WO2023035732A1 - Clothing treatment method for clothing treatment device - Google Patents

Abstract

The present invention relates to the technical field of clothing treatment, and aims to solve the problem that existing clothing treatment devices cannot meet requirements of various aspects of users due to steam washing or atomization washing means being relatively simple caused by limitations in the structures thereof. For said reason, the clothing treatment device in the present invention comprises a clothing treatment drum and a window pad that are connected to one another; the clothing treatment device also comprises an ultrasonic atomizer provided on the clothing treatment drum and/or the window pad, wherein the ultrasonic atomizer is provided with multiple atomization heads that are independent from one another, and the multiple atomization heads can respectively accommodate the same or different clothing treatment agents. The clothing treatment method comprises: obtaining the material and/or type of clothing; and according to the material and/or type of the clothing, enabling the multiple atomization heads to execute personalized clothing treatment steps of alternate spraying, simultaneous spraying or sequential spraying. The present invention enables a user to achieve, according to different clothing and their own needs, multi-faceted care for clothing, thereby achieving personalized clothing care, meeting requirements of various aspects of users, and improving user experience.

Description

Clothes treatment method of clothes treatment equipment technical field

The invention relates to the technical field of clothes treatment, and specifically provides a clothes treatment method of a clothes treatment device.

Background technique

Clothes processing equipment is equipment capable of washing, rinsing, dehydrating and/or drying clothes, and common laundry processing equipment includes washing machines, clothes dryers, all-in-one washing and drying machines, and clothes care machines.

With the continuous improvement of living standards, users' demand for clothing treatment equipment is not only for washing and drying clothes, but also for clothes such as wrinkle removal, deodorization, disinfection, sterilization, bleaching, softening or fragrance enhancement. Washing is a clothing treatment method that can eliminate the wrinkles of clothes and disinfect and sterilize clothes. Clothes will be wrinkled after wearing for a long time. There are residual compressive stress and residual tensile stress on the inside and outside of the surface respectively, and the fibers are tight and unable to relax automatically. The steam can moisten the fibers of the clothes, which can effectively relieve the irregular tension of the fibers of the clothes and eliminate the original stress residue, so that the clothes become smooth and soft, and some clothes will have residual odor after wearing for a long time or after going to special occasions , steam washing can realize the disinfection and sterilization of clothes, and eliminate the residual odor of clothes. In recent years, steam washing has become more and more popular among users.

In the process of air washing or drying the clothes, a step of steam washing is usually added, or in some washing machines, the clothes are steam washed for a period of time before washing the clothes. In the prior art, taking the all-in-one washer-dryer as an example, steam washing is realized by installing a steam generator on the all-in-one washer-dryer, such as a heating-type steam generator, which forms steam through heating and passes it into the clothes processing cylinder. Steam can realize the steam washing of clothes, or use an ultrasonic atomizer, which is welded together with the water inlet system, and use the water inlet system to realize the water supply of the ultrasonic atomizer, and then use the ultrasonic wave to make the water become The atomized liquid droplets that are fine particles enter into the clothes processing cylinder to realize the atomized washing of clothes. Using a heating steam generator will consume more electric energy, while using an ultrasonic atomizer will save some electricity compared to a heating steam generator, but it will affect the water of the ultrasonic atomizer when it is combined with the water inlet system when scale is generated. supply. Moreover, the limitation of the above-mentioned product structure leads to relatively simple steam washing or atomization washing of clothes, which cannot meet the various needs of users.

Therefore, there is a need in the art for a new laundry treatment device to solve the above problems.

Contents of the invention

The present invention aims to solve the above-mentioned technical problems, that is, to solve the problem that the existing clothes processing equipment has a relatively single method of steam washing or atomization washing due to its own structural limitations, and cannot meet the various needs of users.

The present invention provides a method for treating clothes of a clothes treatment device, the clothes treatment device comprises a connected clothes treatment cylinder and a window pad, and the clothes treatment device further comprises a clothes treatment cylinder and/or a window pad An ultrasonic atomizer, the ultrasonic atomizer has a plurality of atomizing heads independent of each other, and the plurality of atomizing heads can respectively accommodate the same or different laundry treatment agents;

The laundry treatment method includes:

Obtain the material and/or type of clothing;

According to the material and/or type of the clothes, the multiple atomizing heads are made to perform a personalized clothes treatment step of spraying alternately, spraying simultaneously or spraying sequentially.

In the preferred technical solution of the above clothes processing method, when the material of the clothes is a material with a softness greater than a preset softness and/or the weight of the clothes is less than a preset weight, the personalized clothes processing step includes removing wrinkle step.

In the preferred technical solution of the above clothes processing method, when the material of the clothes is a material with a softness less than a preset softness and/or the weight of the clothes is greater than a preset weight, the personalized clothes processing step does not include wrinkle removal step.

In the preferred technical solution of the above-mentioned clothes treatment method, the clothes treatment method also includes:

During the execution of the individualized laundry treatment step, the laundry treatment drum is rotated.

In the preferred technical solution of the above laundry processing method, the laundry processing equipment includes a drying system, the drying system can dry the laundry in the laundry processing cylinder, and in the "obtaining the material and/or type of the laundry" Before the step, the laundry treatment method also includes:

Dry clothes.

In the preferred technical solution of the above-mentioned clothes treatment method, the clothes treatment method also includes:

During the process of performing the individualized laundry treatment step, the laundry is dried.

In the preferred technical solution of the above laundry processing method, the step of "drying the laundry during the process of performing the personalized laundry processing step" specifically includes:

While the spraying operation is performed by the atomizing head, the drying operation is performed on the clothes.

In the preferred technical solution of the above laundry processing method, the step of "drying the laundry during the process of performing the personalized laundry processing step" specifically includes:

After the spraying operation is performed by the atomizing head, the drying operation is performed on the clothes.

In the preferred technical solution of the above-mentioned laundry treatment method, the step of "drying the laundry" includes:

The laundry is dried for the set time.

In the preferred technical solution of the above clothes processing method, the step of "drying the clothes" includes:

Perform drying treatment on the clothes and ensure that the temperature in the clothes processing cylinder reaches the set temperature.

In the case of adopting the above technical solution, the present invention can use the ultrasonic nebulizer to achieve atomized washing of clothes, ensuring the energy-saving advantage of ultrasonic nebulization care, without consuming too much electric energy, and the mist produced by the ultrasonic nebulizer The atomized particles are small and can be evenly distributed on the clothes. At the same time, the atomization temperature is low, and it will not cause damage to high-grade or high-temperature-resistant fabrics such as silk, leather, and mink. Users can also adjust according to the material, type and self of the clothes Flexible to add different or the same clothing treatment agent to multiple atomizing heads according to the demand, so as to realize multiple care of clothes, so that users can customize the care of clothes, realize personalized clothes care experience, and meet the needs of customers. The various needs of users can be met, and there is no need to combine with the water inlet system to realize water supply, so as to improve the user experience.

Further, by judging the softness and/or weight of the clothes to distinguish whether the clothes are easy to wrinkle, the wrinkle removal step is performed when the clothes are easy to wrinkle, and the wrinkle removal step is not carried out when the clothes are not easy to wrinkle, through this The unique control method can provide personalized care for different materials and/or types of clothing in a targeted manner, further improving the user experience.

Further, in the process of personalized treatment of the clothes, rotating the clothes treatment cylinder can ensure that the clothes treatment agent sprayed by the atomizing head is evenly sprinkled on the clothes, so as to penetrate the clothes better and improve the treatment effect of the clothes , to further enhance the user experience.

Further, before personalizing the clothes, drying the clothes to a certain extent can ensure that the water vapor on the clothes is removed, so as to facilitate the penetration of the clothes treatment agent into the clothes during the subsequent personalized treatment, and also avoid clothing treatment. The agent is over-diluted by the water on the clothes, further improving the personalized treatment effect on the clothes.

Furthermore, in the process of personalizing the clothes, drying the clothes can ensure that the clothes are relatively dry, give full play to the effect of the clothes treatment agent, and further improve the effect of the personalized treatment of the clothes.

Furthermore, by drying the clothes for a set time, the relative dryness of the clothes can be further ensured, and the effect of the clothes treatment agent can be brought into full play to the greatest extent, so that the personalized treatment effect on the clothes can be optimized.

Further, ensuring that the temperature in the laundry treatment drum reaches the set temperature before performing personalized treatment on the clothes can fully remove the water vapor on the clothes, thereby making it easier for the laundry treatment agent to penetrate the clothes in the subsequent personalized treatment process, and also avoid The laundry treatment agent is diluted by the water on the laundry, further enhancing the personalized treatment effect on the laundry.

Description of drawings

The preferred embodiment of the present invention will be described below in conjunction with the accompanying drawings and in conjunction with the integrated washing and drying machine. In the accompanying drawings:

Fig. 1 is a schematic structural view of the washing and drying machine of the present invention;

Fig. 2 is a structural schematic diagram of the wireless driver, the base and the ultrasonic atomizer of the washing and drying machine of the present invention;

Fig. 3 is a structural schematic diagram of the wireless driver of the all-in-one washing and drying machine of the present invention;

Fig. 4 is a schematic structural view of the base of the washing and drying machine of the present invention;

Fig. 5 is a structural schematic diagram 1 of the ultrasonic atomizer of the washing and drying machine of the present invention;

Fig. 6 is a structural schematic diagram II of the ultrasonic atomizer of the all-in-one washing and drying machine of the present invention;

Fig. 7 is a cross-sectional view of the wireless driver, the base and the ultrasonic atomizer of the all-in-one washing and drying machine of the present invention;

Fig. 8 is a flow chart of an embodiment in which the all-in-one washing and drying machine of the present invention processes leather clothing;

Fig. 9 is a flow chart of an embodiment of processing the clothes made of silk by the all-in-one washing and drying machine of the present invention.

Detailed ways

First of all, those skilled in the art should understand that these embodiments are only used to explain the technical principles of the present invention, and are not intended to limit the protection scope of the present invention. For example, although the present invention is described in conjunction with an all-in-one washer-dryer, the technical principle of the present invention is obviously also applicable to clothes dryers, washing machines, or multiple clothes processing equipment, and the adjustment or change of these application objects does not constitute a violation of this invention. The limitations of the invention should be limited within the protection scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "middle", "upper", "lower", "left", "right", "inner", "outer" and other indicated directions or positional relationships are Based on the orientation or positional relationship shown in the drawings, this is only for convenience of description, and does not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and therefore cannot be construed as limiting the present invention . In addition, the terms "first" and "second" are used for descriptive purposes only, and should not be understood as indicating or implying relative importance.

In addition, it should be noted that, in the description of the present invention, unless otherwise clearly specified and limited, the terms "setting", "connection" and "communication" should be understood in a broad sense, for example, it can be a fixed connection or It is a detachable connection or an integral connection; it can be directly connected or indirectly connected through an intermediary, and it can be the internal communication of two components. Those skilled in the art can understand the specific meanings of the above terms in the present invention according to specific situations.

Based on the problems pointed out by the background technology that the existing washing-drying machine is limited by its own structure, the method of steam washing or atomization washing is relatively simple, which cannot meet the various needs of users. The present invention provides a washing-drying machine, which aims to It enables users to realize multiple care of clothes according to different clothes and their own needs, so as to realize personalized customization of clothes care, and then realize personalized clothes care experience, meet users' various needs, and improve users' use experience.

Specifically, as shown in FIG. 1 , the integrated washer-dryer of the present invention includes a box body 1 and a laundry processing cylinder arranged in the box body 1. The laundry processing cylinder adopts a sleeve-type structure, that is, it includes an outer cylinder and is rotatably arranged on the outside. The inner cylinder in the cylinder, the window pad 2 connects the opening of the outer cylinder with the clothes delivery port of the casing 1, the inner cylinder can be directly driven to rotate by a direct drive motor, and the belt can also be driven by the motor to drive the inner cylinder to rotate. The outer cylinder is used to contain washing water, the inner cylinder is used to accommodate clothes and can turn them over, and the window pad 2 is used to ensure the sealing between the outer cylinder and the box body 1 . The all-in-one washing and drying machine also includes a drying system (not shown in the figure). The drying system includes a drying air duct and a drying fan arranged in the drying air duct. The air outlet of the drying air duct communicates with the window pad. The air inlet of the dry air duct is connected with the outer cylinder. When the drying process is performed, the air in the outer cylinder enters the drying air duct from the air inlet of the drying air duct on the outer cylinder, and the air in the drying air duct passes through the drying air duct. The air outlet of the dry air duct enters the outer cylinder from the window pad to dry the clothes in the inner cylinder in an internal circulation. There is also a dehumidification heating device in the drying air duct. The dehumidification heating device can be a heat pump device. The heat pump device includes an evaporator, a condenser and a compressor that are connected in sequence and form a refrigerant circulation loop. and the evaporator is located on the upstream side of the condenser (the relative positional relationship between the evaporator and the condenser is described relative to the air flow direction in the drying air duct during the drying process), the evaporator is used to dehumidify the air, and the condenser is used to The air is heated. The dehumidification heating device can also be a combination of condensing fins and electric heating pipes, the condensing fins and electric heating pipes are all arranged in the drying air duct and the condensing fins are arranged on the upstream side of the electric heating pipes (condensing fins and electric heating pipes The relative positional relationship is described relative to the air flow direction in the drying air duct during the drying process), the condensing fins dehumidify the air, and the electric heating tubes heat the air. When the all-in-one washing and drying machine performs the drying program, the air in the outer cylinder is sucked into the drying air duct from the air inlet of the drying air duct under the action of the fan, and the wet and cold air becomes dry high-temperature air after being dehumidified and heated by the dehumidification heating device Then it is sent back to the window mat and the outer cylinder through the air outlet of the drying air duct, and the cycle is repeated.

As shown in Figures 2 to 7, the integrated washing and drying machine of the present invention also includes an ultrasonic atomizer 3 arranged on the outer cylinder and/or window pad 2, the ultrasonic atomizer 3 has a plurality of atomizing heads 4 independent of each other, The plurality of atomizing heads 4 can respectively accommodate the same or different laundry treatment agents. The ultrasonic nebulizer 3 can be arranged on the window pad 2 alone, or on the outer cylinder alone, or between the window mat 2 and the outer cylinder, that is, a part of the ultrasonic atomizer 3 is arranged on the window mat 2, The other part is set on the outer cylinder. The number of atomizing heads 4 can be two, three, or other larger numbers, which can be flexibly set by those skilled in the art. All the atomizing heads 4 of the ultrasonic nebulizer 3 may share one ultrasonic atomizing sheet, or each atomizing head 4 may have its own independent ultrasonic atomizing sheet, and the ultrasonic atomizing sheet may be a ceramic atomizing sheet, or It is a microporous atomizing sheet, or other atomizing sheets capable of breaking up the structure of liquid water molecules through high-frequency resonance, which can be flexibly set by those skilled in the art. When all atomizing heads 4 share one ultrasonic atomizing sheet, after the ultrasonic atomizing sheet oscillates, as long as there is laundry treatment agent in all atomization heads 4, the laundry treatment agent will be dispersed to form a water mist structure, which is sprayed to the inner tube On clothing, when each atomizing head 4 has its own independent ultrasonic atomizing sheet, after the ultrasonic atomizing sheet oscillates, it can make the corresponding atomizing head 4 with the clothes treatment agent in the atomizing head 4 treat the clothes The agent breaks up to form a mist-like structure, which is then sprayed onto the clothes in the inner tub. In the present invention, it is preferable to adopt each atomizing head 4 to have its own independent ultrasonic atomizing sheet, so as to realize alternate spraying care, simultaneous spraying care and sequential spraying care of clothes by different atomizing heads 4, and can realize the above-mentioned Switching between different care methods. Taking two atomizing heads 4, namely the first atomizing head and the second atomizing head as an example, alternate spray care means that one of the first atomizing head and the second atomizing head is turned on for a period of time and then closed Turn on the other one of the first atomizing head and the second atomizing head for a period of time and then turn it off, and then repeat the above steps again. Simultaneous spray care refers to the simultaneous opening of the first atomizing head and the second atomizing head or the first atomizing head One of the first atomizing head and the second atomizing head is turned on first and the other is turned on during the spraying process. Sequential spray care means that one of the first atomizing head and the second atomizing head is turned on for a period of time and then turned off Turn on the other one of the first atomizing head and the second atomizing head for a period of time and then turn it off, and then no longer turn on any atomizing head.

In the present invention, the laundry treatment agent can be pure water, detergent, softener, softener, disinfectant, bactericide, maintenance agent, bleach or fragrance enhancer, etc. Different atomizing heads 4 can accommodate the same clothing Treatment, can also accommodate different laundry treatments. The atomizing head 4 has a chamber, and the chamber can accommodate laundry treatment agents. In practical applications, a liquid injection structure can be provided on the atomizing head 4. For example, the liquid injection structure is an insertion hole communicating with the chamber. The needle of the syringe is inserted into the insertion hole to realize liquid injection, or the atomizing head 4 is a split structure that can be disassembled. For example, the atomizing head 4 includes a base and a cover that is detachably connected to the base. The cover and the base can be The chamber is formed on the base by screw connection, card connection or magnetic adsorption connection, etc. When the user needs to inject liquid into the atomizing head 4, the cover can be removed from the base, and then inject liquid into the chamber of the base. After the liquid injection is completed, the cover body is installed on the base. In the present invention, the ultrasonic atomizer 3 can be disassembled from the window pad 2 and/or the outer cylinder as a whole, or the atomizing head 4 can be disassembled from the shell or the installation structure of the ultrasonic atomizer 3 alone, Those skilled in the art can flexibly set this.

The clothes treatment method of the integrated washing and drying machine of the present invention includes: obtaining the material and/or type of the clothes; according to the material and/or type of the clothes, making multiple atomizing heads 4 perform personalized spraying alternately, simultaneously or sequentially Laundry treatment steps. Wherein, it can be determined solely according to the material of the clothes whether to perform the personalized clothes treatment method of alternate spraying, the personalized clothes treatment method of simultaneous spraying, or the personalized clothes treatment method of sequential spraying. It can also be determined based on the type of clothing alone whether to perform the personalized laundry treatment method of alternate spraying, the personalized clothing treatment method of simultaneous spraying, or the personalized clothing treatment method of sequential spraying. Furthermore, it can be determined according to the material and type of the clothing whether to perform the personalized clothing treatment method of alternate spraying, the personalized clothing treatment method of simultaneous spraying, or the personalized clothing treatment method of sequential spraying. Those skilled in the art can flexibly set this. The material of the clothes may include leather, mink, silk, cashmere, wool, pure leather, imitation leather, fleece, woolen and down, etc. The types of clothes may include tops, shirts, coats and trousers.

Preferably, when the material of the clothing is a material with a softness greater than a preset softness and/or the material of the clothing has a weight less than a preset weight, the personalized clothing processing step includes a wrinkle removal step. In the case of materials with less than preset softness and/or clothes with a weight greater than the preset weight, the personalized clothes processing step does not include the wrinkle removal step. In practical applications, it can be judged whether the clothes are easy to wrinkle according to the softness of the material of the clothes alone. Generally speaking, clothes made of cortical materials such as leather and pure leather have relatively low softness, that is, relatively high hardness. It is not easy to wrinkle. When personalizing the clothes, it is not necessary to remove the wrinkles. The fabrics of silk and other materials are relatively soft, and their softness is relatively high, that is, the hardness is relatively low, and they are easy to wrinkle. When clothing is personalized, wrinkle removal is required. For furry clothing such as wool and mink, the softness of the lining can be used as a basis for judgment. In addition, it is also possible to determine whether the clothes are easy to wrinkle based on the weight of the clothes alone. Generally speaking, heavier clothes are thicker and relatively less prone to wrinkling. When personalizing the clothes, it is not necessary to perform wrinkle removal , while lighter clothes are relatively thin and relatively easy to wrinkle. When personalizing the clothes, they need to be wrinkled. Of course, in order to further improve the accuracy of the judgment, it is also possible to judge whether the clothes are easy to wrinkle according to the softness of the clothes and the weight of the clothes at the same time, for example, when the softness of the clothes is greater than the preset softness and the weight of the clothes is less than the preset weight , the clothes are wrinkled, and when the softness of the clothes is less than the preset softness or the weight of the clothes is greater than the preset weight, the clothes are not wrinkled. Those skilled in the art can flexibly set the specific values of the preset softness and preset weight in practical applications, and the specific values can be obtained according to experiments or experience. In addition, other methods can be used to determine whether the clothes are easy to wrinkle, such as adding a wrinkle-prone standard to the label of the clothes, and then setting the RFID identification module on the washer-dryer to identify the clothes tags to obtain the wrinkle standards of the clothes , so as to determine whether the clothes are easy to wrinkle.

Preferably, the laundry treatment method of the present invention further includes: during the process of performing the personalized laundry treatment step, rotating the inner cylinder, through such a control method, it can be ensured that the laundry treatment agent dispersed by the atomizing head can be evenly attached and Penetrates onto constantly turned laundry. In practical applications, the inner cylinder can be rotated within a set rotational speed, for example, 40 to 80 rpm. Of course, the specific values of the above rotational speeds are only exemplary and do not constitute a limitation to the present invention.

Preferably, before the step of "obtaining the material and/or type of the clothes", the clothes treatment method of the present invention further includes: drying the clothes. That is, the drying fan and the dehumidification heating device are turned on, and the clothes are dried and pretreated for a period of time to ensure that the moisture on the clothes is removed. In a preferred situation, the above-mentioned step of "drying the clothes" includes: drying the clothes and ensuring that the temperature in the outer cylinder reaches the set temperature, that is, before performing the personalized clothes treatment step on the clothes, First determine whether the temperature in the outer cylinder has reached the set temperature, and if it reaches the set temperature, proceed to the subsequent personalized clothing processing steps; The temperature rises until the set temperature is reached. The set temperature can be determined according to the material and/or type of the clothes, that is, each material and/or type of clothes has a corresponding set temperature, for example, the set temperature of the clothes made of leather is 56°C, For clothes, the set temperature is 60°C. The principle of setting the above set temperature needs to ensure that the temperature will not damage the clothes of this material. In practical applications, the temperature in the outer cylinder can be determined by detecting the temperature of the air outlet of the drying air duct, or the temperature in the outer cylinder can be determined by detecting the temperature of the air inlet of the drying air duct.

Preferably, the laundry treatment method of the present invention further includes: performing a drying operation on the laundry during the individualized laundry treatment step. That is, when the atomizing head sprays the corresponding laundry treatment agent on the clothes, it can be supplemented with a drying operation, so as to ensure the penetration effect of the laundry treatment agent. The clothes may be dried while the atomizing head is spraying, or the clothes may be dried after the atomizing head is spraying. At the same time, the drying operation of the clothes is guaranteed to last for a set time. The set time can also be determined according to the material and/or type of the clothes, that is, each material and/or type of clothes has a corresponding set time. Of course, a common time length can also be set to reduce the complexity of the logic design, for example, the set time is all set to 5 minutes.

When it is the turn of the corresponding atomizing head 4 to spray the laundry treatment agent contained therein to the clothes, the atomization head 4 can be kept open until all the laundry treatment agent is sprayed. 4. Open for a fixed period of time, or a corresponding time according to the material and/or type of the clothes. In addition, the atomizing head 4 can also be opened at intervals, that is, opened and closed multiple times.

Preferably, as shown in FIGS. 1 , 2 , 4 and 7 , the window mat 2 is provided with a base 5 , and the ultrasonic nebulizer 3 is detachably provided on the base 5 . The base 5 can be made of a flexible material, such as the same or similar material as the window pad 2, such as rubber material, etc. Of course, the base 5 is preferably made of a hard material, such as hard plastic or metal, so as to facilitate The ultrasonic nebulizer 3 is not easy to move when it is repeatedly installed and disassembled, and it also prevents the deformation of the base 5 after a long period of use. The ultrasonic nebulizer 3 can be connected to the base 5 by means of screw connection, can also be connected by connection methods such as plug-in, card connection, bonding or magnetic adsorption, or can be connected by a combination of the above-mentioned connection methods. Personnel can set this flexibly.

Preferably, as shown in FIG. 4 , an insertion cavity 51 is formed on the base 5 , and the shell of the ultrasonic nebulizer 3 can be inserted into the insertion cavity 51 in a plug-in manner. In actual use, the user can insert the shell of the ultrasonic nebulizer 3 into the insertion cavity 51 of the base 5 after the liquid injection into the atomizing head 4 is completed, so as to realize the installation. The shell of the carburetor 3 is disassembled from the insertion cavity 51 of the base 5 .

In a preferred situation, a first guide structure is formed on the base 5, a second guide structure is formed on the housing, and the first guide structure and the second guide structure guide and cooperate so that the housing can be guided into the insertion cavity 51 . Wherein, the first guide structure and the second guide structure can adopt the guide cooperation mode of the guide groove and the guide bar, or adopt the guide cooperation mode of the guide slope, and the guide slope can be a straight slope or an arc slope. Optionally, as shown in FIGS. 4 to 6, the first guide structure includes a first slope 52 and a second slope 53 formed on the inner wall of the base 5, the first slope 52 and the second slope 53 are oppositely arranged, and the second guide The structure includes a third slope 31 and a fourth slope 32 formed on both sides of the outer wall of the housing, the first slope 52 guides and fits with the third slope 31, the second slope 53 guides and fits with the fourth slope 32, the first slope 52 and the second slope The slopes 53 are all inclined outwards, that is, the distance between the first slope 52 and the second slope 53 gradually decreases along the insertion direction of the ultrasonic nebulizer 3, the third slope 31 is adapted to the first slope 52, and the fourth The slope 32 is compatible with the second slope 53 , and in this embodiment, the first slope 52 , the second slope 53 , the third slope 31 and the fourth slope 32 are all preferably arc-shaped slopes.

In a preferred situation, a first positioning structure is formed on the base 5, a second positioning structure is formed on the housing, and the first positioning structure is positioned and matched with the second positioning structure. Wherein, the positioning cooperation mode of the first positioning structure and the second positioning structure can adopt the cooperation mode of the positioning column and the positioning hole, can also adopt the cooperation mode of the positioning protrusion and the positioning groove, and can also adopt the mutual cooperation mode of the positioning stopper , those skilled in the art can flexibly set this.

Of course, as an alternative, in addition to the above-mentioned mutual positioning and cooperation between the base 5 and the ultrasonic nebulizer 3 , a mutual positioning and cooperation between the driver and the housing of the ultrasonic nebulizer 3 may also be adopted. The driver can be wired or wireless. Specifically, the driver is arranged on the base 5 , a first positioning structure is formed on the driver, a second positioning structure is formed on the casing, and the first positioning structure and the second positioning structure are positioned and matched. Optionally, the driver is arranged outside the insertion cavity 51, the first positioning structure includes at least one positioning post formed on the driver, the second positioning structure includes at least one positioning hole formed on the housing, the positioning post and the positioning hole are one by one Corresponding to the positioning fit, a passing structure is formed on the base 5 to allow the positioning column to pass through. There can be one or more positioning columns, and correspondingly, there can be one or more positioning holes. For example, the number of positioning posts and positioning holes is two, and the passing structure can be a through hole that allows the positioning posts to pass through. The diameter of the through hole can be greater than or equal to the outer diameter of the positioning posts. When there are multiple positioning posts, it can By setting the passing structure as a through opening, multiple positioning posts are allowed to pass through one through opening at the same time.

Preferably, as shown in Figures 2 to 4 and 7, the driver is a wireless driver 6, the wireless driver 6 has one of the primary coil and the secondary coil, and the ultrasonic nebulizer 3 has the other of the primary coil and the secondary coil, When the ultrasonic nebulizer 3 is inserted into the insertion cavity 51 , the primary coil is coupled with the secondary coil. The wireless driver 6 may include a housing and a driving board, the housing is fixed on the base 5, the driving board is arranged in the housing, and a circuit system is integrated in the driving board, and the circuit system can make the ultrasonic atomizing sheet resonate at high frequency. The primary coil can be set on the drive board, and the secondary coil can be set on the ultrasonic nebulizer 3. When the ultrasonic nebulizer 3 is installed in the insertion cavity 51 of the base 5, the primary coil and the secondary coil are coupled to realize the drive plate. powered by. Of course, as an alternative, it is also possible that the secondary coil can be disposed on the driving board, and the primary coil can be disposed on the ultrasonic nebulizer 3 .

Preferably, at least one of the base 5 and the ultrasonic atomizer 3 is provided with a magnetic attraction structure, and the base 5 and the ultrasonic atomizer 3 are connected through the magnetic attraction structure. In practical applications, a magnetic attraction structure can be provided on both the base 5 and the ultrasonic atomizer 3, so that the magnetic attraction structure can be used to realize the attraction between the ultrasonic atomizer 3 and the base 5, for example, between the ultrasonic atomizer 3 and the ultrasonic atomizer 3. A first permanent magnet and a second permanent magnet with different magnetic properties are arranged on the base 5 respectively, and the ultrasonic atomizer 3 and the base 5 are attracted by the first permanent magnet and the second permanent magnet. A permanent magnet is set on the base 5, and the shell of the ultrasonic atomizer 3 is set as a metal shell, and the ultrasonic atomizer 3 is connected to the base 5 through the attraction of the permanent magnet to the metal. In addition, the base can also be 5 is set as a metal base 5, and the permanent magnet is set on the ultrasonic nebulizer 3.

In a preferred embodiment, as shown in FIGS. 2 to 7 , the housing of the base 5 and the ultrasonic nebulizer 3 pass through the first slope 52 , the second slope 53 , the third slope 31 and the fourth slope 32 Guided cooperation is carried out, and two magnetic suction positioning heads 7 are arranged on the driver at the same time, and two positioning counterbores 8 are formed on the shell of the ultrasonic atomizer 3, and the magnetic suction positioning heads 7 correspond to the positioning counterbores 8 one by one and mutually Positioning fit, the shell of the ultrasonic atomizer 3 can be a metal shell that allows magnetic attraction or a magnetic member that is attracted to the magnetic positioning head 7 in the positioning counterbore 8 or an attracted member that allows magnetic attraction, In this way, the magnetic positioning head 7 can not only position the ultrasonic nebulizer 3 , but also magnetically attract the ultrasonic nebulizer 3 . During actual installation, the guidance of the ultrasonic nebulizer 3 is realized through the guiding cooperation of the first bevel 52, the second bevel 53, the third bevel 31 and the fourth bevel 32, which facilitates the positioning counterbore on the shell of the ultrasonic nebulizer 3 8 is accurately docked with the magnetic positioning head 7 to achieve positioning, and then the magnetic effect of the magnetic positioning head 7 is used to realize the suction connection to the ultrasonic atomizer 3 .

Preferably, the ultrasonic atomizer 3 is arranged on the top of the window pad 2, so as to facilitate the spraying of water mist from the top of the window pad 2 to the clothing, and realize the full coverage of the clothing as much as possible. In a preferred situation, the ultrasonic mist The carburetor 3 is located in the angle range between the 60° leftward deflection and the 60° rightward deflection of the vertical plane where the axis of the window mat 2 is located, that is, when viewed along the outer cylinder to the direction of the window mat 2, the window mat can be observed 2, the window pad 2 is in the shape of a ring as a whole, and the window pad 2 is observed in a clockwise manner, and the vertical plane where the axis of the window pad 2 is located by the ultrasonic nebulizer 3 deflects 60° to the left and 60° to the right The angle range between means that the ultrasonic atomizer 3 is installed on the window pad 2 within the clock range from 10 o'clock to 14 o'clock. In another preferred situation, all the atomizing heads 4 are arranged towards the inside of the inner cylinder, and the directions of all the atomizing heads 4 are arranged at an angle of 60° to 120° compared to the vertical downward direction Within the range, that is, when the all-in-one washing and drying machine is placed on a horizontal ground, the vertical downward is the direction perpendicular to the ground. Compared with the angle range of 60° to 120° vertically downward, when the orientation of the atomizing head 4 is at the limit position of 120° upward, the water mist sprayed by the atomizing head 4 can evenly fall from above the clothes to For clothing, when the orientation of the atomizing head 4 is at the limit position of 60° upwards, the water mist sprayed by the atomizing head 4 can be sprayed onto the clothing from the front of the clothing. After repeated experiments, comparisons and analyzes by the inventors, the position setting of the above-mentioned ultrasonic atomizer 3 and the angle setting of all atomizing heads 4 can ensure that the water mist is evenly sprayed on the clothes, and the effect of covering and penetrating the clothes optimal.

The technical solution of the present invention will be further described below in conjunction with two specific clothing treatment methods of leather clothing and silk clothing, and the heating element in the drying air duct will be described by taking a drying heating pipe as an example.

As shown in Figure 8, the processing of leather clothing includes a drying process and a personalized clothing processing process. The personalized clothing processing process includes a maintenance process and an aromatherapy process. The ultrasonic atomizer has at least two atomizing heads 4, one The atomizing head 4 holds the maintenance liquid, and one atomizing head 4 holds the perfume.

First of all, the program starts, first turn on the drying fan, and rotate the inner cylinder at a speed of 40 to 80rpm to determine whether the temperature of the air outlet of the drying duct reaches 56°C, if not, turn on the drying heating pipe until the temperature reaches 56°C 56°C, turn off the drying heating tube and drying fan, make the first atomizing head of the ultrasonic atomizer spray the maintenance liquid on the clothes for 2 minutes, then turn on the drying fan and drying heating tube again, and determine whether the drying heating time is If it reaches 5 minutes, accumulate the number of maintenance treatments once, and judge whether the accumulated number of maintenance treatments reaches 3 times. If not, repeat the above maintenance treatment steps until the times reach 3 times, and then turn off the oven. Drying fan, complete the maintenance, spray perfume on the clothes through the second atomizing head of the ultrasonic atomizer for 2 to 5 minutes, then turn on the drying fan again to determine whether the drying and heating time reaches 5 minutes, if it reaches 5 minutes, stop the inner cylinder Turn on and turn off the drying fan, complete the aroma enhancement, and the program ends.

As shown in Figure 9, the treatment of silk clothing includes a drying process and a personalized clothing treatment process. The personalized clothing treatment process includes a wrinkle removal process, a maintenance process, and an aromatherapy process. The ultrasonic atomizer has at least three atomization Head 4, one atomizing head 4 holds water, one atomizing head 4 holds maintenance liquid, and one atomizing head 4 holds perfume.

First of all, the program starts, first turn on the drying fan, and rotate the inner cylinder at a speed of 40 to 80rpm to determine whether the temperature of the air outlet of the drying duct reaches 60°C, if not, turn on the drying heating pipe until the temperature reaches 60°C 60°C, turn off the drying heating tube and drying fan, make the first atomizing head of the ultrasonic atomizer spray water on the clothes for 3 minutes and make the second atomizing head spray perfume on the clothes for 2 minutes, then turn on the drying fan and drying machine again. Dry the heating tube, determine whether the drying and heating time reaches 5 minutes, if it reaches 5 minutes, turn off the drying heating tube and the drying fan to complete the wrinkle removal, and then spray the maintenance liquid on the clothes through the third atomizing head of the ultrasonic atomizer 3 minutes, then turn on the drying fan again to determine whether the drying time has reached 5 minutes, if it reaches 5 minutes, then turn off the drying fan to complete the silk maintenance, and then spray perfume on the clothes through the second atomizing head of the ultrasonic atomizer for 2 to After 5 minutes, turn on the drying fan again to determine whether the drying and heating time has reached 5 minutes. If it reaches 5 minutes, stop the inner cylinder and turn off the drying fan to complete the fragrance increase and the program ends. In the above, by performing fragrance-enhancing pretreatment on the clothes during the wrinkle-removing process, the fragrance-enhancing effect of the aromatherapy treatment process can be improved.

It should be noted that those skilled in the art can flexibly set the number of atomizing heads of the ultrasonic atomizer 3 according to the specific procedures of the washing and drying machine, as long as it can meet the personalized clothing treatment that requires the largest number of atomizing heads. For example, one kind of personalized clothing processing needs 4 atomizing heads, and the other two kinds of personalized clothing processing need 2 atomizing heads and 3 atomizing heads, so that the number of atomizing heads of the ultrasonic atomizer 3 is 4, When performing personalized laundry treatment requiring 2 atomizing heads and 3 atomizing heads, it is allowed to have the atomizing heads vacant.

So far, the technical solutions of the present invention have been described in conjunction with the preferred embodiments shown in the accompanying drawings, but those skilled in the art will easily understand that the protection scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principles of the present invention, those skilled in the art can make equivalent changes or substitutions to relevant technical features, and the technical solutions after these changes or substitutions will all fall within the protection scope of the present invention.

Claims (10)

A method for treating clothes of a clothes treatment device, the clothes treatment device comprising a connected clothes treatment cylinder and a window pad, characterized in that the clothes treatment device further includes The ultrasonic atomizer, the ultrasonic atomizer has a plurality of atomizing heads independent of each other, and the plurality of atomizing heads can respectively accommodate the same or different laundry treatment agents; The laundry treatment method includes: Obtain the material and/or type of clothing; According to the material and/or type of the clothes, the multiple atomizing heads are made to perform a personalized clothes treatment step of spraying alternately, spraying simultaneously or spraying sequentially. The clothes processing method according to claim 1, characterized in that, when the material of the clothes is a material with a softness greater than a preset softness and/or the weight of the clothes is less than a preset weight, the personalized clothes The processing step includes a wrinkle removal step. The method for treating clothes according to claim 1, characterized in that, when the material of the clothes is a material with a softness less than a preset softness and/or the weight of the clothes is greater than a preset weight, the personalized clothes The processing step does not include a wrinkle removal step. The laundry treatment method according to claim 1, further comprising: During the execution of the individualized laundry treatment step, the laundry treatment drum is rotated. The laundry processing method according to claim 1, wherein the laundry processing equipment includes a drying system, the drying system can dry the laundry in the laundry processing cylinder, and in the process of "obtaining the material of the laundry and Before the step of "/or type", the laundry processing method also includes: Dry clothes. The laundry treatment method according to claim 5, further comprising: During the process of performing the individualized laundry treatment step, the laundry is dried. The laundry processing method according to claim 6, characterized in that the step of "drying the laundry during the process of performing the personalized laundry processing step" specifically includes: While the spraying operation is performed by the atomizing head, the drying operation is performed on the clothes. The laundry processing method according to claim 6, characterized in that the step of "drying the laundry during the process of performing the personalized laundry processing step" specifically includes: After the spraying operation is performed by the atomizing head, the drying operation is performed on the clothes. The laundry processing method according to claim 6, wherein the step of "drying the laundry" comprises: The laundry is dried for the set time. The laundry treatment method according to any one of claims 5 to 9, wherein the step of "drying the laundry" comprises: Perform drying treatment on the clothes and ensure that the temperature in the clothes processing cylinder reaches the set temperature.

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