CN110533363A

CN110533363A - Circulation information processing method, device, server and its information processing system of commodity

Info

Publication number: CN110533363A
Application number: CN201910702654.1A
Authority: CN
Inventors: 李文华
Original assignee: Shenzhen Zhengpin Chuangxiang Technology Co Ltd
Current assignee: Shenzhen Zhengpin Chuangxiang Technology Co Ltd
Priority date: 2019-07-31
Filing date: 2019-07-31
Publication date: 2019-12-03
Also published as: WO2021017224A1

Abstract

The present invention relates to Internet technical fields, disclose information processing method, device, server and its information processing system of a kind of commodity circulation.The circulation information processing method of commodity includes: to obtain sell goods information and the merchandise inventory information of smart machine, according to information and the merchandise inventory information of selling goods, determine procurement of commodities information, according to intelligent storage algorithm, intelligence handling algorithm and the procurement of commodities information, the circulation information sold goods is handled.Circulation information processing method provided by the invention not only realizes intelligent management warehouse logistics information, platform information of selling goods, unmanned distribution information and goods entry, stock and sales information, but also docks reward on total mark system and promote commodity using reward on total mark.

Description

Commodity circulation information processing method, commodity circulation information processing device, server and information processing system

Technical Field

The invention relates to the technical field of internet, in particular to a commodity circulation information processing method, a commodity circulation information processing device, a commodity circulation information processing server and an information processing system.

Background

The circulation of various commodity information is accelerated by the development of the internet technology, for example, people can sell commodities in unmanned sales cabinets in any suitable position, commodity order information can be remotely transmitted back to a background server, for example, people can track commodity logistics information on line and know the logistics state of commodities at any time and any place.

In the process of implementing the invention, the inventor finds that the traditional technology has at least the following problems, and the efficiency of the existing commodities in the aspects of storage, distribution and the like is low.

Disclosure of Invention

An object of an embodiment of the present invention is to provide a method, an apparatus, a server, and an information processing system for commodity circulation, which can improve commodity circulation efficiency.

In order to solve the above technical problems, embodiments of the present invention provide the following technical solutions:

in a first aspect, an embodiment of the present invention provides a method for processing circulation information of a commodity, which is applied to a server, and the method includes:

acquiring vending information and commodity inventory information of the intelligent equipment;

determining commodity purchasing information according to the selling information and the commodity inventory information;

and processing the circulation information of the sold commodities according to the commodity purchasing information, the intelligent warehousing algorithm or the intelligent distribution algorithm.

Optionally, the circulation information includes logistics loading and unloading information, and the circulation information of the sold goods is processed according to the goods purchasing information and the intelligent distribution algorithm, including:

and obtaining the optimal logistics loading and unloading information of the sold commodities in the warehouse according to the commodity purchasing information and the intelligent distribution algorithm.

Optionally, the circulation information further includes distribution path information, and the circulation information of the sold goods is processed according to the goods purchase information and the intelligent distribution algorithm, including:

and obtaining the optimal distribution path information of the sold commodities according to the commodity purchasing information and an intelligent distribution algorithm.

Optionally, the circulation information includes warehousing location information, and the circulation information of the sold goods is processed according to the goods purchasing information and the intelligent warehousing algorithm, including:

and obtaining the optimal storage position information of the sold commodities in the warehouse according to the commodity purchasing information and the intelligent storage algorithm.

Optionally, the method further comprises: obtaining historical sales information or predicted sales information of the sold commodities;

then: obtaining the optimal storage position information of the sold commodities in the warehouse according to the commodity purchasing information and the intelligent storage algorithm, and the method comprises the following steps:

obtaining the optimal storage position information of the sold commodities in the warehouse according to the commodity purchase information, the intelligent storage algorithm and the historical sales information; or,

and obtaining the optimal storage position information of the sold commodities in the warehouse according to the commodity purchase information, the intelligent storage algorithm and the predicted sales volume information.

Optionally, the commodity purchasing information includes specification information and order placing quantity of the sold commodity, and the method further includes:

and generating logistics packaging information according to the specification information and the order placing quantity, wherein the logistics packaging information is used for indicating and packaging the sold commodities.

Optionally, the warehouse comprises a warehouse or a shop or a storage area of a smart vending apparatus or a logistics vehicle.

Optionally, the warehouse includes a supply chain brand cabin or a central cabin or a front cabin or an intelligent micro cabin or an intelligent cabinet cabin, and the purchase, sale and storage information of any two or more of the supply chain brand cabin, the central cabin, the front cabin and the micro cabin are communicated with each other to realize allocation of goods.

Optionally, the circulation information further includes warehouse scheduling information, and the circulation information of the sold commodities is processed according to the commodity purchasing information and the intelligent warehousing algorithm, including:

and obtaining the optimal warehouse scheduling information of the sold commodities according to the commodity purchasing information and the intelligent warehousing algorithm.

Optionally, the method further comprises:

determining point information corresponding to the vending information;

and generating the network currency according to the point information.

Optionally, the vending information is sent by a merchant settlement terminal; or,

the vending information is sent by the vending mobile terminal.

Optionally, the method further comprises:

generating reward information according to the point information;

and controlling the intelligent vending equipment to display an award page according to the award information, wherein the award page comprises award activity content.

Optionally, the warehouse is provided with a plurality of rows of storage racks and mechanical arms, each row of storage racks is provided with a plurality of stacked storage positions, and the method further includes:

sending a sorting instruction to the mechanical arm so that the mechanical arm determines a target bin according to the sorting instruction;

and controlling the mechanical arm to move to the target bin position for sorting the goods.

Optionally, the method further comprises:

and sending a delivery instruction to a delivery terminal so that delivery personnel can transfer goods between any two or more bins according to the delivery instruction.

Optionally, the method further comprises:

and sending a cargo transportation information instruction to the unmanned transportation equipment so that the unmanned transportation equipment can load and unload cargos according to the cargo transportation information instruction and the arrival at the target position.

Optionally, the cargo transportation information instruction includes target position information and target cargo image information, and sends the cargo transportation information instruction to the unmanned transportation device, so that the unmanned transportation device loads and unloads the cargo at the target position according to the cargo transportation information instruction, including:

and sending a cargo transportation information instruction to the unmanned transportation equipment so that the unmanned transportation equipment can reach a target position according to the target position information, and selecting the target cargo corresponding to the target cargo image information for loading and unloading.

Optionally, the target location is provided with a wireless charging device, and the method further includes:

sending a navigation positioning instruction to the unmanned transportation equipment so that the unmanned transportation equipment can arrive at the wireless charging equipment according to the navigation positioning instruction;

and sending a wireless charging instruction to the wireless charging equipment so that the wireless charging equipment wirelessly charges the unmanned transportation equipment.

Optionally, the unmanned transport device comprises an unmanned aerial vehicle and/or an unmanned vehicle.

Optionally, the method further comprises:

and updating the purchase, sale and stock information synchronously according to the vending information and the commodity inventory information.

Optionally, the method further comprises:

and sending commodity promotion information to the intelligent equipment.

In a second aspect, an embodiment of the present invention provides a commodity circulation information processing apparatus, applied to a server, the apparatus including:

the information acquisition module is used for acquiring selling information and commodity stock information of the intelligent equipment;

the purchasing information determining module is used for determining commodity purchasing information according to the selling information and the commodity inventory information;

and the circulation information processing module is used for processing the circulation information of the sold commodities according to the commodity purchasing information, the intelligent warehousing algorithm or the intelligent distribution algorithm.

Optionally, the circulation information includes logistics handling information, and the circulation information processing module is specifically configured to:

Optionally, the circulation information further includes distribution path information, and the circulation information processing module is specifically configured to:

Optionally, the circulation information includes warehousing location information, and the circulation information processing module is specifically configured to:

Optionally, the apparatus further comprises: the selling information determining module is used for acquiring historical selling amount information or predicted selling amount information of the sold commodities;

then: the circulation information processing module is specifically configured to:

Optionally, the commodity purchasing information includes specification information and order placing quantity of the sold commodity, and the apparatus further includes: and the packaging module is used for generating logistics packaging information according to the specification information and the order placing quantity, and the logistics packaging information is used for indicating and packaging the sold commodities.

Optionally, the warehouse includes a supply chain brand cabin or a central cabin or a front cabin or an intelligent micro cabin or an intelligent cabinet cabin, and the purchase, sale and storage information of any two or more of the supply chain brand cabin, the central cabin, the front cabin and the micro cabin are communicated with each other to realize the allocation of goods.

Optionally, the circulation information further includes warehouse scheduling information, and the circulation information processing module is specifically configured to: and obtaining the optimal warehouse scheduling information of the sold commodities according to the commodity purchasing information and the intelligent warehousing algorithm.

Optionally, the apparatus further comprises:

the point determining module is used for determining point information corresponding to the vending information;

and the currency generation module is used for generating the network currency according to the point information.

the vending information is sent by the vending mobile terminal.

Optionally, the apparatus further comprises:

the reward information generating module is used for generating reward information according to the point information;

and the reward page display module is used for controlling the intelligent vending equipment to display a reward page according to the reward information, and the reward page comprises reward activity content.

Optionally, the warehouse is provided with a plurality of rows of storage racks and mechanical arms, each row of storage racks is provided with a plurality of stacked storage positions, and the mechanical arms are used for sorting goods from the target storage positions. The device further comprises: the sorting module is used for sending a sorting instruction to the mechanical arm so that the mechanical arm can determine a target bin according to the sorting instruction; and the control module is used for controlling the mechanical arm to move to the target bin for sorting the goods.

Optionally, the apparatus further comprises:

and the delivery sending module is used for sending a delivery instruction to the delivery terminal so that delivery personnel can transfer and dial the goods between any two or more bins according to the delivery instruction.

Optionally, the apparatus further comprises:

and the unmanned instruction sending module is used for sending the cargo transportation information instruction to the unmanned transportation equipment so that the unmanned transportation equipment can load and unload the cargo according to the cargo transportation information instruction when arriving at the target position.

Optionally, the cargo transportation information instruction includes target position information and target cargo image information, and the unmanned instruction sending module is specifically configured to:

Optionally, the target location is provided with a wireless charging device, and the apparatus further includes:

the navigation module is used for sending a navigation positioning instruction to the unmanned transportation equipment so that the unmanned transportation equipment can reach the wireless charging equipment according to the navigation positioning instruction;

and the wireless charging module is used for sending a wireless charging instruction to the wireless charging equipment so as to enable the wireless charging equipment to wirelessly charge the unmanned transportation equipment.

Optionally, the apparatus further comprises:

and the purchase, sale and stock management module is used for synchronously updating the purchase, sale and stock information according to the vending information and the commodity stock information.

Optionally, the apparatus further comprises:

and the commodity promotion module is used for sending commodity promotion information to the intelligent equipment.

In a third aspect, an embodiment of the present invention provides a server, including:

at least one processor; and

a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to perform a method of processing distribution information for any of the articles of commerce.

In a fourth aspect, an embodiment of the present invention provides a system for processing flow information of a commodity, including: the intelligent device is used for selling commodities and/or settling commodities.

In the above embodiments, the selling information and the commodity inventory information of the smart device are acquired, the commodity purchasing information is determined according to the selling information and the commodity inventory information, and the circulation information of the sold commodity is processed according to the commodity purchasing information, the smart storage algorithm or the smart distribution algorithm. Therefore, the method can improve the storage efficiency or the logistics efficiency.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

FIG. 1 is a schematic diagram of a system for processing circulation information of a commodity according to an embodiment of the present invention;

FIG. 2a is a schematic structural diagram of a logistics system provided by an embodiment of the invention;

FIG. 2b is a schematic view of a portion of the warehousing system of FIG. 2 a;

FIG. 3 is a schematic diagram of a warehouse according to an embodiment of the present invention;

FIG. 4a is a schematic structural diagram of a purchase-sale-inventory system according to an embodiment of the present invention;

fig. 4b is a schematic structural diagram of a consumer score system interfacing with each system according to an embodiment of the present invention;

fig. 5a is a schematic flow chart of a method for processing circulation information of a commodity according to an embodiment of the present invention;

FIG. 5b is a flowchart illustrating a method for processing circulation information of a commodity according to an embodiment of the present invention;

FIG. 5c is a flowchart illustrating a method for processing circulation information of a commodity according to yet another embodiment of the present invention;

FIG. 5d is a flowchart illustrating a method for processing circulation information of a commodity according to yet another embodiment of the present invention;

fig. 5e is a schematic structural diagram of an automatic warehouse for warehousing goods according to an embodiment of the present invention;

FIG. 5f is a schematic view of a storage rack and robotic arm according to an embodiment of the present invention;

FIG. 5g is a flowchart illustrating a method for processing circulation information of a commodity according to yet another embodiment of the present invention;

FIG. 6a is a schematic structural diagram of a commodity circulation information processing device according to an embodiment of the present invention;

FIG. 6b is a schematic structural diagram of a merchandise circulation information processing device according to still another embodiment of the present invention;

FIG. 6c is a schematic structural diagram of a merchandise circulation information processing device according to yet another embodiment of the present invention;

FIG. 6d is a schematic structural diagram of a merchandise circulation information processing apparatus according to still another embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a merchandise circulation information processing device according to still another embodiment of the present invention;

fig. 8 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The commodity circulation information processing method provided by the embodiment of the invention can be executed in any suitable type of electronic equipment with computing capability, such as a server, a desktop computer, a smart phone, a tablet computer and other electronic products. The server may be a physical server or a logical server formed by virtualizing a plurality of physical servers. The server may also be a server cluster formed by a plurality of servers capable of communicating with each other, and each functional module may be respectively distributed on each server in the server cluster.

The commodity circulation information processing device according to the embodiment of the present invention may be provided independently in the electronic device as a software system, or may be one of the functional modules integrated in the processor to execute the commodity circulation information processing method according to the embodiment of the present invention.

The method for processing the circulation information of the commodities can be applied to any one of a commodity circulation link, a commodity sales link and a commodity settlement link, namely, the method for processing the circulation information of the commodities can run through all value links in the commodities from the commodity circulation link, the commodity sales link to the commodity settlement link and then to a consumer, so that the value release of one commodity is completed.

The commodity circulation information processing method of the embodiment of the invention can settle accounts for commodities in any suitable mode. Each commodity settlement link comprises an order input link and a settlement link, and when a user sells commodities, the system generates order information of the sold commodities. Next, the system settles the purchased goods according to the settlement method selected by the user.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a system for processing circulation information of a commodity according to an embodiment of the present invention. As shown in fig. 1, the distribution information processing system 100 includes an intelligent device 11 and a server 12, and the server 12 communicates with the intelligent device 11. The communication mode comprises a wireless communication mode and a wired communication mode, and the wireless communication mode comprises 5G communication, 4G communication, 3G communication, 2G communication, CDMA, Zig-Bee, Bluetooth (Bluetooth), wireless broadband (Wi-Fi), Ultra Wide Band (UWB) and Near Field Communication (NFC), CDMA2000, GSM, Infrared (IR), ISM, RFID, UMTS/3GPPw/HSDPA, WiMAXwi-Fi, ZigBee and the like. Wired communication includes various types of information transmission using tangible media such as metal wires, optical fibers, and the like.

Under different service scenes, the intelligent device 11 can realize different service interactions with the commodity, wherein the commodity is provided with a commodity identification code or a traceability code, the commodity identification code is used for identifying the commodity, such as a bar code and the like, and the traceability code is used for acquiring anti-counterfeiting traceability information of the commodity.

When the consumer sells the commodity at the merchant, the intelligent device 11 can upload the commodity information to the server 12, and the server 12 performs big data analysis according to the commodity information so as to realize accurate marketing of the commodity.

In some embodiments, the items may be sold in stores of any suitable business model, and the items may be any suitable type of product.

For example, the store may be an intelligent unmanned store, an intelligent cabinet, a window intelligent store, an anti-counterfeiting traceable brand special store, a micro-warehouse, a retail micro-warehouse, and so forth. The shop window intelligent shop is a shop integrating vending equipment similar to the shop window structure, wherein the vending equipment of the shop window structure can be placed in the shop in a single row mode, can also be placed in the shop in a double row mode, and can also be placed outside the shop.

In some embodiments, the intelligent settlement device, the intelligent sales counter or the intelligent micro-warehouse provided by the embodiments of the present invention can be applied to any suitable business scenario, and combine various business states to form a new business state, in which it can implement various types of efficient processing of commodity settlement, cross-shipment prevention, anti-counterfeiting traceability, commodity recommendation, point or billing information, and the like.

For example, the new business model includes a delicatessen social store, the delicatessen social store includes a delicatessen area and a social reception area, the delicatessen area is used for selling delicatessens, the delicatessen area supports any one of the commodity entry methods and the settlement methods described in the above embodiments, and the user purchases delicatessens from the delicatessen area in any one of the above methods and completes payment. Then, the delicatessen area pushes out the delicatessen to the user. The social reception area provides a seat, and a user can complete diet and various social activities in the social reception area.

In some embodiments, the delicatessen social store further comprises an intelligent micro-warehouse, the intelligent micro-warehouse is arranged above the delicatessen social store, the intelligent micro-warehouse supports any commodity entry mode and settlement mode described in the above embodiments, and a user purchases delicatessens from a delicatessen area or purchases commodities from the intelligent micro-warehouse in any mode and completes payment.

For example, the new business model includes a dumpling social store, the dumpling social store includes a dumpling sub-area and a social reception area, the dumpling area is used for selling dumplings, the dumpling area supports any commodity entry method and any settlement method described in the above embodiments, and the user purchases dumplings from the dumpling area in any method and completes payment. The dumpling zone then pushes the dumplings out to the user. The social reception area provides a seat, and a user can complete diet and various social activities in the social reception area.

In some embodiments, the dumpling social store further comprises an intelligent micro-warehouse, the intelligent micro-warehouse is arranged above the dumpling social store, the intelligent micro-warehouse supports any commodity entry mode and settlement mode described in the above embodiments, and a user purchases dumplings from a dumpling area or purchases commodities from the intelligent micro-warehouse in any mode and completes payment.

In some embodiments, the intelligent devices 11 include intelligent settlement devices, intelligent sales containers, and intelligent micro-silos. The smart device 11 may be located at any suitable point of sale location, such as an open-air mall, a supermarket, a convenience store, and the like. When the commodity is purchased, the user can settle accounts for the commodity on the intelligent settlement device by self.

In some embodiments, the servers 12 may be defined by business types, each of which may perform a corresponding business logic, for example, the servers 12 include a points server 121, a telecommunications server 122, a financial server 123, an airline server 124, and a brand sales server 125.

The point server 121 is used for completing the processing of business logic of commodity sales, circulation, promotion, points and the like, and the point server 121 can be respectively connected to the telecommunication server 122, the financial server 123, the aviation server 124 and the brand sales server 125 to perform corresponding business operations according to data transmitted by various servers.

The telecommunication server 122 is a server provided by a telecommunication service provider, which can provide various telecommunication data of the user to the points server 121, and the points server 121 cooperates with the telecommunication server 122 to complete the consumption of points with the telecommunication service provider.

The financial server 123 is a server provided by a financial facilitator, which can provide various financial data of the user to the point server 121, and the point server 121 cooperates with the financial server 123 to perform point consumption with the financial facilitator.

The aviation server 124 is a server provided by an aviation service provider, which can provide various aviation data of the user to the points server 121, and the points server 121 cooperates with the aviation server 124 to complete point consumption with the aviation service provider.

The brand selling server 125 is a server provided by a brand service provider, which can provide various kinds of brand selling data of the user to the point server 121, and the point server 121 cooperates with the brand selling server 125 to complete point consumption with the brand service provider.

In some embodiments, after the user places an order, the server starts the logistics system according to the order information, and the commodities are dispatched from the target warehouse or purchased and stored in the target warehouse.

Referring to fig. 2a and fig. 2b together, fig. 2a is a schematic structural diagram of a logistics system according to an embodiment of the present invention, and fig. 2b is a schematic dependent diagram of each warehousing system in fig. 2 a. As shown in fig. 2a and 2b, the logistics system includes a supply chain brand warehousing system 21, a central warehousing system 22, a front-end warehousing system 23, a micro-warehousing system 24, a retail micro-warehousing system 25, and an intelligent cabinet warehousing system 26, and the warehousing systems communicate with each other and can schedule converted goods.

The supply chain brand warehousing system 21 is used for warehousing goods operated by supply chain brand merchants, the supply chain brand merchants sell genuine goods, and the supply chain brand warehousing system 21 can perform anti-counterfeiting traceability and purchase-sale-stock management on the goods when the genuine goods are warehoused in the supply chain brand warehousing system 21.

When a merchant needs to buy the genuine goods, the supply chain brand merchants can dispatch the goods from the supply chain brand warehousing system 21 and directly sell the goods to the merchant.

The central warehousing system 22 is used as a general warehouse of each sub-warehouse, and is used for warehousing goods which can be distributed to each sub-warehouse later, and of course, the goods warehoused by the central warehousing system 22 can also be supplied to peripheral merchants or consumers.

In this embodiment, the goods of the supply chain brand warehousing system 21 may be dispatched to the central warehousing system 22 for storage.

When the next sub-warehouse needs to dispatch the goods, the sub-warehouse sends a dispatching instruction to the central warehousing system 22, and the central warehousing system 22 dispatches the goods to the sub-warehouse according to the dispatching instruction.

Through setting up central warehouse system 22, it is favorable to improving the flexibility that the goods was transferred to can radiate peripheral sub-storehouse, improve logistics efficiency, avoid traditional technique to the total storehouse dispatch goods of long distance to cause the problem such as logistics inefficiency to appear.

The front-end stocker system 23 serves as a stocker for the goods delivered from the stocker system 22, or the goods may be transported to the stocker system 22. The front-end warehousing system 23 can also be used as a main warehouse of each subordinated sub-warehouse to dispatch goods to each subordinated sub-warehouse.

By providing the front loading system 23, it is possible to relatively improve the logistics efficiency of goods provided in large quantities and at relatively long distances from the point of sale.

The micro-warehousing system 24 can be used as the next sub-warehouse of the front-end warehousing system 23 for warehousing goods. In some embodiments, micro-warehousing system 24 may both warehouse goods and interface with consumers or merchants to sell goods.

It will be appreciated that the micro-warehousing system 24 may also serve as a general warehouse for the subordinate sub-warehouses.

The retail micro-warehouse system 25 may be used as a next level sub-warehouse of the micro-warehouse system 24 for warehousing goods. In some embodiments, the retail micro-warehouse system 25 may both warehouse goods and interface with consumers or merchants to sell goods.

In this embodiment, the rider may switch the stored goods between the micro-warehouse system 24 and the retail micro-warehouse system 25 to complete the dispatch of the goods.

The intelligent cabinet warehousing system 26 can be used as the next level sub-warehouse of the retail micro-warehouse system 25 for warehousing goods. In some embodiments, the smart bin warehousing system 26 can both warehouse goods and interface with consumers or merchants to sell goods.

In this embodiment, the rider may switch the stored goods between any two of the smart cabinet warehousing system 26, the micro-warehousing system 24, and the retail micro-warehouse system 25 to accomplish the scheduling of the goods.

In some embodiments, each of the supply chain brand warehousing systems 21, the central warehousing system 22, the front-end warehousing system 23, the micro-warehousing system 24, the retail micro-warehousing system 25 and the intelligent cabinet warehousing system 26 is configured with a data storage device, a wireless communication device, a user interaction device and a monitoring device.

The data storage device is used for recording the information of the goods stored in the corresponding storage system. The wireless communication device is used for communicating with an external warehousing system or equipment so as to finish cargo scheduling, monitoring and management. And the user interaction device is used for forming interaction with an administrator or a consumer and implementing operation according to the interaction instruction. The monitoring device is used for monitoring the environmental information of the warehousing system.

In some embodiments, the central warehousing system 22, the front-end warehousing system 23, the micro-warehousing system 24, the retail micro-warehousing system 25, and the smart cabinet warehousing system 26 may be divided in an administrative level manner, for example, the central warehousing system 22 may be disposed in a downtown area, the front-end warehousing system 23 may be disposed in an area, the micro-warehousing system 24 may be disposed in a street office, the retail micro-warehousing system 25 may be disposed in a community, and the smart cabinet warehousing system 26 may be disposed in various office places, such as an office building, a hotel, a factory, a community, and so on.

In some embodiments, any of the supply chain brand warehousing systems 21, the central warehousing system 22, the front-end warehousing system 23, and the micro-warehousing system 24 may be selected from any suitable warehousing layout, for example, please refer to fig. 3, which is a schematic diagram of a warehouse provided by the embodiment of the present invention. As shown in fig. 3, the warehouse includes a receiving pallet area 31, a class a storage area 32, a class BC storage area 33, a class D storage area 34, a transfer area 35, a picking collection area 36, and a delivery area 37.

The receiving code disc area 31 is used for warehousing the goods to be warehoused in the warehouse, such as sorting, labeling, entering goods information and the like.

The first truck 311 is placed at the entrance of the receiving pallet area 31, and the first truck 311 is used for transporting goods from an external storage system to the warehouse, wherein the goods are unloaded from the receiving pallet area 31, and the goods are stored in the warehouse after being unloaded from the first truck 311 by unloading personnel and processed by the receiving pallet area 31.

The class a storage area 32 is used for storing commodities with corresponding volume specifications or specified types, and the class a storage area 32 is provided with a plurality of rows of shelves at preset intervals, and each shelf can be a single layer or a plurality of layers. Goods shelves are used for depositing the goods, are formed with the tunnel between the two rows of goods shelves of per adjacent, and the tunnel can supply operating personnel or robot or operating personnel to drive fork truck and go to get on the goods shelves that correspond and put the goods.

The BC class stocker 33 may store the same commodities as the class a stocker 32, or may store commodities different from the class a stocker 32, and in the same manner, the BC class stocker 33 and the class a stocker 32 are provided with a plurality of rows of shelves.

The class D storage area 34 is also used for storing commodities, however, the specification and the like of the commodities stored in the class D storage area 34 are different from those of the class a storage area 32 or the class BC storage area 33, for example, the class a storage area 32 and the class BC storage area 33 store the commodities of a box-like type, and the class D storage area 34 stores the commodities of a strip-like type.

The conveying area 35 is used for transporting goods from the storage areas to the goods picking area 36, and the goods transported from the conveying area are sorted by the sorting personnel in the goods picking area 36.

Wherein the conveying area 35 comprises a conveying mechanism and a conveyor belt 351, wherein the conveyor belt 351 is provided with a number of sorting mouths 352, each sorting mouth 352 being equipped with a corresponding sorting staff.

The transmission belt 351 is arranged on the side plate in the warehouse, the commodities can be placed on the transmission belt 351, the transmission mechanism drives the transmission belt 351 to roll, the transmission belt 351 can carry the commodities to be transmitted to the corresponding sorting opening 352, and then sorting personnel can sort the commodities in the sorting opening 352.

The picking area 36 is used to collect the sorted goods together for further sorting.

The delivery area 37 is used for checking and accepting the sorted goods, and after checking, the goods are loaded to the truck. Wherein, the outlet of the delivery area 37 is provided with a plurality of second trucks 371, and the second trucks 371 are used for loading and transporting goods to the destination.

In some embodiments, to facilitate management of various types of purchase, sales, and inventory information, embodiments of the present invention provide a purchase, sales, and inventory system, wherein, the purchase, sale and storage system can manage the purchase, sale and storage information of the goods, and the purchase, sale and storage system can acquire the purchase, sale and storage information of the goods, can judge whether each area or each merchant has goods mixing or counterfeit goods for sale, can also generate supply information of a specific area or a specific merchant according to the purchase, sale and stock information, and then transfers goods according to the supply information, alternatively, the marketing information may be generated according to the purchase, sale and inventory information, for example, the purchase, sale and inventory system determines that the goods in the store a are in the phenomenon of sale delay according to the purchase, sale and inventory information of the goods in the store a, according to the purchase-sale-inventory information of the goods in the store B, the goods in the store B are judged to be sold successfully, and then the purchase-sale-inventory system can transfer the goods in the store A to the store B for selling.

Referring to fig. 4a, the purchase, sale, and inventory system 41 includes a provincial purchase, sale, and inventory platform, a city purchase, sale, and inventory platform, a district purchase, sale, and inventory platform, wherein the city purchase, sale, and inventory platform is under the management of the provincial purchase, sale, and inventory platform, and the provincial purchase, sale, and inventory platform has management authority, and randomly retrieves the first-level data from the city purchase, sale, and inventory platform, and the retrieved first-level data includes: merchant data, commodity production data, commodity sales total data, commodity sales unit price data, merchant operation licenses, warehousing data, logistics transportation data and the like. Moreover, the provincial-level purchase, sale and inventory platform can also issue various management instructions to the city-level purchase, sale and inventory platform, for example, a price regulation and control instruction.

In some embodiments, the provincial-level purchase-sale-inventory platform is configured as a similar central management platform with a plan deployment department responsible for processing sales information, commodity inventory information, and commodity monopoly information.

The market-level purchase, sale and inventory platform stores various commodity data uploaded by the lower-level purchase, sale and inventory platform and planned commodity data. The market-level purchase, sale and inventory platform realizes accurate marketing according to various commodity data and the commodity data of planning, and the market-level purchase, sale and inventory platform has the management authority, retrieves second level data from district level purchase, sale and inventory platform wantonly, and the second level data of retrieving include: merchant operation licenses, commodity sales data, commodity sales total data, commodity sales unit price data, and the like.

In some embodiments, the market-level sales and inventory platform is configured as a similar labor-saving platform with a planning and deployment department responsible for sales information and inventory information of goods.

The district-level purchase, sales and inventory platform stores various commodity data, warehousing data, merchant operation licenses, logistics transportation data and the like uploaded by the lower-level purchase, sales and inventory platform, wherein the logistics transportation data comprise logistics vehicle positioning data or real-time video logistics data. The district-level purchase-sale-storage platform has management authority, and third-level data is randomly called from the district-level purchase-sale-storage platform.

In some embodiments, the district-level purchase-sales platform, functioning as a similar provincial business company or a local business company, is responsible for planning deployment departments, sales information, merchandise inventory information, and merchandise monopoly information.

The block-level purchase, sale and inventory platform stores fourth-level data, wherein the fourth-level data comprises sales volume data of various commodities, commodity sale total data, merchant operation licenses, commodity sale unit price data, warehousing data and the like. And the block-level purchase-sale-storage platform uploads various data to the block-level purchase-sale-storage platform.

In some embodiments, the block-level purchase-sale-inventory platform is used as a block business company and is responsible for license management departments, commodity monopoly information and commodity sales information.

In some embodiments, the number of provincial, urban, district, and neighborhood level inventory and purchase platforms may be multiple. The purchase, sales and inventory platforms at the same level cannot directly access the data of the other side, and the purchase, sales and inventory platforms at the same level can acquire the data of the other side under the monitoring of the purchase, sales and inventory platforms at the upper level.

Through the mode, the purchase, sale and storage platforms can be vertically managed, various data corresponding to the purchase, sale and storage platforms are acquired through management authority, and therefore omnibearing monitoring, management, accurate sale and the like are achieved.

In some embodiments, referring to fig. 4b, the consumption point system 42 interfaces with a settlement system 43, a lottery system 44, a telecommunication point system 45, a financial point system 46, an aviation point system 47, and a brand sale point system 48.

Wherein the settlement system 43 is used for settling the consumption amount of the consumer, thereby generating settlement information. In this embodiment, the settlement system 43 may interface with the purchase, sale, and inventory system 41, and the purchase, sale, and inventory system 41 may perform purchase, sale, and inventory management based on the settlement information.

In some embodiments, settlement system 43 may choose to implement settlement in any one of a number of ways, such as by scanning a code, etc.

The consumption point system 42 converts the amount of money consumed by the user or the product into a point in a certain ratio based on the settlement information.

The lottery system 43 is used for presenting lottery information, in this embodiment, the consumption scoring system 42 and the lottery system 43 perform a scoring consumption process to purchase lottery corresponding to the score from the lottery system 43, so that the lottery system 43 can present lottery to the intelligent cabinet in the consumption scoring system 42, on one hand, when the lottery system 43 opens the lottery, it can scrape the lottery on the screen of the intelligent cabinet, or remotely control a robot to scrape the lottery, or scan the lottery to open the lottery, and so on.

The telecommunication scoring system 45 and the consumption scoring system 42 perform the scoring consumption process, and the user can use the scores obtained by the consumption scoring system to consume the commodities in the telecommunication scoring system 45.

The financial point system 46 and the consumption point system 42 perform point consumption processing, and points obtained by the user in the consumption point system can be used to consume goods in the financial point system 46.

The aviation score system 47 and the consumption score system 42 perform the score consumption processing, and the user can use the scores obtained by the consumption score system to consume the commodities in the aviation score system 47.

The brand sales integration system 48 and the consumption integration system 42 perform integration consumption processing, and the integration obtained by the user in the consumption integration system can be used to consume the commodity in the brand sales integration system 48.

Therefore, in this embodiment, the consumption integral system 42 may interface multiple integral systems, and integral consumption processing may be performed between the two, so that the versatility of the integral is improved, and the user experience is improved.

Referring to fig. 5a, fig. 5a is a schematic flow chart of a method for processing circulation information of a commodity according to an embodiment of the present invention. As shown in fig. 5a, the method S500 for processing distribution information of commodities includes:

s51, acquiring selling information and commodity stock information of the intelligent equipment;

in this embodiment, the vending information includes ordering information of ordering from the system by the user, wherein the user includes a merchant or a consumer, that is, the merchant can directly order the system for purchasing the goods, and the system delivers the goods to the merchant. The consumer can order the purchase directly to the system, which delivers the goods to the consumer.

The ordering information includes commodity information of the user purchasing or purchasing the commodity, that is, for the system, the ordering information includes commodity information of the commodity to be sold. The goods information includes a name of the goods sold, a purchase amount, a specification, a model, consignee information, and the like.

The commodity inventory information is inventory information of the sold commodity in the warehouse, for example, the sold commodity is mineral water a, and 60 boxes of mineral water a are left in the warehouse.

In this embodiment, stock information for selling each type of merchandise is recorded in the system, for example, 100 boxes of mineral water a are originally stored in the warehouse, and when selling 40 boxes of mineral water a this time, the administrator records "mineral water a has 60 boxes left in the warehouse" on the system, or the system automatically records "mineral water a has 60 boxes left in the warehouse" without the administrator's participation.

In this embodiment, the merchant sends the vending information to the system through a merchant system docked with the system, or the consumer sends the vending information to the system through a mobile phone or a user interaction device provided by the system, so that the system can acquire the vending information. As the vending information carries the item information, the system then traverses from the database the item inventory information corresponding to the item information, e.g., the item information carries the item name, and the system traverses from the database the item inventory information corresponding to the item name.

S52, determining commodity purchasing information according to the selling information and the commodity inventory information;

in this embodiment, since the selling information carries the purchasing amount information of the sold goods, the system performs a subtraction operation using the purchasing amount information and the goods inventory information to obtain a difference value. In some embodiments, when the difference is negative, it indicates that the goods in the warehouse are sufficient for the user to provide. When the difference value is positive, the fact that the commodities in the warehouse are not enough to be provided for the user is indicated, and then the system generates commodity purchasing information, wherein the commodity purchasing information comprises purchasing difference information of the sold commodities, and the purchasing difference information is used for indicating the quantity of the commodities purchased outside the system.

And S53, processing the circulation information of the sold commodities according to the commodity purchasing information, the intelligent warehousing algorithm or the intelligent distribution algorithm.

In this embodiment, the smart warehousing algorithm is used to instruct the system to generate an optimal warehousing location so that the administrator warehouses the goods in the warehouse according to the optimal warehousing location. The intelligent distribution algorithm is used for indicating the system to generate optimal distribution information, so that an operator can load, unload and distribute the goods according to the optimal distribution information, wherein the optimal distribution information comprises optimal logistics loading and unloading information or optimal distribution path information, and the optimal logistics loading and unloading information is used for indicating the operator to load the goods onto the truck or unload the goods from the truck. The optimal distribution path information is used for indicating the operator to select the optimal distribution path to distribute the goods, so that the logistics cost is saved, and the logistics efficiency is improved.

In some embodiments, the circulation information includes logistics handling information, wherein the logistics handling information is used to instruct an operator to select a suitable placement location for loading the cargo onto the truck, or to instruct the operator to unload the cargo while selecting a suitable cargo for unloading from the truck.

The system obtains the optimal logistics loading and unloading information of the sold commodities in the freight warehouse according to the commodity purchasing information and the intelligent distribution algorithm, wherein the optimal logistics loading and unloading information indicates an operator to load or unload the commodities to or from the freight car most economically and efficiently.

In some embodiments, the intelligent distribution algorithm comprises a goods-first-in-last-out algorithm, for example, the system generates optimal logistics loading and unloading information of goods associated with the goods-first-in-last-out algorithm, firstly, the operator loads and unloads the goods a1, the goods a2, the goods A3 and the goods a4 to the truck, and the goods a1, the goods a2, the goods A3 and the goods a4 need to be unloaded from the truck in sequence, so that the goods a4, the goods A3, the goods a2 and the goods a1 need to be loaded to the truck in sequence. Next, when unloading, the operator unloads the goods truck with the goods a1, the goods a2, the goods A3, and the goods a4 in this order, so that this type of operation can improve logistics efficiency and prevent the goods unloaded in the rear from blocking the transportation lane of the goods unloaded in the front.

In some embodiments, the circulation information further includes delivery path information, wherein the delivery path information is used to instruct delivery personnel to select a path to deliver the goods.

The system obtains optimal distribution path information of the sold commodities according to commodity purchasing information and an intelligent distribution algorithm, wherein the optimal distribution path information indicates distribution personnel to select the most economical and efficient logistics path to distribute the commodities to the destination. In the present embodiment, the intelligent distribution algorithm may select any suitable algorithm, such as an ant colony algorithm, or the like.

In some embodiments, the circulation information includes warehousing location information, wherein the warehousing location information is used to instruct an operator to select an appropriate warehousing location within the warehouse for storing the goods.

The system obtains the optimal warehousing position information of the sold commodities in the warehouse according to the commodity purchasing information and the intelligent warehousing algorithm, wherein the optimal warehousing position information indicates an operator to select the optimal warehousing position to store the commodities so as to improve the efficiency of subsequent cargo shipment. For example, first, the operator needs to subsequently ship commodity B1, commodity B2, commodity B3, and commodity B4 to the truck, but the sale of commodity B1 and commodity B2 is not good, and the commodity is a less-handled commodity, commodity B3 is a commonly-handled commodity, and commodity B4 is a frequently-handled commodity, so when the operator stores commodity B1, commodity B2, commodity B3, and commodity B4 in the warehouse, the operator first places commodity B1 and commodity B2 at an optimal warehousing position for the less-handled commodity, then places commodity B3 at an optimal warehousing position for the commonly-handled commodity, and then places commodity B4 at an optimal warehousing position for the frequent transportation, such as an optimal warehousing position for the frequent transportation. Therefore, such a practice can improve the logistics efficiency.

In some embodiments, the smart warehousing algorithm comprises a goods new-in and new-out algorithm, for example, item C1 pertains to goods newly stored in the warehouse, item C2 pertains to goods historically stored in the warehouse, and thus, the optimal warehousing location for item C1 is the warehouse door and the optimal warehousing location for item C2 is the warehouse corner.

In order to improve the efficiency of the stored goods again and facilitate the subsequent improvement of the efficiency of carrying goods from the warehouse, in some embodiments, when the goods are stored, the system acquires the historical sales information or the forecast sales information of the sold goods, and then the system obtains the optimal storage position information of the sold goods in the warehouse according to the goods purchase information, the intelligent storage algorithm and the historical sales information. Or the system obtains the optimal storage position information of the sold commodities in the warehouse according to the commodity purchase information, the intelligent storage algorithm and the predicted sales volume information.

For example, the historical sales information of the sold commodity D1 is relatively small, and the system obtains the optimal warehousing location information of the sold commodity at the warehouse corner according to the commodity purchase information, the smart warehousing algorithm and the historical sales information. The historical sales information of the sold commodity D2 is high, and the system obtains the optimal storage position information of the sold commodity according to the commodity purchase information, the intelligent storage algorithm and the historical sales information, wherein the optimal storage position information is located at the door of a warehouse.

For another example, in winter, the historical sales information of mineral water E1 is relatively small, but in summer, the predicted sales information of mineral water E1 is relatively high, so the system obtains the optimal storage position information of mineral water E1 in the warehouse according to the commodity purchase information, the intelligent storage algorithm and the predicted sales information.

Generally, by the above method, it is possible to improve logistics efficiency.

In some embodiments, when the warehouse comprises a supply chain brand warehouse or a central warehouse or a front warehouse or an intelligent micro warehouse or an intelligent cabinet warehouse, when the goods are stored, the system selects the optimal warehouse stored goods from a plurality of warehouses according to the purchase frequency and the quality guarantee period of the goods, for example, generally, the central warehouse is used for storing some goods with low dynamic market guarantee period, for example, the goods with low dynamic market guarantee period is a broom, and the front warehouse is used for storing some goods with high dynamic market guarantee period, for example, the goods with high dynamic market guarantee period is yoghourt.

Therefore, according to the commodity purchasing information and the intelligent warehousing algorithm, the system firstly extracts the goods name from the commodity purchasing information, acquires the purchasing frequency and the quality guarantee period corresponding to the goods name, uses the purchasing frequency and the quality guarantee period corresponding to the goods name, and combines the intelligent warehousing algorithm to select the optimal warehouse goods from a plurality of warehouses, wherein the purchasing frequency and the quality guarantee period of each type of goods are stored in the system in advance, for example, the commodity purchasing information carries two goods names of a broom and yoghourt, and then the system determines the purchasing frequency and the quality guarantee period of the broom according to the goods name of the broom. The system determines the purchase frequency and the shelf life of the yoghourt according to the goods name of the yoghourt.

Due to the fact that the purchase frequency of the broom is lower than a first preset threshold value, the shelf life is larger than a second preset threshold value, wherein the first preset threshold value and the second preset threshold value are defined by a user, for example, the first preset threshold value is 1000 sales per day on average, and the second preset threshold value is 6 months. Since the purchase frequency of the besom is 500 per day on average, the shelf life is 3 years, and the purchase frequency and the shelf life of the besom meet the placing condition of the besom in the central bin, the system places the besom in the central bin.

Since the purchase frequency of the yoghourt is higher than the first preset threshold value and the shelf life is less than the second preset threshold value, since the purchase frequency of the yoghourt is 1500 boxes per day on average and the shelf life is 3 months, the purchase frequency and the shelf life of the yoghourt meet the placing conditions of placing the yoghourt in the front bin, the yoghourt is placed in the front bin by the system.

Generally, different logistics commodities require packaging boxes with different specifications. In order to improve the packaging efficiency and save the packaging cost, in some embodiments, the commodity purchasing information includes specification information of the sold commodity and the order placing quantity, please refer to fig. 5b, the method S500 for processing circulation information of the commodity further includes:

and S54, generating logistics packaging information according to the specification information and the order placing quantity, wherein the logistics packaging information is used for indicating the packaging and selling of the commodities.

In this embodiment, the logistics package information includes the size, number, material, whether foam is needed, and the like of the package. And the packing personnel select a proper packing material to pack the sold commodity according to the logistics packing information.

For example, the user orders to purchase 5 sockets, and thus, the logistics package information generated by the system includes packages adapted to the volume size of the sockets, and the number of the packages is 5 and waterproof.

As another example, the user places an order to purchase 10 packages of pins, and the logistics packaging information generated by the system includes a carton having a volume sufficient to package 10 packages of pins.

Therefore, by doing so, it is possible to improve packaging efficiency.

As mentioned above, the warehouse includes a warehouse or a store, or a storage area of a smart vending apparatus or a logistics vehicle, wherein the store is provided with the storage area, the smart vending apparatus is also provided with the storage area, and the logistics vehicle is also provided with the storage area.

In some embodiments, the cargo compartment comprises a supply chain brand compartment or a central compartment or a front compartment or an intelligent micro compartment or an intelligent cabinet compartment, and the supply chain brand compartment, the central compartment, the front compartment and the micro compartment can be used for convertible storage of goods between any two or more compartments.

In some embodiments, the circulation information further includes warehouse scheduling information, and the system obtains optimal warehouse scheduling information for selling commodities according to commodity purchase information and a smart warehousing algorithm, for example, the system needs to schedule a commodity F1 to a micro-warehouse, wherein the commodity F1 is stored in a central warehouse and a front warehouse, and the distance from the central warehouse to the micro-warehouse of the commodity F1 is greater than the distance from the front warehouse to the micro-warehouse, so that the system schedules the commodity F1 from the front warehouse to the micro-warehouse.

In some embodiments, referring to fig. 5c, the method S500 further includes:

s55, determining point information corresponding to the vending information;

and S56, generating the network currency according to the point information.

In some embodiments, the vending information is sent by a merchant settlement terminal; or the vending information is sent by the selling mobile terminal.

In some embodiments, the system processes the merchandise point information according to the settlement merchandise transaction amount and/or the settlement merchandise category, for example, generating a general point according to the settlement merchandise transaction amount and/or the settlement merchandise category, or generating a directional point according to the settlement merchandise transaction amount and/or the settlement merchandise category.

For example, the account information is used to identify the identity information of the user, and each account information corresponds to a credit wallet under each user account, and the credit wallet pre-stores the merchandise credits, wherein the merchandise of different merchandise types corresponds to the merchandise credits of different credit types.

Referring to table 1, table 1 is a schematic table of various types of product points corresponding to account information according to an embodiment of the present invention. As shown in table 1:

TABLE 1

The account information corresponds to the point types of the commodity points, wherein the commodity type is cigarette, the point type corresponding to the account information is general point type A0, and the commodity points of the general point type are used for exchanging any type of sold commodities, for example, the commodity points corresponding to the cigarette can be used for exchanging beer, beverage, milk powder and the like. The commodity volume corresponding to the cigarette is 3000.

For example, the commodity type is of an alcohol commodity, the corresponding point type is of a directional point type a1, and the commodity points of the directional point type are used for exchanging a specified type of sales commodity, for example, on the premise of equivalent points, the commodity points corresponding to the alcohol commodity can only be exchanged for the alcohol commodity, for example, 300 alcohol commodity points correspond to beer with a price of 8 yuan. If the user exactly needs to exchange the commodity points corresponding to the liquor commodity for other kinds of commodities across commodity fields, for example, the commodity points corresponding to the liquor commodity are exchanged for cigarettes, then the 8-yuan cigarettes require 500 liquor commodity points to be exchanged. As shown in Table 1, the product score for the alcoholic beverage product was 2000.

The commodity type is milk powder, the corresponding point type is directional point type A2, and the commodity point corresponding to the milk powder is 2500.

The commodity type is beverage, the corresponding point type is directional point type A3, and the commodity point corresponding to the beverage is 1500.

The commodity type is clothing, the corresponding point type is directional point type A4, and the corresponding commodity point of clothing is 600.

In some embodiments, the processing of the merchandise point information according to the settled merchandise transaction amount and/or the settled merchandise category further comprises: and generating network currency corresponding to the commodity points according to a preset point exchange rule.

In this embodiment, the network currency is used as "hard currency" in the information processing system, which does not need to be exchanged and can be used to purchase any type of goods. The monetary value of the network currency and the integral value of the commodity points satisfy a preset exchange condition, for example, 1 network currency is 1 commodity point, or 1 network currency is P commodity points, where the value of P is defined by the administrator according to the business requirement, for example, P may be 10, or may also be 0.1.

Because the commodity points have point types, different commodity points cannot be directly replaced with equivalent points, and in order to improve the universality of the commodity points, the system generates network currency corresponding to the sold commodities according to the point types of the commodity points. For example, the user has 1000 points J1, 2000 points J2, 3000 points J3, 4000 points J4. The user needs to purchase the commodity a with the price of 100, and if the commodity a is sold by using the network currency, the user needs 100 network currencies. However, the network currency 100 corresponding to the commodity a may be sequentially generated by the system according to the commodity point J1, or the commodity point J2, or the commodity point J3, or the commodity point J4, since 1 network currency, 5 commodity points J1, 4 commodity points J2, 10 commodity points J3, or 20 commodity points J4.

In some embodiments, referring to fig. 5d, the method S500 further includes:

s57, generating reward information according to the point information;

and S58, controlling the intelligent vending equipment to display a reward page according to the reward information, wherein the reward page comprises reward activity content.

For example, the user exchanges 2 pieces of lottery tickets with 100 pieces of point information, so the system generates 2 pieces of lottery ticket information according to the 100 pieces of point information input by the user, and the lottery ticket information is the prize information. Then, the system controls the intelligent vending equipment to display a lottery ticket scratching page according to the lottery ticket information, namely, the lottery ticket scratching page is a reward page, 2 lottery tickets are automatically scratched on the lottery ticket scratching page, and the lottery ticket scratching result is presented on the lottery ticket scratching page.

In some embodiments, the warehouse is provided with a plurality of rows of storage racks, each row of storage racks is provided with a plurality of bins arranged in a stacked manner, and the mechanical arm is used for sorting goods from the target bins.

Referring to fig. 5e and 5f, the warehouse is provided with a plurality of rows of storage shelves 501, a goods taking channel 502 is formed between each two rows of storage shelves 501, the mechanical arm 503 can freely move in the goods taking channel 502, when taking goods, the mechanical arm 503 moves to the lower part of the target shelf to receive the fallen goods, then the fallen goods are transmitted to the sorting platform 504, and the sorting personnel of the sorting platform 504 sorts the goods.

For example, first, the server sends a sorting instruction to the robot arm, and the sorting instruction encapsulates the position information of the target bin. Secondly, the mechanical arm determines a target bin according to the sorting instruction, wherein goods are placed on the target bin, and for example, the mechanical arm moves to the position of the target bin according to the position information of the target bin. And finally, the server controls the mechanical arm to move to a target bin position to sort the goods.

In some embodiments, the system may also send delivery instructions to the delivery terminal, wherein the delivery terminal is held by a delivery person, and the delivery instructions include information about a delivery destination, a delivery item, and the like, and the delivery person dials the item between any two or more bins according to the delivery instructions.

For example, delivery personnel may deliver the goods directly to the user.

As another example, the user places an order on line, generating an order on line instruction. Then, the system generates a goods picking code according to the order placing command on line, and the goods picking code is used for picking up goods on line. The order-placing-on-line instruction comprises commodity information of goods-placing-off-line and a mobile phone number of a goods-taking person. And after the user successfully pays, the server sends information containing the goods picking code and the goods picking place to the mobile phone number of the goods picker according to the on-line order-placing instruction.

Secondly, the system receives the goods picking code input by the user, for example, the user goes to the goods picking place in the information and inputs the goods picking code in the intelligent shop or the intelligent container.

And thirdly, the system trades off-line commodities according to the goods picking codes. For example, the system determines whether the pick-up code is pre-stored, and if the pick-up code is pre-stored, the off-line commodity is extracted to the user. If the goods picking code is not prestored, the goods picking code is judged to be an illegal goods picking code, and the off-line trade of the goods is stopped.

In some embodiments, the system sends the cargo transportation information command to the unmanned transportation device to cause the unmanned transportation device to load and unload the cargo according to the cargo transportation information command to the target location.

The goods transportation information instruction comprises target position information and target goods image information, and the goods transportation information instruction is sent to the unmanned transportation equipment, so that the unmanned transportation equipment can reach the target position according to the target position information, and target goods corresponding to the target goods image information are selected for loading and unloading.

For example, the target position is provided with a wireless charging device, and the server sends a navigation positioning instruction to the unmanned transportation device, so that the unmanned transportation device can reach the wireless charging device according to the navigation positioning instruction. Secondly, the server sends a wireless charging instruction to the wireless charging equipment, so that the wireless charging equipment wirelessly charges the unmanned transportation equipment.

In some embodiments, the unmanned transport device supports wireless charging. Referring to fig. 5g, the loading/unloading platform 520 is provided with an unmanned apron 521 and an automatic loading/unloading area 522.

The unmanned apron 521 is paved with a wireless charging plate 523, the wireless charging plate 523 integrates a wireless charging function, and when the unmanned transport device 524 stays on the wireless charging plate 523 of the unmanned apron 521, the wireless charging plate 523 wirelessly charges the unmanned transport device 524.

The automated loading and unloading section 522 includes a ramp section 525 for transferring goods 527 from the floor to a ceiling 528, and a vertical section 526 for vertically transferring goods 527 from each level of the warehouse 529 from the corresponding level to the ceiling 528, and a robot arm sorts each goods 527 at the ceiling 528, and after the unmanned transport device 524 is charged, it can load the goods 527 and deliver the goods 527 to its destination.

In some embodiments, unmanned transport 524 may also bring goods 527 to a transfer area on the roof 528, through ramp 525 or vertical 526 to ground or level 529.

The ramp 525 comprises a drive mechanism and a conveyor belt, the drive mechanism is used for driving the conveyor belt to move the goods 527 carried by the conveyor belt, on one hand, the goods 527 can be conveyed to the top of the building, and on the other hand, the goods 527 can be conveyed to the ground. The driving mechanism may be composed of a motor and a gear.

Vertical transfer section 526 includes a lift mechanism for transporting goods 527 from a corresponding level of warehouse 529 to a roof 528, or for distributing goods from roof 528 to a corresponding level of warehouse 529.

For example, when the unmanned transport device 524 receives the delivery order command, the unmanned transport device 524 flies to the unmanned apron 521 of the target loading/unloading platform 520 according to the delivery order command, on one hand, the unmanned transport device 524 may be wirelessly charged at the unmanned apron 521, and on the other hand, the unmanned transport device 524 may be loaded at the auto-loading/unloading area 522. Finally, the unmanned transport device 524 proceeds to the delivery location based on the delivery location commanded by the delivery order. Upon arrival at the delivery location, the unmanned transport device 524 may be wirelessly charged at the unmanned apron 521 at the delivery location, on the one hand, and the unmanned transport device 524 may be unloaded at the automated loading and unloading area 522 at the delivery location, on the other hand. Through unmanned delivery, it can improve logistics efficiency.

In some embodiments, the unmanned transport device comprises a drone and/or an unmanned vehicle.

In some embodiments, the system updates the purchase, sale and stock information synchronously according to the vending information and the commodity inventory information, thereby realizing purchase, sale and stock management.

In some embodiments, the system sends merchandise promotional information to the smart device, e.g., sends crown advertisements, etc.

It should be noted that, in the foregoing embodiments, a certain order does not necessarily exist between the foregoing steps, and it can be understood by those skilled in the art from the description of the embodiments of the present invention that, in different embodiments, the foregoing steps may have different execution orders, that is, may be executed in parallel, may also be executed in an exchange manner, and the like.

As another aspect of the embodiments of the present invention, an embodiment of the present invention provides a commodity circulation information processing apparatus, which is applied to a server. The commodity circulation information processing device of the embodiment of the invention can be used as one of the software functional units, and comprises a plurality of instructions, wherein the instructions are stored in the memory, and the processor can access the memory and call the instructions to execute so as to complete the commodity circulation information processing method.

Referring to fig. 6a, a commodity circulation information processing apparatus 600 includes:

the information acquisition module 61 is used for acquiring selling information and commodity inventory information of the intelligent equipment;

a purchasing information determining module 62, configured to determine commodity purchasing information according to the selling information and the commodity inventory information;

and the circulation information processing module 63 is configured to process circulation information of the sold commodities according to the commodity purchasing information, the intelligent warehousing algorithm or the intelligent distribution algorithm.

Optionally, referring to fig. 6b, the apparatus 600 further includes: a selling information determining module 64, configured to obtain historical sales information or predicted sales information of the sold goods;

Optionally, the commodity purchasing information includes specification information and order placing quantity of the sold commodity, referring to fig. 6c, the apparatus 600 further includes: and the volume calculation module 65 generates logistics packaging information according to the specification information and the order placing quantity, wherein the logistics packaging information is used for indicating the packaging of the sold commodities.

Optionally, referring to fig. 6d, the apparatus 600 further includes:

the point determining module 66 is used for determining point information corresponding to the vending information;

the currency generation module 67 is used for generating network currency according to the point information.

the vending information is sent by the vending mobile terminal.

Optionally, the apparatus 600 further comprises:

the reward information generating module 68 is used for generating reward information according to the point information;

the bonus page display module 69 is configured to control the smart vending apparatus to display a bonus page according to the bonus information, where the bonus page includes bonus activity content.

Optionally, referring to fig. 7, the apparatus 600 further includes:

the delivery sending module 71 is configured to send a delivery instruction to a delivery terminal, so that a delivery person can transfer and transfer goods between any two or more bins according to the delivery instruction.

Optionally, the apparatus 600 further comprises:

the unmanned instruction sending module 72 is configured to send a cargo transportation information instruction to the unmanned transportation device, so that the unmanned transportation device arrives at a target location according to the cargo transportation information instruction to load and unload the cargo.

Optionally, the apparatus 600 further comprises:

the purchase, sale and stock management module 73 is used for synchronously updating the purchase, sale and stock information according to the vending information and the commodity inventory information.

Optionally, the apparatus 600 further comprises:

the goods promotion module 74 is configured to send goods promotion information to the smart device.

The commodity circulation information processing device can execute the commodity circulation information processing method provided by the embodiment of the invention, and has the functional modules and the beneficial effects corresponding to the execution method. For details of the technology that are not described in detail in the embodiment of processing the circulation information of the commodity, reference may be made to the method for processing the circulation information of the commodity provided in the embodiment of the present invention.

As another aspect of the embodiments of the present invention, an embodiment of the present invention provides an electronic device, where the electronic device includes an intelligent device or a server, please refer to fig. 8, and the electronic device 800 includes: one or more processors 81 and memory 82. In fig. 8, one processor 81 is taken as an example.

The processor 81 and the memory 82 may be connected by a bus or other means, and fig. 8 illustrates the connection by a bus as an example.

The memory 82, which is a non-volatile computer-readable storage medium, may be used to store non-volatile software programs, non-volatile computer-executable programs, and modules, such as program instructions/modules corresponding to the distribution information processing method of the commodity in the embodiment of the present invention. The processor 81 executes various functional applications and data processing of the distribution information processing method of the commodities of the above-described respective embodiments or the distribution information processing apparatus of the commodities of the above-described respective embodiments by running the nonvolatile software program, instructions, and modules stored in the memory 82.

The memory 82 may include high speed random access memory and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some embodiments, the memory 82 may optionally include memory located remotely from the processor 81, which may be connected to the processor 81 via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The program instructions/modules are stored in the memory 82, and when executed by the one or more processors 81, perform the distribution information processing method for the commodity in any of the above-described method embodiments, for example, thereby performing the distribution information processing method for the commodity in each of the above-described embodiments, or various functional applications and data processing of the distribution information processing apparatus for the commodity in each of the above-described embodiments.

An embodiment of the present invention further provides a non-transitory computer-readable storage medium, where computer-executable instructions are stored, and the computer-executable instructions are configured to cause an electronic device to execute the method for processing circulation information of a commodity according to any one of the above embodiments.

An embodiment of the present invention provides a computer program product including a computer program stored on a non-volatile computer-readable storage medium, the computer program including program instructions that, when executed by an electronic device, cause the electronic device to execute any one of the distribution information processing methods of commodities.

The above-described embodiments of the apparatus or device are merely illustrative, wherein the unit modules described as separate parts may or may not be physically separate, and the parts displayed as module units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network module units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a general hardware platform, and certainly can also be implemented by hardware. Based on such understanding, the above technical solutions substantially or contributing to the related art may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; within the idea of the invention, also technical features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A commodity circulation information processing method is applied to a server, and is characterized by comprising the following steps:

2. The method of claim 1, wherein the circulation information comprises logistics loading and unloading information, and the processing of the circulation information of the sold goods according to the goods purchase information and the intelligent distribution algorithm comprises:

3. The method of claim 1, wherein the circulation information further includes distribution route information, and processing the circulation information of the sold goods according to the goods purchase information and the intelligent distribution algorithm comprises:

4. The method according to any one of claims 1 to 3, wherein the circulation information includes warehousing location information, and the processing of the circulation information of the sold goods according to the goods purchase information and the smart warehousing algorithm includes:

5. The method of claim 4,

the method further comprises the following steps: obtaining historical sales information or predicted sales information of the sold commodities;

6. The method of claim 4, wherein the merchandise purchase information includes specification information and an order placement amount of the merchandise sold, the method further comprising:

7. The method according to claim 4, wherein the warehouse comprises a warehouse or a smart store or a smart vending apparatus or a warehouse area of a logistics vehicle.

8. The method of claim 7,

the goods warehouse comprises a supply chain brand warehouse or a central warehouse or a front warehouse or an intelligent micro warehouse or an intelligent cabinet warehouse, and the input, sales and storage information of any two or more warehouses of the supply chain brand warehouse, the central warehouse, the front warehouse and the micro warehouse is communicated to realize the allocation of goods.

9. The method of claim 8, wherein the circulation information further comprises warehouse scheduling information, and the processing of the circulation information of the sold goods according to the goods procurement information and the smart warehousing algorithm comprises:

10. The method of claim 1, further comprising:

determining point information corresponding to the vending information;

and generating the network currency according to the point information.

11. The method of claim 10,

the vending information is sent by a merchant settlement terminal; or,

the vending information is sent by the vending mobile terminal.

12. The method of claim 10, further comprising:

generating reward information according to the point information;

13. The method of claim 8, wherein the warehouse is provided with rows of storage racks and a robotic arm, each row of storage racks being provided with a plurality of stacked storage positions, the method further comprising:

14. The method of claim 13, further comprising:

15. The method of any one of claims 1 to 14, further comprising:

16. The method of claim 15, wherein the cargo transportation information command comprises target location information and target cargo image information, and sending the cargo transportation information command to the unmanned transportation device to enable the unmanned transportation device to load and unload the cargo to the target location according to the cargo transportation information command comprises:

17. The method of claim 15, wherein the target location is provided with a wireless charging device, the method further comprising:

18. The method of claim 17, wherein the unmanned transport device comprises a drone and/or an unmanned vehicle.

19. The method of any one of claims 1 to 18, further comprising:

20. The method of any one of claims 1 to 18, further comprising:

and sending commodity promotion information to the intelligent equipment.

21. A commodity circulation information processing device applied to a server, the device comprising:

22. A server, comprising:

at least one processor; and

a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of processing the circulation information for the article of merchandise of any one of claims 1-20.

23. An information processing system, characterized in that the information processing system comprises a smart device for selling goods and/or settling goods and a server as claimed in claim 22.