastic-sealing connection with the fluid storage films 11 and 12 of the fluid buffering body 10C. After the fluid cushion body 10C is three-dimensionally molded, 5 hole sealing seams 201C are respectively formed on the front side and the rear side of the fluid cushion body 10C, so as to form 5 sets of corresponding hole sealing seams 201C, and the front side and the rear side of the fluid packaging bag formed by the fluid cushion body 10C are approximately symmetrical. Such symmetrically disposed hole seals 201C are capable of holding an object to be packaged, such as an apple, between the corresponding two hole seals 201C when the fluid packaging bag is filled with the fluid cushioning material, thereby further preventing the object to be packaged from moving within the receiving cavity 101C and achieving a predetermined positioning effect.

In the example of fig. 101 to 103, each of the hole sealing seams 201C is located at a middle position of the fluid storage unit 13C, a communication passage 133C is formed on each of both sides of each of the hole sealing seams 201C, and a fluid buffer section 134C is formed between two adjacent hole sealing seams 201C. That is, the shape and position of the hole sealing seam 201C do not affect the fluid cushion body 10C to form the fluid storage unit 13C integrally connected. That is, when the fluid packing bag is filled with the fluid cushioning material, the fluid cushioning material can sufficiently fill the fluid cushioning body 10C through the communication passage 133C, thereby performing a relatively sufficient cushioning effect on the packed article.

In the preferred embodiment of the present invention, the hole sealing seam 201C is implemented in a circular ring structure, i.e., an annular sealing seam is formed by bonding or heat sealing, wherein the inner portion of the annular hole sealing seam 201C cannot be filled with the fluid buffer material. It is worth mentioning that when the fluid cushion body 10C is filled with the fluid cushion material, the portion of the fluid cushion body 10C corresponding to the communication path around the annular hole sealing seam 201C is expanded due to the filling of the fluid cushion material, so as to support and partition the packing object such as apple and the like in the space between the sets of hole sealing seams 201C, thereby further preventing the packed object from moving inside the accommodating chamber 101C.

As will be appreciated by those skilled in the art, the aperture seal 201C is implemented as a planar molding seal in this embodiment, i.e., the aperture seal 201C is formed without being three-dimensionally molded. In another modification, the hole sealing seam 201C may also be performed in a three-dimensional molding step, that is, the fluid cushion body 10C is folded in half to form the front and rear side walls 10a and 10b, and then the three-dimensional molding seam 40C and the hole sealing seam 201C are formed by a molding machine, and in the process of forming the hole sealing seam 201C, for example, in a heat sealing process, a heat-resistant blocking device is disposed in the accommodating chamber 101C to prevent an inner fluid storage film, such as the fluid storage film 12C, from being heat-sealed and connected by the hole sealing seam 201C on the inner surface thereof after being folded in half, that is, the hole sealing seam 201C heat-seals only the two fluid storage films 11 and 12 on one side of the fluid cushion body 10C, but does not heat-seal and connect the four films into a whole, thereby ensuring that the accommodating chamber 101C is continuously and penetratively formed. Or the inner surface of the inner fluid storage membrane 11/12 is attached to a heat resistant substance similar to the heat resistant layer 24C, thereby preventing the inner surfaces thereof from being heat sealed together.

In the preferred embodiment of the present invention, each of the hole sealing seams 201C is a plastic block and has a circular shape, and those skilled in the art will understand that the hole sealing seams 201C may also have a triangular shape, or other polygonal shapes such as a quadrangle, a pentagon, a hexagon, etc., and the present invention is not limited in this respect.

As shown in fig. 102, the fluid cushion body 10C is folded in half, the fluid storage film 11C is located at the outer side, and the fluid storage film 12 is located at the inner side to form the accommodating chamber 101C. Further, as shown in fig. 104, after the fluid cushion body 10C is filled with the fluid cushion material, a sub-chamber 1011C is formed near the position between the hole seals 201C of each set, and a space 1012C is formed near the position between the fluid cushion sections 134C, that is, the accommodating chamber 101C is formed by alternately forming the sub-chamber 1011C and the space 1012C. When a plurality of packaged articles are placed in the containing cavity 101C and the fluid cushion material is filled in the fluid cushion body 10C, the inner surfaces of the fluid storage films 12C are adjacent to each other and attached to the bayberry, dragon fruit, balla, plantain or mango, so as to firmly limit the bayberry, dragon fruit, balla, plantain or mango in the dispensing chamber 1011C. Because the fluid buffer section 134C is filled with fluid, the space 1012C is formed between the expansion parts, so that the bayberry, dragon fruit, musa, banana or mango in one of the sub-compartments 1011C will not easily cross the space 1012C and reach another sub-compartment 1011C to cause collision of another packaged item in another sub-compartment 1011C due to the blocking effect of the expanded fluid buffer section 134C, thereby preventing damage caused by mutual collision of a plurality of bayberries, dragon fruits, musa, bananas or mangoes in the accommodating cavity 101C. It will be appreciated that the width D of the compartment 1012C is less than the thickness W of the bayberry, dragon fruit, guava, banana, or mango so as to prevent the wrapper from colliding with the adjacent wrapper beyond the compartment 1012C, resulting in damage to the wrapper.

It will be appreciated that the location of two adjacent sets of the locating slits 38 substantially matches the size of the bayberry, dragon fruit, Japanese music, Japanese banana or mango, and the distance between two adjacent sets of the aperture seals 201C is slightly greater than the size of the bayberry, dragon fruit, Japanese music, Japanese banana or mango, and the distance between the aperture seals 201C on the bottom side of the fluid packaging bag and the fold-line on the bottom side is substantially less than the size of the bayberry, dragon fruit, Japanese music, Japanese banana or mango, thereby forming the dispensing chamber 1011C near the location corresponding to the aperture seals 201C. When the fluid cushion body 10C of the fluid packing bag is not filled with fluid, after a plurality of the bayberries, dragon fruits, basjo, bananas or mangoes are put into the accommodating cavity 101C from the opening 102C, the fluid packing bag is filled with the fluid cushion material, and the fluid cushion material enters the fluid storage chamber 14C, so that each of the fluid cushion sections 134C is filled with the fluid cushion material to expand and bulge to press against the outer surface of each corresponding one of the bayberries, dragon fruits, basjo, bananas or mangoes, thereby forming the spacing space 1012C to space adjacent two of the bayberries, dragon fruits, basjo, bananas or mangoes.

As shown in fig. 101, the fluid packaging bag further has at least one vent hole 200C, wherein the vent hole 200C connects the accommodating cavity 100C with the external environment of the fluid packaging bag, so that the package packed in the accommodating cavity 100C can contact with the external environment through the vent hole 200C. That is, when the fluid packing bag is used to pack bayberry, dragon fruit, Japanese banana, or mango, air in the external environment can be supplied to the bayberry, dragon fruit, Japanese banana, or mango through the vent holes 200C, so that it can be appropriately breathed aerobically to prevent it from being breathed aerobically to cause the bayberry, dragon fruit, Japanese banana, or mango to rot, thereby extending the freshness-keeping time of the bayberry, dragon fruit, Japanese banana, or mango. In addition, the fluid packaging bag can effectively keep the waxberries, the dragon fruits, the musa basjoo or the mangoes fresh, so that the waxberries, the dragon fruits, the musa basjoo or the mangoes do not need to be refrigerated for keeping fresh during transportation or storage, and the transportation and storage costs of the waxberries, the dragon fruits, the musa basjoo or the mangoes are greatly saved.

Specifically, the vent hole 200C is disposed on the fluid buffering body 10 to penetrate the fluid storage films 11 and 12 of the fluid buffering body 10, thereby communicating the accommodating chamber 100C with the external environment. Further, the hole sealing seam 201C is disposed at an edge portion of the vent hole 200C, i.e., the vent hole 200C is formed inside the hole sealing seam 201C. It is worth mentioning that, in the preferred embodiment of the present invention, the fluid packing bag has ten vents 200C, wherein the ten vents 200C are respectively symmetrically disposed on the front main sidewall 101a and the rear main sidewall 101b of the fluid packing bag. It will be understood by those skilled in the art that the locations where the ventilation holes 200C and the hole sealing slits 201C are disposed in the preferred embodiment of the present invention are merely examples, and the ventilation holes 200C and the hole sealing slits 201C may also be implemented in other locations of the front main sidewall 101a and the rear main sidewall 101b, and the present invention is not limited in this respect.

It will be understood by those skilled in the art that the vent 200C may be disposed on the front main sidewall 101a and the rear main sidewall 101b of the fluid packaging bag, respectively, or may be disposed on the front main sidewall 101a or the rear main sidewall 101b of the fluid packaging bag. That is, the ventilation holes 200C may be respectively disposed on both sides of the fluid packaging bag, or may be disposed only on one side of the fluid packaging bag, which is not limited in the present invention.

In addition, in this preferred embodiment of the present invention, the airing hole 200C is implemented in a circular shape. It will be understood by those skilled in the art that the vent 200C may be implemented in any other shape such as a rectangle, a triangle, a cross, etc., and may be implemented in different sizes as required, and the invention is not limited in these two aspects.

It will be understood by those skilled in the art that the airing holes 200C may be symmetrically formed on the front and rear main sidewalls 101a and 101 b.

It should be noted that, the fluid packaging bag may further have 4 ventilation holes 200C, 6 ventilation holes 200C, 8 ventilation holes 200C, etc. according to the requirement, the present invention is not limited thereto, wherein the ventilation holes 200C are symmetrically disposed on two corresponding sides of the fluid buffering body 10C. It should be noted that the ventilation holes 200C may be implemented in different shapes, sizes, numbers and arrangements according to the requirement, and the present invention is not limited in these respects.

As shown in fig. 105, according to a fourth preferred embodiment of the present invention, in this embodiment, the structure is similar to that of the third embodiment described above, except that the fluid packing bag has a single fluid filling valve 20 formed of two valve films for filling the fluid cushion body 10C with fluid.

Fig. 106 shows a fluid packaging bag according to a fifth preferred embodiment of the present invention, which includes at least one fluid cushion body 10D, that is, a three-dimensional packaging bag formed by one fluid cushion body 10D or a plurality of fluid cushion bodies 10D is formed by plastic-sealing, such as bonding or heat-sealing. In the preferred embodiment of the present invention, the fluid packaging bag is formed in two parts by one fluid cushion body 10D, each part having a structure of a front side wall 101D and a rear side wall 102D, wherein the front side wall 101D and the rear side wall 102D form a containing chamber 100D for packaging a product to be packaged. That is, when the fluid packaging bag has two accommodating cavities 100D, the opening 300D is located in the middle of the fluid cushion body 10D.

The fluid packing bag further has at least one vent hole 200D, wherein the vent hole 200D communicates the accommodating cavity 100D with the external environment of the fluid packing bag, so that the packing material packed in the accommodating cavity 100D can contact with the external environment through the vent hole 200D. That is, when the fluid packing bag is used to pack bayberry, dragon fruit, Japanese banana, or mango, air in the external environment can be supplied to the bayberry, dragon fruit, Japanese banana, or mango through the vent holes 200D, so that it can be appropriately breathed aerobically to prevent it from being breathed aerobically to cause rot of the bayberry, dragon fruit, Japanese banana, or mango, thereby extending the freshness-keeping time of the bayberry, dragon fruit, Japanese banana, or mango. In addition, the fluid packaging bag can effectively keep the waxberries, the dragon fruits, the musa basjoo or the mangoes fresh, so that the waxberries, the dragon fruits, the musa basjoo or the mangoes do not need to be refrigerated for keeping fresh during transportation or storage, and the transportation and storage costs of the waxberries, the dragon fruits, the musa basjoo or the mangoes are greatly saved.

Specifically, the vent hole 200C is disposed on the fluid buffering body 10D to penetrate the fluid storage films 11 and 12 of the fluid buffering body 10D, thereby communicating the accommodating chamber 100D with the external environment. Further, the fluid packaging bag further includes at least one hole sealing seam 201D, and the vent hole 200D is located in the hole sealing seam 201D.

It should be noted that, in the preferred embodiment of the present invention, the upper and lower portions of the fluid packaging bag are respectively provided with eight ventilation holes 200D, wherein the eight ventilation holes 200D are respectively symmetrically disposed on the front sidewall 101D and the rear sidewall 102D of the fluid packaging bag. It will be understood by those skilled in the art that the locations of the vent 200D and the hole seal 201D are provided by way of example only, and the present invention is not limited in this respect.

In addition, in this preferred embodiment of the present invention, the airing hole 200D is implemented in a circular shape. It will be understood by those skilled in the art that the ventilation holes 200D may be implemented in any other shapes such as rectangle, triangle, cross, etc., and may be implemented in different sizes, numbers and arrangements according to the requirement, and the invention is not limited in these respects.

It is worth mentioning that the eight ventilation holes 200D can be symmetrically disposed on the front sidewall 101D and the rear sidewall 102D.

It should be noted that the fluid packaging bag may further have 4 ventilation holes 200D, 18 ventilation holes 200D, etc. according to the requirement, which is not limited in the present invention.

Referring to fig. 107 and 110, a fluid packaging bag according to a sixth preferred embodiment of the present invention is shown, and the fluid packaging bag includes at least one fluid buffering body 10E, that is, a three-dimensional packaging bag formed by one fluid buffering body 10E or a plurality of fluid buffering bodies 10E are connected by plastic sealing, such as bonding or heat sealing, to form the three-dimensional packaging bag. In the preferred embodiment of the present invention, the fluid packaging bag is formed by a fluid cushion body 10E to have a structure of a front side wall 101E and a rear side wall 102E, wherein the front side wall 101E and the rear side wall 102E form two containing cavities 100E for packaging the product to be packaged. That is, when the fluid packing bag is filled with the fluid cushioning material, the fluid packing bag forms a U-shaped space structure having a front side wall 101E and a rear side wall 102E.

As shown in fig. 107, the front sidewall 101E and the rear sidewall 102E are molded with an intermediate plastic to form two accommodating cavities 100E and two openings 300E therebetween, wherein the article to be packaged is placed in the accommodating cavity 100E through the opening 300E.

The fluid packaging bag further has at least one vent hole 200E, wherein the vent hole 200E connects the accommodating cavity 100E with the external environment of the fluid packaging bag, so that the package packed in the accommodating cavity 100E can contact with the external environment through the vent hole 200E. That is, when the fluid packing bag is used to pack bayberry, dragon fruit, guava, plantain, or mango, air in the external environment can be supplied to the bayberry, dragon fruit, guava, plantain, or mango through the vent hole 200E, so that it can be appropriately aerobic-breathed to prevent it from being anaerobic-breathed to cause rot of the bayberry, dragon fruit, guava, plantain, or mango, thereby extending the fresh-keeping time of the bayberry, dragon fruit, guava, plantain, or mango. In addition, the fluid packaging bag can effectively keep the waxberries, the dragon fruits, the musa basjoo or the mangoes fresh, so that the waxberries, the dragon fruits, the musa basjoo or the mangoes do not need to be refrigerated for keeping fresh during transportation or storage, and the transportation and storage costs of the waxberries, the dragon fruits, the musa basjoo or the mangoes are greatly saved.

Specifically, the vent hole 200E is disposed in the fluid buffer body 10E to penetrate the fluid storage films 11 and 12 of the fluid buffer body 10E, thereby communicating the accommodating chamber 100E with the external environment. Further, the fluid packaging bag further comprises at least one hole sealing seam 201E, wherein the vent hole 200E is located in the hole sealing seam 201E.

It is worth mentioning that, in the preferred embodiment of the present invention, the fluid packaging bag has eight vents 200E, wherein the eight vents 200E are symmetrically disposed on the front sidewall 101E and the rear sidewall 102E of the fluid packaging bag, respectively. It will be understood by those skilled in the art that the positions of the vent 200E and the hole seal 201E are provided only as examples, and the vent 200E and the hole seal 201E may also be implemented to be provided at suitable positions of the front sidewall 101E and the rear sidewall 102E. For example, the eight ventilation holes 200E can be disposed on the front sidewall 101E, and the invention is not limited in this respect.

In addition, in this preferred embodiment of the present invention, the airing hole 200E is implemented in a circular shape. It will be understood by those skilled in the art that the ventilation holes 200E can be implemented in any other shapes such as rectangle, triangle, cross, etc., and can be implemented in different sizes, numbers and arrangements according to the requirement, and the invention is not limited in these respects.

In another embodiment of the present invention, the fluid packaging bag further comprises at least one cover 103E, wherein the cover 103E extends upward from the rear sidewall 102E. After the object to be packaged is placed in the containing cavity 100E through the opening 300E, the cover 103E is adapted to be bent toward the opening 300E to enclose the package in the containing cavity 100E, as shown in fig. 109 and 110.

According to the first preferred embodiment, the fluid packaging bag comprises at least one fluid buffering body 10, that is, a three-dimensional packaging bag is formed by one fluid buffering body 10 or a plurality of fluid buffering bodies 10 are connected by plastic sealing, such as bonding or heat sealing, to form the three-dimensional packaging bag. In the present example, it is formed by one such fluid cushion body 10. More specifically, the fluid cushion body 10 comprises at least two fluid storage films 11 and 12 formed into the three-dimensional packaging bag comprising one or more connected fluid storage units 13 through a series of planar plastic sealing seams 30 and three-dimensional plastic sealing seams 40, wherein each fluid storage unit 13 forms a fluid storage chamber 14 capable of storing fluid.

It can be understood by those skilled in the art that the planar plastic sealing seam 30 is used for a fluid sheet 50 formed by plastic sealing a multi-layer thin film, the fluid sheet 50 is a planar buffering material, and the three-dimensional plastic sealing seam 40 is used for further plastic sealing the planar buffering material to form the fluid packaging bag into the three-dimensional packaging bag which has a spatial three-dimensional configuration and can contain the waxberry, dragon fruit, ballet, banana or mango. The planar seam 30 and the three-dimensional seam 40 may be formed by bonding or heat sealing the plurality of films together, and preferably, in this embodiment, both the planar seam 30 and the three-dimensional seam 40 may be formed by a heat sealing process.

In addition, the fluid packaging device can play a predetermined heat preservation role in winter environment, and prevent waxberries, dragon fruits, ballets, musa basjones or mangoes from being frozen.

When this waxberry, dragon fruit, plantain or mango of transportation, provide another kind of buffering fruit packaging method earlier, in the invention, specially propose a check wrapping bag, it comprises to separate the wrapping bag lateral wall the packing of fluid piece 50, it has many check placing grid to separate the wrapping bag inner chamber to can place a plurality of waxberries, dragon fruit, plantain or mango simultaneously, make waxberry, dragon fruit, plantain or mango not interfere with each other, reduce collision each other between waxberry, dragon fruit, plantain or the mango, thereby further protect the integrity of waxberry, dragon fruit, plantain or mango, further reduce the damage loss of waxberry, dragon fruit, plantain or mango in of way transportation. When an individual waxberry, dragon fruit, musa, plantain or mango is damaged, such as broken or mildewed, the stains produced by the individual waxberry, dragon fruit, musa, plantain or mango cannot be stained with other waxberry, dragon fruit, musa, plantain or mango, so that the aesthetics and edibility of other waxberry, dragon fruit, musa, plantain or mango are further protected.

Specifically, the partition wrapping bag includes a lateral wall, a wrapping bag bottom surface and a separator and has a built-in chamber, the lateral wall certainly wrapping bag bottom surface side extends to a direction to form an accommodating device, built-in chamber form with the lateral wall with between the wrapping bag bottom surface, be used for placing buffering fruit. The separator set up in built-in intracavity, in order to separate the inner space in built-in chamber becomes a plurality of spaces of placing to reach and to place a plurality of waxberries, dragon fruit, guava, plantain or mango and to the purpose of solitary storage space.

Further, the lateral wall with the wrapping bag bottom surface by fluid piece 50 forms, the lateral wall base with wrapping bag bottom surface side length corresponds, it can be three-cylinder, four-column body or n cylinder to separate the wrapping bag, works as when separating the wrapping bag and being the three-cylinder body, the wrapping bag bottom surface is a triangle-shaped, the lateral wall corresponds with it and has trilaterally, with the wrapping bag bottom surface is connected to form the shape of three main parts, works as it is with the three-cylinder body when the wrapping bag is four-cylinder or many cylinders to separate. It should be noted that the partition packing bag may be in other shapes such as a cylinder or an irregular shape, and the purpose of packing and buffering fruits can be achieved, but in order to save cost and facilitate packing and transportation, four columns or five columns in regular and simple shapes are preferably selected.

The lateral wall with the wrapping bag bottom surface can be a body coupling, by one or more fluid piece 50 passes through three-dimensional plastic envelope seam 40 will fluid piece 50 further plastic envelope makes fluid piece formation it has spatial configuration and can hold the three-dimensional shape of waxberry, dragon fruit, guava, plantain or mango. It is worth mentioning that the lateral wall with the wrapping bag bottom surface also can be by respectively the fluid piece 50 forms to splice it into through connection method it has spatial configuration and can hold the three-dimensional shape of waxberry, dragon fruit, guava, plantain or mango.

The cellular package has at least one storage cell formed by the partition device dividing the built-in cavity, and usually, the partition device uniformly divides the built-in cavity into a plurality of storage cells. Put the thing check and be used for placing solitary red bayberry, dragon fruit, plantain or mango, can strengthen right the buffering guard action of red bayberry, dragon fruit, plantain or mango, the removal space of red bayberry, dragon fruit, plantain or mango reduces to further reduce the damage that the rocking of red bayberry, dragon fruit, plantain or mango self brought.

Furthermore, the grid packaging bag can also be formed by splicing a plurality of three-dimensional packaging bags. It is a plurality of the wrapping bag can be through gluing, double faced adhesive tape, and the heat-seal means is connected, also can be through being a plurality of the express delivery incasement is placed to three-dimensional wrapping bag, will be a plurality of by the express delivery case three-dimensional packaging device fixed shaping to reach a plurality ofly the effect of three-dimensional wrapping bag concatenation.

The separating means may be formed by the fluid sheet 50, but there may also be other separating means such as cardboard plastic sheets. When the partition means is composed of the fluid sheet 50, the partition means may be integrally connected to the side wall or the bottom surface of the package, or the partition means may be connected by heat sealing or other means.

Preferably, the cellular packaging bag still includes a lid portion, the lid portion with the lateral wall cooperation makes the lid portion can cover or seal built-in chamber to further the protection is placed the cellular packaging bag bayberry, dragon fruit, guava, banana or mango. The lid portion can with the lateral wall is by the same fluid piece is constituteed, and sets up three-dimensional plastic envelope seam 40 makes the fluid piece is collapsible and forms the lid portion, and accessible the angular deviation of lid portion is opened and is closed the cell wrapping bag.

The packing bag of box is a form in addition, the packing bag of box the lateral wall lid portion with the packing bag bottom surface all by fluid piece 50 forms, and is preferred, through set up on the fluid piece 50 three-dimensional plastic-sealed seam 40 forms respectively the lateral wall with lid portion and the packing bag bottom surface, is preferred, with a slice fluid piece 50 passes through three-dimensional plastic-sealed seam 40 forms its folding three-section lid portion with packing bag bottom surface and one side the lateral wall simultaneously is another piece pass through on the fluid piece 50 three-dimensional plastic-sealed seam 40 forms other its folding the lateral wall makes through heat-seal or other bonding methods fluid piece 50 forms the structure of three-dimensional packing bag.

When the fluid sheet 50 is folded to form the side wall, the fluid sheet 50 may be selectively folded such that its end extends and folds inside the built-in cavity to act as the separating means.

It is worth mentioning that the separation means may be formed by heat-sealing and folding the individual fluid sheets 50, and then heat-sealing or other connecting means are connected into the inner cavity. The concrete form of separator can design according to the demand, can be designed into the diagonal form, forms such as crossing check, works as when separator is set up the diagonal form, put that the thing chamber is divided into a plurality of triangular prisms put the thing check, works as separator is set up to the form of crossing check, and is preferred, makes parallel and perpendicular between the separator, and will built-in chamber evenly separates into the rectangle form put the thing check, thereby can the maximize utilization put the size of thing chamber space and can adapt to different bayberries, dragon fruit, guava, banana or mango.

Further, the separating device may be the above-mentioned cardboard or plastic plate or other device, and when the separating device is the cardboard, the specific shape of the separating device may be designed as desired, and may be designed in a diagonal form, a cross grid form, etc., and when the separating device is arranged in a diagonal form, the storage chamber is divided into the storage cells of a plurality of triangular prisms, and when the separating device is arranged in a cross grid form, it is preferable that the separating device is parallel and perpendicular to each other, and the storage chamber is uniformly divided into the storage cells of a rectangular shape.

Transport in the packing during waxberry, dragon fruit, plantain or mango, through the box wrapping bag put the thing check and place waxberry, dragon fruit, plantain or mango, can select this moment the box wrapping bag overcoat is further packed with an express delivery case waxberry, dragon fruit, plantain or mango, also can by the box wrapping bag directly transports waxberry, dragon fruit, plantain or mango do not increase other packing plant.

It is worth mentioning that, because the thin gravy polysaccharide of waxberry, dragon fruit, guava, plantain or mango skin divides high characteristic, when this kind of high temperature weather transportation in summer, in order to prevent waxberry, dragon fruit, guava, plantain or mango damage because of the higher decay of temperature, can select through to when injecting fluid buffer material into in the box wrapping bag, select this fluid buffer material to be low temperature liquid to provide a low temperature environment for the product packed wherein, prevent to place waxberry, dragon fruit, plantain or mango in it and deteriorate because of the high temperature. It is worth mentioning that a refrigerating device such as an ice cube, an ice bag or a small refrigerating machine can be directly placed inside the storage cavity to achieve the purpose of preventing corrosion damage.

Further, when the bayberry, dragon fruit, musa, plantain or mango needs to be transported to a relatively cold place or needs to be transported in a relatively cold season, it is possible to select the fluid buffer material to be a high temperature liquid or a heat preservation liquid to prevent the bayberry, dragon fruit, musa, plantain or mango placed therein from being damaged by freezing due to the excessively low temperature when the fluid buffer material is injected into the cell packing bag. It should be noted that, a heating device such as a product generating heat through chemical reaction or a small heating machine may be directly placed inside the storage chamber to prevent corrosion damage.

Specifically, referring now to the specific construction of several fluid-packing bags and their methods of manufacture, FIG. 119 is a schematic diagram of a cylindrical fluid-packing bag according to a variation of the first preferred embodiment of the present invention. Fig. 119 shows a packing form of the fluid packing bag, which is a cylindrical fluid packing bag 70, wherein the cylindrical fluid packing bag 70 is formed by the fluid sheets 50 surrounding a circle to form a cylinder, the fluid sheets 50 form the side walls of the cylinder, and the length of the radius of the circular cross section of the cylinder formed by the fluid packing bag is determined according to the type and size of a specific transportation object. The fluid packaging bag can be used for transporting waxberries, dragon fruits, guava, plantains or mangoes with larger volume such as coconuts, grapefruits or durian.

Further, the cylindrical fluid packing bag 70 further includes a cylindrical side wall 71 and a blocking line 72, and the fluid sheet 50 surrounds the cylindrical side wall 71 and is aligned with two side edges of the fluid sheet 50 to be bonded by heat sealing or other methods, so that the cylindrical shape of the fluid sheet 50 is formed. The stop line 72 is used for intercepting and is put into waxberry, dragon fruit, plantain or mango of cylinder fluid packaging bag 70 prevents waxberry, dragon fruit, plantain or mango from following drop in the cylinder fluid packaging bag 70 to can not carry out buffer protection to waxberry, dragon fruit, plantain or mango.

Figure 120 is a schematic view of a fluid sheet structure of a three-dimensional package according to a variant embodiment of the first preferred embodiment of the present invention. Fig. 121 is a schematic view illustrating a structure of a three-dimensional packaging bag according to a modified embodiment of the first preferred embodiment of the present invention after being filled with fluid. Referring to fig. 120 and 121, a three-dimensional packaging bag 130 with another structure is a fluid packaging bag, and the three-dimensional packaging bag 130 is formed by folding two fluid pieces 50, the fluid pieces 50 are overlapped at the middle part and are vertical to each other in a plane, each fluid piece 50 is provided with a three-dimensional plastic sealing seam 40, the three-dimensional plastic sealing seam 40 is arranged on the fluid piece, and the fluid pieces 50 can be folded through the three-dimensional plastic sealing seam 40. Further, suitable position on the fluid piece 50 sets up three-dimensional plastic envelope seam 40 is in as shown set up two on the fluid piece 50 three-dimensional plastic envelope seam 40 is through three-dimensional plastic envelope seam 40 department is folded fluid piece 50 makes fluid piece 50 forms a spatial structure to two are connected in the heat-seal the fluid piece 50 side junction is in order to form three-dimensional wrapping bag 130.

Referring to fig. 121, preferably, the stereo packing bag 130 further includes a cover 131, one set up three places the stereo plastic sealing seam 40 on the fluid piece 50, make the fluid piece is folding to form behind the stereo packing bag 130 structure the cover 131, through the stereo plastic sealing seam 40 can turn over the cover 131 from top to bottom, in order to reach and open and close the mesh of stereo packing bag 130 to further the protection is placed into red bayberry, dragon fruit, guava, banana or mango of stereo packing bag 130.

Fig. 122 is a schematic diagram of a cellular packaging bag after being filled with fluid according to a variant of the first preferred embodiment of the present invention, and the cellular packaging bag 250 is shown as including a packaging housing 252 and a separating device 251, the separating device 251 is placed in the packaging housing 252, and the separating device 251 separates the inner cavity of the packaging housing 252. The structure of the packing case 252 may be the same as that of the three-dimensional packing bag 130, or may be assembled into a three-dimensional box-shaped structure by other folding methods.

The partition 251 and the package housing 252 are respectively formed by the fluid sheet, and the partition 251 includes a side wall and a partition wall, both of which are formed by folding the fluid sheet. The fluid sheet is folded repeatedly through the three-dimensional plastic sealing seam 40 to form a cross structure, the side walls form two side edges of the separating device 251, the partition wall forms the poor wall surface, the partition wall and the side walls are connected in pairs, the fluid sheet is integrally folded to form, and the side edges are connected in a heat sealing or other connection mode to fix the shape of the fluid sheet. When the partition 251 is placed in the package housing 252, the side wall of the partition 251 can serve as the housing side wall of the cellular package, and the partition 251 and the three-dimensional package are bonded by heat sealing or other means, so that the fluid package forms a buffer device with multiple cells as shown in fig. 123, and thus different bayberries, dragon fruits, basjo, bananas or mangoes can be placed.

The separator 251 by the fluid piece is folding to be formed, as shown in the figure will fluid piece is folding many times and is formed one and have the lateral wall that holds the chamber, utilizes this to hold money placement article, and passes through fluid piece protection buffering fruit to keep apart each bayberry, dragon fruit, guava, plantain or mango and prevent that each bayberry, dragon fruit, guava, plantain or mango collide and take place further harm. As shown in fig. 122, the separator 251 is a plurality of rectangular frames, the separator 251 also by the fluid plastic envelope seam 40 plastic envelope the fluid piece 50 forms, in the manufacturing through the fluid plastic envelope seam 40 will the fluid piece 50 plastic envelope becomes required size and shape to adapt to the size and the shape of different waxberries, dragon fruit, guava, plantain or mango.

Fig. 123 is a schematic view of a cellular package according to a variant of the first preferred embodiment of the present invention after being filled with fluid. As shown in fig. 123, the fluid sheet constituting the partition 251 is folded to partition the inner cavity of the three-dimensional packaging bag into a plurality of triangular prism spaces, that is, the storage cells have a triangular prism shape.

Fig. 124 is a schematic diagram of a cardboard cellular package according to a variant of the first preferred embodiment of the invention after being flushed with fluid. As shown in the drawing, the cardboard cellular packaging bag 60 includes a packaging bag shell 61, a packaging bag cover 62 and a partition cardboard 63, the packaging bag shell 61 is matched with the packaging bag cover 62, the packaging bag shell 61 is a packaging box structure, and may be consistent with the structure of the three-dimensional packaging bag 130, or may be assembled into a three-dimensional packaging structure by other folding methods. The package cover 62 can control the opening and closing of the package case 61.

The partition cardboard 63 in the cardboard box wrapping bag 60 comprises the cardboard, through with mutually supporting of cardboard self, partition cardboard 63 forms a cross baffle, partition cardboard 63 with fluid wrapping bag inner chamber shape and size cooperatees, will partition cardboard 63 puts into the fluid wrapping bag, thereby will the fluid wrapping bag inner chamber is separated into a plurality ofly put the thing check to a plurality of bayberries, dragon fruit, guava, plantain or mango can be placed.

According to one aspect of the present invention, a fruit trading method for a seller trading fruit is provided, which includes:

A. providing waxberry, dragon fruit, musa or mango corresponding to order information according to the order information about the waxberry, dragon fruit, musa, or mango acquired from a sales client module; and

B. packaging the waxberry, dragon fruit, guava, banana or mango fruit in a fluid packaging bag.

According to one aspect of the present invention, wherein said step a is preceded by a step a1, the seller uploads the bayberry, dragon fruit, musa, banana, or mango sale information to a sale client module.

According to an aspect of the present invention, wherein said step B is more specifically that the seller delivers the waxberry, dragon fruit, musa, banana or mango in said fluid packaging bag for transportation by a logistics company.

According to one aspect of the invention, wherein step B more specifically distributes the waxberries, dragon fruits, musa, plantains or mangos for all logistics of the fruit trading method.

According to an aspect of the invention, wherein said step B further comprises a step B1 of collecting payment for the seller through said sales client module.

Fig. 124 is a block diagram illustrating the structure of a fruit online shopping system according to a second preferred embodiment of the present invention. As shown in the figure, the online shopping fruit system includes a purchasing client module 810a, a purchasing client module 820a and a cloud platform 830a, the purchasing client module 810a and the purchasing client module 820a are both connected to the cloud platform 830a and perform information transmission through the cloud platform 830a, and the purchasing client module 810a and the purchasing client module 820a perform information exchange with each other wirelessly. The purchasing client module 810a, the purchasing client module 820a and the specific modules inside the cloud platform 830a are the same as the module structure described in the first preferred embodiment, and will not be described in detail here.

The purchase client module 810a includes a sales information processing unit 812a and a sales information interacting unit 813a, and a seller can submit goods information through the sales information processing unit 812a and receive order information, and use the purchase client module 810a and acquire purchase information by the sales information interacting unit 813 a.

The sales processing unit comprises a commodity information uploading module 8122a, an order receiving module 8121a and a first information transmission module 8123a, a seller uploads fruit commodity information through the commodity information uploading module 8122a, the fruit commodity information is used for the buyer to browse and select, and after the buyer selects and submits an order, the order receiving module 8121a receives the order information and reminds the seller of generating a new order for delivery. The first information delivery module 8123a is connected to the sales information interaction unit 813a, the seller sends information to the user through the sales information interaction unit 813a, and the information sent by the seller is delivered to the purchase client module 820a through the first information delivery module 8123 a.

Specifically, in order to realize the display of the sales information, the sales information interacting unit 813a includes a display module 8133a, an order display module 8132a and a first communication module 8131a, where the order display module 8132a is connected to the first communication module 8131a and the order display module 8132a, respectively, the first communication module 8131a provides a message input port for a seller through the display module 8133a, and the order display module 8132a provides a buyer for the seller through the display module 8133 a.

The display module 8133a controls the display interface of the purchasing client module 810a, and typically, a display screen of a mobile device side of the display client is installed as a display interface carrier of the client. The order display module 8132a receives order information submitted by a purchaser, analyzes order information data, converts the order information data into related picture information or voice prompt information, and displays the related picture information or voice prompt information to a seller through the order display module 8132 a.

The first communication module 8131a is used for a seller to communicate with a buyer, the first communication module 8131a receives the input of the information of the mobile device equipped with the display client, specifically, the seller can input messages through the input device of the mobile device mounted on the purchase client module 810a, such as keyboard typing and voice, and the messages are processed by the first communication module 8131a and transmitted to the first information transmission module 8123a of the sales information processing unit 812a, and transmitted to the purchase client module 820a through the first information transmission module 8123a to be sent to the buyer. It is worth mentioning that the first communication module 8131a may also receive information from the official party of the online shopping fruit system, and the seller replies the information through the first communication module 8131 a.

Further, the sales information interacting unit 813a further includes a payment receiving unit 8134a, the payment receiving unit 8134a is connected to the cloud platform 830a, when the purchase client module 820a submits order information, the cloud platform 830a receives the order information and sends the order information to the payment receiving unit 8134a, a merchant can control the price of the order through the payment receiving unit 8134a, the cloud platform 830a transmits the final order information to the purchase client module 820a, after the user determines payment, the payment is transferred to the cloud platform 830a and is sent to the payment receiving unit 8134a after the seller confirms the receipt, and the payment is sent to the sales side for processing, or the payment is directly sent to the payment receiving unit 8134a for processing by the sales side.

The sales information interaction unit 813a further comprises a logistics display module 8223a, and the logistics display module 8223a displays logistics information of the fruit transportation process. Specifically, after receiving the order information, the seller notifies the logistics company of the fact that the related personnel take the part, and the logistics display module 8223a is bound with the logistics company to obtain the logistics information from the logistics company.

The cloud platform 830a includes a storage unit 831a and an information delivery unit 832a, and the information delivery unit 832a receives and delivers purchase information, such as order information, commodity information, etc., to the storage unit 831a for storage. The cloud platform 830a is connected to the purchasing client module 810a and the purchasing client module 820a, respectively. The information delivery unit 832a exchanges information with the purchase client module 810a and the purchase client module 820a, and the storage module unit stores information delivered from the purchase client module 810a and the purchase client module 820a, such as purchase information, e.g., order information, customer information, etc.

Further, the message passing unit 832a includes a message sending module 8321a and a message receiving module 8322 a. The information receiving module 8322a and the information sending module 8321a are respectively connected to the storage unit 831 a. The purchase client module 810a and the purchase client module 820a upload purchase information, such as order information or commodity information, respectively. Further, the storage unit 831a includes a money collection storage module 8312a and a commodity information storage module 8311 a. The money receiving storage module 8312a stores commodity transaction money. The goods information storage module 8311a stores order information and goods information. The purchase client module 820a includes a purchase information processing unit 821a and a purchase information interacting unit 822a, and a purchaser can acquire goods information through the purchase information processing unit 821a and submit order information, and the sale information interacting unit 813a uses the purchase client module 820a and submits purchase information and payment.

The logistics system 840a is used for distribution of the waxberry, dragon fruit, musa, plantain or mango commodities, and specifically comprises arranging distribution modes, notifying distribution personnel and supervising the distribution process of the waxberry, dragon fruit, musa, plantain or mango. In this embodiment, the distribution side is the personnel and the inherent system of the online shopping fruit system.

The logistics system 840a includes a logistics information delivery module 841a, a transportation information receiving module 842a and a logistics distribution module 843a, the logistics information delivery module 841a is connected with the logistics display module 8223a, the transportation information receiving module 842a is connected with the order uploading module 8211a, when a user submits order information through the order uploading module 8211a, and sends related logistics information in the order information to the logistics information receiving module 41a, specifically, the logistics information includes a pickup address and a pickup address, the logistics information delivery module 841a delivers the logistics information to the logistics distribution module 843a, and the logistics distribution module 843a analyzes the logistics information and distributes related distribution personnel and modes according to the related logistics information. The logistics information is transmitted to the logistics display module 8223 in real time in the transportation process, and the related logistics information is displayed through the logistics display module 8223 so that the related commodity logistics information can be obtained.

Further, the purchase information processing unit 821a includes an order uploading module 8211a, a commodity information display module 8212a and a second information transmission module 8213a, where the commodity information display module 8212a and the commodity information uploading module 8122a are wirelessly connected to obtain commodity information uploaded by a merchant, such as bayberry, dragon fruit, bave, banana, or mango information, price varieties, and the like, the order uploading module 8211a is connected to the commodity information display module 8212a of the sales information processing unit 812a, submits a purchase order of a user through the order uploading module 8211a, further the order uploading module 8211a is connected to the cloud platform 830a, directly uploads the purchase order submitted by the user to the cloud platform 830a through the order uploading module 8211a, and further, through the order uploading module 8211a, the purchase order information is provided to the order receiving module 8121 a. The commodity information display module 8212a is connected to the commodity information upload module 8122 a.

Further, the order uploading module 8211a includes an order generating module 82111a and an order transmitting module 82112a, where the order generating module 82111a and the mobile device carried by the purchasing client module 820a form an order submitting interface, a purchaser may input specific order information, such as price, receiving address and other information, to the order submitting interface through an input device on the mobile device, the order information is transmitted to the cloud platform 830a through the order information transmitting module after being generated by the order generating module 82111a, the order information is transmitted to the purchasing client module 810a through the information transmitting module of the cloud platform 830a, and a seller selects goods distribution and sends goods according to the content of the order information after obtaining the order information.

In this embodiment, the seller calls the related personnel of the logistics company such as the courier to take the goods and delivers the goods according to the delivery address provided by the order information, and it is worth mentioning that the package adopted when delivering and delivering the waxberry, dragon fruit, musa, plantain or mango is the inflatable packaging bag device specially proposed by the present invention, so as to achieve the purpose of buffering and protecting the waxberry, dragon fruit, musa, plantain or mango.

The purchase information interacting unit 822a provides an operation channel for a user to use the purchase client module 820a, and further the purchase information interacting unit 822a includes a second communication module 8221a and an information input module 8222a, the second communication module 8221a is connected with the second information transmission module 8213a, and the user inputs information through the second communication module 8221a and transmits the information to the purchase client module 810a through the second information transmission module 8213 a.

The purchase information interaction unit 822a includes a logistics display module 8223a and a payment module 8224a, and the logistics display module 8223a is bound with logistics information provided by a logistics company contacted by a seller to inquire the logistics information of the goods bayberry, dragon fruit, ballet, banana or mango. The payment module 8224a is connected to the receiving amount storage module 8312a of the cloud platform 830a, and when the user makes a payment through the payment module 8224a and transfers a payment amount to the receiving amount storage module 8312a, the purchaser confirms receipt and then pays the purchase amount to the seller. The information input module 8222a is connected to the order upload module 8211a, and a purchaser can input order information such as a self-receiving address, an additional request, and the like through the information input module 8222 a.

According to one aspect of the present invention, there is provided a method for trading waxberry, dragon fruit, musa, plantain or mango through an online fruit purchasing system, comprising:

a. displaying the sales information of the waxberries, the dragon fruits, the musa basjones or the mangoes uploaded from the sales client module;

b. receiving a purchase request from a purchase client module, and generating order information about waxberries, dragon fruits, musa basjones or mangoes;

c. the waxberry, pitaya, guava, plantain or mango are packaged in fluid packaging bags and distributed to the purchaser.

According to one aspect of the invention it is proposed wherein said step c is more specifically the distribution of the waxberry, dragon fruit, musa, plantain or mango by the logistics system of said fruit trading method.

Fig. 75 is a schematic view showing the internal relationship of a fruit online shopping system according to a third preferred embodiment of the present invention. As shown in the figure, the online shopping fruit system includes a purchasing client module 810b, a purchasing client module 820b and a cloud platform 830b, the purchasing client module 810b and the purchasing client module 820b are both connected to the cloud platform 830b and perform information transmission through the cloud platform 830b, and the purchasing client module 810b and the purchasing client module 820b perform information exchange with each other wirelessly. The purchasing client module 810b and the purchasing client module 820b are substantially the same as those of the first preferred embodiment, and both employ the fluid packaging bag to transport buffered fruits, and the fluid packaging bag can be supplied to a seller, a logistics company and a courier, and the fluid packaging bag is carried by the courier for transportation, which is not described in detail herein.

Further, the online shopping fruit system further includes a packaging bag distribution system 850b, the packaging bag distribution system 850b is connected to the purchasing client module 810b, the packaging bag distribution system 850b detects order data and commodity information data of the client 10b, analyzes whether a seller needs the fluid packaging bag used by the online shopping fruit system, and when detecting that there is a related order and calculating a type of the fluid packaging bag corresponding to the waxberry, dragon fruit, ballet, banana or mango sold by the seller, and consults whether the seller needs to purchase and distribute the fluid packaging bag, when the seller puts forward a purchase demand for the fluid packaging bag, the packaging bag distribution system arranges related personnel to distribute the fluid packaging bag.

Fig. 76 is a block diagram illustrating a package bag distribution system of an online fruit purchasing system according to a third preferred embodiment of the present invention. The package bag distribution system 850b includes a detection unit 851b, an analysis unit 852b, and a distribution information processing unit 853b, wherein the detection unit 851b is connected to the distribution information processing unit 853b and the analysis unit 852b, the detection unit 51b detects order information received by the purchase client module 810b and commodity information submitted by the purchase client module 810b and transmits the same to the analysis unit 852b, and the analysis unit 852b analyzes the order information and the commodity information, analyzes and calculates whether the fluid package bag is required and the kind of the fluid package bag, and inquires of a seller whether the fluid package bag needs to be purchased and distributed to the seller side through the distribution information processing unit 853 b.

Further, the delivery information processing unit 853b includes a notification module 8531b that notifies the seller of the necessity of purchase and transmits package information through the package information transmitting module, a package information transmitting module 8532b that is distributed to the delivery address provided by the seller through the package information transmitting module when the seller agrees to the purchase, and a package delivery module 8533 b. And arranging a distribution mode and distribution personnel to the buyer through the packaging bag distribution module.

In this embodiment, the online shopping fruit system may further include a logistics system 840b for distribution of the waxberry, dragon fruit, musa, plantain or mango commodity, specifically including arranging a distribution mode, notifying a distributor and supervising the distribution process of the waxberry, dragon fruit, musa, plantain or mango. In this embodiment, the distribution party is a person belonging to the online fruit purchasing system, and the logistics system 840b is similar to the second preferred embodiment, and will not be described in detail again.

When the logistics system 840b is provided, the fluid packing bag can be dispensed to the hands of the courier by the packing bag dispensing system 850b, and the fluid packing bag can be directly taken to take a delivery when the courier takes the delivery. In this embodiment, the seller calls the related personnel of the logistics company such as the courier to take the goods and delivers the goods according to the delivery address provided by the order information, and it is worth mentioning that the package taken when delivering and delivering the waxberry, dragon fruit, balla, plantain or mango is the fluid packaging bag device specifically proposed by the present invention, so as to achieve the purpose of buffering and protecting the waxberry, dragon fruit, balla, plantain or mango.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (10)

1. An online shopping fruit system, comprising:

the purchasing end module is used for displaying the related information of each fruit and receiving the related information of a fruit purchaser;

a processing module; and

and the supply end module receives the order, so that a fruit supplier can obtain and select a fluid packaging bag to package the fruit according to the order information and then select a transportation end to transport the fruit to the fruit purchaser.

2. The online shopping fruit system according to claim 1, further comprising the fluid packaging bag, wherein the fluid packaging bag comprises at least one fluid buffer formed by at least two layers of fluid storage films, wherein the fluid buffer comprises at least one fluid storage unit capable of storing fluid, wherein the fluid buffer is bent and molded to form a containing cavity with at least one opening for containing the fruit.

3. The online shopping fruit system as claimed in claim 2, wherein the fluid packaging bag has at least one air hole communicating the accommodating cavity and the external environment and at least one hole sealing seam, wherein the air hole is located in the hole sealing seam, and the hole sealing seam is connected with the at least two layers of fluid storage films in a plastic sealing manner.

4. The on-line fruit shopping system of claim 3, further comprising a transportation end module, wherein the transportation module provides information about transportation ends to the supply end module for the fruit supplier to select an appropriate transportation end.

5. The online shopping fruit system according to claim 3, wherein the purchasing module comprises a purchasing end interaction module, an information receiving module and a payment module, wherein the purchasing end interaction module displays the fruit-related information, and in response to an operation instruction, the information receiving module receives the fruit-purchaser-related information and the fruit-related information, and pops up a payment interface, and the payment-related information of the fruit purchaser is determined through the payment module to complete the transaction.

6. The online shopping fruit system according to claim 3, wherein the processing module comprises an order generating module and a transmission module, and after the payment is completed, the order generating module generates the order and the transmission module transmits the order to the supplier module.

7. An online shopping fruit system, comprising:

the purchasing end system is used for displaying the related information of each fruit and receiving the related information of a fruit purchaser;

a processing module; and

and the transportation end module receives the order, so that a transportation end selects a fruit supplier to obtain the fruit according to the order information, selects the fruit with a fluid packaging bag to package the fruit and transports the fruit to the fruit purchaser.

8. The online shopping fruit system according to claim 7, wherein the fluid packaging bag comprises at least one fluid buffer formed by at least two fluid storage films, wherein the fluid buffer comprises at least one fluid storage unit capable of storing fluid, and wherein the fluid buffer is bent and molded to form a containing cavity with at least one opening for containing the fruit.

9. The online shopping fruit system as claimed in claim 8, wherein the fluid packaging bag has at least one air hole communicating the accommodating cavity and the external environment and at least one hole sealing seam, wherein the air hole is located in the hole sealing seam, and the hole sealing seam is connected with the at least two layers of fluid storage films in a plastic sealing manner.

10. The transportation method of the online shopping fruits is characterized by comprising the following steps:

A. displaying the related information of each fruit for a fruit purchaser to select and purchase the fruit;

B. receiving the fruit purchaser related information;

C. generating an order according to the relevant information of the fruit purchaser; and

D. and sending the order to a supply end module so that a fruit supplier can obtain the fruit according to the order information, select a fluid packaging bag to package the fruit, and select a transportation end to transport the fruit to the fruit purchaser.

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