CN219218483U - A clothes care cabinet - Google Patents

Abstract

The utility model discloses a clothes nursing cabinet, which comprises a nursing cabinet shell, a nursing chamber, a first passage, a second passage and a moisture transfer piece. The nursing chamber is used to store clothes to be cared for; both ends of the first channel communicate with the nursing chamber, one end is an air inlet, and the other end is an air outlet; one end of the second channel is an air inlet , the other end is an air outlet; the moisture transfer member communicates with the first channel and the second channel respectively; the moisture transfer member has an adsorption area, which communicates with the first channel; a desorption area, communicates with the The second passage is connected to receive the moisture adsorbed in the adsorption area and be discharged along with the air outlet of the second passage. The adsorption area of the utility model absorbs the moisture in the first channel, and the desorption area receives the moisture absorbed by the adsorption area and discharges it through the air outlet of the second channel, which solves the problem of poor dehumidification effect of the clothes care cabinet in the prior art, Technical problem with long drying times.

Description

A clothes care cabinet

technical field

The utility model belongs to the field of clothes care, in particular to a clothes care cabinet.

Background technique

Clothes care machine is a device that applies water vapor or hot air to clothes to deal with odors, wrinkles or moisture on clothes. Clothes care equipment can automatically iron and dry clothes hanging freely, which can avoid new wrinkles on clothes , save time and effort, convenient and fast, so it has generally entered the family.

At present, most of the clothing care equipment adopts a hot air circulation system to care for the clothes, so as to achieve effects such as drying and deodorization. The hot air circulation system generally includes an air duct, a fan and a dehumidification heating device arranged in the air duct. Drain back into the cabinet of the clothes care equipment to care for the clothes. The dehumidification and heating device of the hot air circulation system in the prior art usually uses heat exchange to dehumidify and heat the humid gas; however, when the air in the air duct is large, the effect of dehumidification and heating will be greatly reduced, thus affecting the clothing. Nursing effect, resulting in mold in the clothing care equipment, making the clothes smelly; and there are problems of long drying time and high cost, especially in the later stage of drying, the air volume in the drying channel is large but the water vapor concentration is low, which requires a long drying time time.

In view of this, the utility model is proposed.

Utility model content

The technical problem to be solved by the utility model is to overcome the deficiencies of the prior art, and the purpose is to provide a clothes care cabinet. By setting an adsorption area and a desorption area on the moisture transfer part, the adsorption area can absorb the moisture in the first channel , The desorption area receives the moisture absorbed by the adsorption area, and discharges it through the air outlet of the second channel, avoiding the moldy smell in the nursing chamber, and solving the technical problems of poor dehumidification effect and long drying time in the clothing care cabinet in the prior art.

The invention solves the technical problems of poor dehumidification effect and long drying time in the clothes care cabinet in the prior art.

In order to solve the above technical problems, the basic idea of the technical solution adopted by the utility model is: a clothes care cabinet, comprising:

Nursing cabinet shell;

Nursing chamber, set in the housing of the nursing cabinet, for storing clothes to be nursed;

The first channel, both ends communicate with the nursing chamber, one end is an air inlet for introducing the moisture in the nursing chamber into the first channel, and the other end is an air outlet for introducing dry air into the nursing chamber ;

The second channel has an air inlet at one end and an air outlet at the other end;

a moisture transfer member, which is respectively communicated with the first channel and the second channel, and is used to transfer the moisture in the first channel to the second channel;

The moisture transporter has:

an adsorption area, communicated with the first channel, for absorbing the moisture discharged from the nursing chamber;

The desorption area communicates with the second channel, and is used to receive the moisture adsorbed in the adsorption area and discharge it along with the air outlet of the second channel.

The clothes care cabinet of the present utility model is provided with an adsorption area and a desorption area on the moisture transfer part, through which the moisture discharged from the nursing chamber in the first passage is adsorbed by the adsorption area, and the moisture absorbed by the adsorption area is received by the desorption area, and passed through The air outlet of the second channel can condense the gas with large air volume and low concentration of water vapor into gas with small air volume and high concentration of water vapor, preventing the inside of the clothing care cabinet from being damp and breeding odors and bacteria and mold, and reducing the input and operating costs of the clothing care cabinet , improve the treatment efficiency of moisture removal, thereby increasing the drying efficiency of the care chamber.

Further, the first channel is provided with: a cooling unit for dehumidifying the air in the first channel or cooling the moisture transfer member;

The first heating unit is arranged on the air outlet side of the adsorption zone, and is used to heat the air in the first channel.

Further, the cooling unit includes: a front cooling device, arranged on the air intake side of the adsorption area, for dehumidifying the air in the first channel;

The post-cooling device is arranged on the air outlet side of the adsorption zone, and is used for cooling down the moisture transfer element.

Further, the first heating unit is arranged on the air outlet side of the after-cooling device.

Further, the first channel is also provided with: a circulation fan, arranged between the front cooling device and the adsorption area,

The return fan is arranged on the air outlet side of the first heating unit.

Further, the second channel is provided with a second heating unit, which is arranged on the air inlet side of the desorption zone, and is used to heat the desorption zone;

The regeneration blower is arranged on the air outlet side of the desorption area, and is used to discharge the moisture in the desorption area.

Further, the moisture transfer member includes a rotating wheel, which can rotate circularly between the adsorption zone and the desorption zone, and the rotary wheel absorbs the moisture in the first channel from the adsorption zone. The desorption zone is detached and discharged through the second channel.

Further, the moisture transporter also includes a casing, and a partition is provided in the casing, and the casing is divided into an adsorption area and a desorption area by the partition;

The rotating wheel is rotatably supported in the casing, and the rotating wheel is sequentially rotatably arranged in the adsorption area and the desorption area.

Further, the housing is provided with a first inlet and a first outlet communicating with the adsorption area, and respectively communicating with the first channel;

The housing is provided with a second inlet and a second outlet communicating with the desorption zone, respectively communicating with the second channel.

Further, the runner is a zeolite runner, a silica gel runner, a graphene runner or an activated alumina runner.

After adopting the above technical solution, the utility model has the following beneficial effects compared with the prior art.

(1) The clothes care cabinet of the present utility model is provided with an adsorption area and a desorption area on the moisture transfer part, through which the moisture discharged from the nursing chamber in the first channel is adsorbed by the adsorption area, and the desorption area receives the moisture absorbed by the adsorption area , and discharged through the air outlet of the second channel, it can condense the gas with large air volume and low concentration of water vapor into gas with small air volume and high concentration of water vapor, preventing the inside of the clothing care cabinet from being damp and breeding odors and bacteria and mold, and reducing the investment in clothing care cabinets And operating costs, improve the processing efficiency of moisture removal, thereby improving the drying efficiency of the care chamber.

(2) The utility model first dehumidifies the moisture in the first channel by setting a front cooling device on the air inlet side of the adsorption area, and then passes through the adsorption area and the desorption area of the moisture transfer part , to dehumidify the moisture again, further ensuring that the moisture is converted into dry gas; and setting a first heating unit on the air outlet side of the adsorption area, further ensuring the dryness of the gas passing into the nursing chamber, and further Improve the drying efficiency of the wash care chamber.

(3) The moisture transfer part of the present utility model includes a rotatable runner, which absorbs the moisture in the first channel by using the adsorption area of the runner, and then circulates the dry air back into the nursing chamber to play a role in drying the nursing chamber. The function of the chamber is that when the runner rotates to the desorption area, the moisture is transferred to the desorption area, and the intake air of the second channel will take away the moisture and discharge it, so as to process the moisture in the second channel, realize dehumidification, and prevent clothes The problem of odor and bacteria and mold caused by humidity inside the nursing cabinet; then the cooling device is used to cool the runner to reduce the temperature of the runner and improve the effect of the runner re-adsorbing moisture in the adsorption area, thereby reducing equipment investment and operation cost, improve the process efficiency of moisture removal, and thus improve the drying efficiency of the care chamber.

Below in conjunction with accompanying drawing, the specific embodiment of the utility model is described in further detail.

Description of drawings

The accompanying drawings, as a part of the utility model, are used to provide a further understanding of the utility model, and the schematic embodiments of the utility model and their descriptions are used to explain the utility model, but do not constitute improper limitations to the utility model. Apparently, the drawings in the following description are only some embodiments, and those skilled in the art can obtain other drawings according to these drawings without creative efforts. In the attached picture:

Fig. 1 is a schematic diagram of a clothes care cabinet of the present invention;

Fig. 2 is a schematic diagram of a clothes care cabinet of the present invention;

Fig. 3 is a schematic diagram of a clothes care cabinet of the present invention;

Fig. 4 is a schematic diagram of a clothes care cabinet of the present invention;

Fig. 5 is a schematic diagram of a clothes care cabinet of the present invention;

Fig. 6 is a schematic diagram of a clothes care cabinet of the present invention.

Among them: 1. Nursing cabinet shell; 2. Nursing chamber; 3. First channel; 31. Cooling unit; 311. Front cooling device; 312. Rear cooling device; 32. First heating unit; 33. Circulating fan; 34. Return fan; 4. Second channel; 41. Second heating unit; 42. Regeneration fan; 5. Moisture transfer piece; 51. Adsorption area; 52. Desorption area; 53. Transmission mechanism; 6. Lint filter.

It should be noted that these drawings and text descriptions are not intended to limit the scope of the invention in any way, but illustrate the concept of the invention for those skilled in the art by referring to specific embodiments.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. The following embodiments are used for illustration The utility model, but not used to limit the scope of the utility model.

In the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer" The orientation or positional relationship indicated by etc. is based on the orientation or positional relationship shown in the drawings, which is only for the convenience of describing the utility model and simplifying the description, rather than indicating or implying that the device or element referred to must have a specific orientation, use a specific The azimuth structure and operation, therefore can not be construed as the limitation of the present utility model.

In the description of the present utility model, it should be noted that, unless otherwise clearly stipulated and limited, the terms "installation", "connection" and "connection" should be understood in a broad sense, for example, it can be a fixed connection or a flexible connection. Detachable connection, or integral connection; it can be mechanical connection or electrical connection; it can be direct connection or indirect connection through an intermediary. Those of ordinary skill in the art can understand the specific meanings of the above terms in the present utility model in specific situations.

Embodiment one

As shown in FIG. 1 , a clothes care cabinet according to this embodiment includes a care cabinet housing 1 , a care chamber 2 , a first channel 3 , a second channel 4 and a moisture transfer member 5 .

The nursing chamber 2 is arranged in the nursing cabinet shell 1, and the nursing chamber 2 is used for storing clothes to be cared for.

Both ends of the first channel 3 communicate with the nursing chamber 2 . One end of the first channel 3 is an air inlet, and one end of the first channel 3 is used to introduce the moisture in the nursing chamber 2 into the first channel 3; the other end of the first channel 3 is an air outlet , the other end of the first channel 3 is used to introduce dry air into the nursing chamber 2 .

One end of the second channel 4 is an air inlet, and the other end of the second channel 4 is an air outlet.

The moisture transfer member 5 communicates with the first channel 3 and the second channel 4 respectively. The moisture transfer member 5 is used to transfer the moisture in the first channel 3 to the second channel 4 .

The moisture transport element 5 has an adsorption zone 51 and a desorption zone 52 .

The adsorption area 51 communicates with the first channel 3 , and the adsorption area 51 is used to absorb moisture discharged from the nursing chamber 2 .

The desorption area 52 communicates with the second channel 4 , and the desorption area 52 is used to receive the moisture adsorbed in the adsorption area 51 and discharge it along with the air outlet of the second channel 4 .

In the clothes care cabinet of this embodiment, an adsorption area 51 and a desorption area 52 are set on the moisture transfer member 5, and the moisture discharged from the nursing chamber 2 in the first channel 3 is adsorbed by the adsorption area 51, and the desorption area 52 receives the adsorption area. The moisture absorbed by the 51 is discharged through the air outlet of the second channel 4, which can condense the gas with a large air volume and low concentration of water vapor into a gas with a small air volume and high concentration of water vapor, preventing the inside of the clothes care cabinet from breeding odors and bacteria and mold. The input and operating costs of the clothes care cabinet are reduced, and the treatment efficiency of moisture removal is improved, thereby improving the drying efficiency of the care chamber 2 .

One embodiment is that the air inlet of the second channel 4 communicates with the outlet of the desorption zone 52 (not shown in the figure), and the air outlet of the second channel 4 communicates with the nursing cabinet housing 1 External connectivity.

Another embodiment is that, as shown in Figures 1 to 6, both the air inlet and the air outlet of the second channel 4 communicate with the outside of the nursing cabinet housing 1, and the desorption area 52 communicates with the outside of the nursing cabinet housing 1. Second channel 4. The air inlet and/or the air outlet of the second channel 4 may communicate with the outside of the nursing cabinet housing 1 , or be provided outside the nursing chamber 2 of the nursing cabinet housing 1 .

Another embodiment is that the air inlet of the second channel 4 communicates with the first channel 3 on the air outlet side of the adsorption area 51 (not shown in the figure), and the air outlet of the second channel 4 communicates with the air outlet of the adsorption area 51. The nursing cabinet housing 1 communicates with the outside. A valve is provided at the connection between the air inlet of the second passage 4 and the first passage 3 on the air outlet side of the adsorption area 51, for controlling the connection or closure.

In addition, a circulation fan 33 is provided on the first channel 3 . The circulation fan 33 is arranged on the air inlet side of the adsorption area 51 .

Further, the second channel 4 is provided with a second heating unit 41 and a regeneration blower 42 .

The second heating unit 41 is disposed on the air intake side of the desorption zone 52 . The second heating unit 41 is used to heat the desorption zone 52 .

The regeneration fan 42 is arranged on the air outlet side of the desorption area 52 , and the regeneration fan 42 is used to discharge the moisture in the desorption area 52 .

In this embodiment, a second heating unit 41 is arranged on the air inlet side of the desorption zone 52, and the desorption zone 52 is continuously heated by the second heating unit 41, so that the desorption zone 52 is maintained at a high temperature, thereby ensuring The desorption zone 52 can continuously receive the moisture adsorbed in the adsorption zone 51, which improves the working efficiency of the desorption zone 52; in addition, a regeneration fan 42 is set on the air outlet side of the desorption zone 52, so that A small part of the regeneration air is ventilated to discharge the moisture in the desorption zone 52 from the air outlet of the second channel 4 .

Further, the moisture transfer member 5 includes a rotating wheel (not shown in the figure). The runner can rotate cyclically between the adsorption zone 51 and the desorption zone 52, the runner absorbs the moisture in the first channel 3 from the adsorption zone 51, and desorbs the moisture in the desorption zone 52. , discharged through the second channel 4.

The clothes care cabinet of this embodiment is provided with a runner in the first channel 3 connected to the nursing chamber 2, and utilizes the runner in the adsorption area 51 to absorb the moisture discharged from the nursing chamber 2, and most of the water molecules are adsorbed by the runner , and then circulate the dry air back into the nursing chamber 2 to play the role of drying the nursing chamber 2. When the moisture is transferred to the desorption area 52 through the rotation of the runner, the wind belt in the second passage 4 is used to Drain out, deal with the moisture in the second channel 4, the moisture can be dehumidified, and prevent the problems of odor and bacteria and mold caused by humidity inside the clothes care cabinet.

The concentration of the moisture desorbed from the desorption zone 52 can reach N times the moisture concentration of the intake gas in the adsorption zone 51 . Wherein, 1<N<200.

The runner has a low-temperature moisture-absorbing high-temperature dehumidifying material.

The runner has a large specific surface area, various pore structures and pore size distributions, rich surface properties, and strong adsorption capacity for water vapor.

Further, the moisture transport member 5 also includes a casing (not shown in the figure). The casing is provided with a partition, and the casing is divided into an adsorption area 51 and a desorption area 52 by the partition.

The rotating wheel is rotatably supported in the casing, and the rotating wheel is sequentially rotatably arranged in the adsorption area 51 and the desorption area 52 .

Preferably, the runner is in dynamic and sealing connection with the housing.

A specific embodiment is that the moisture transfer member 5 is sequentially provided with an adsorption area 51 and a desorption area 52 along the circumferential direction to form a plurality of fan-shaped areas, and the angle of the fan-shaped area where the adsorption area 51 is located is larger than that of the desorption area 52 The angle of the fan-shaped area where it is located.

The positions of the adsorption area 51 and the desorption area 52 are fixed, and the runner rotates at a certain speed. The rotating speed of the runner is 0.01-60r/min. Preferably, the rotational speed of the runner is 0.02-10r/min.

Preferably, the angle of the adsorption zone 51 is a reflex angle, and the angle of the desorption zone 52 is an acute angle.

In addition, the moisture transfer member 5 further includes a transmission mechanism 53 and a motor 54 .

Specifically, the transmission mechanism 53 is connected to the runner and the motor 54 respectively, and the transmission mechanism 53 is used to drive the runner to rotate. The motor 54 is used to provide power for the rotation of the runner.

It should be noted that, the runner can use the motor 54 to drive the transmission mechanism 53 to drive the runner to rotate; it can also be the way that the motor 54 directly drives the runner to rotate; it can also be the motor 54 and the runner belt. The mode of transmission; It can also be the mode in which the motor 54 gear drives the runner with the gear structure to rotate.

The runner is at least partly made of low-temperature moisture-absorbing and high-temperature moisture-releasing material, and has a porous structure. The porous structure of the runner is set opposite to the adsorption zone 51 and the desorption zone 52 .

Further, the casing is provided with a first inlet and a first outlet communicating with the adsorption area 51 , and the first inlet and the first outlet are respectively communicating with the first channel 3 .

The housing is provided with a second inlet and a second outlet communicating with the desorption zone 52 , and the second inlet and outlet are respectively communicating with the second channel 4 .

The second outlet communicates with the outside atmosphere of the nursing cabinet housing 1, or communicates with the nursing cabinet housing 1 and the nursing chamber 2, and is used for the air in the second channel 4 to enter and exit. wind.

Further, the runner is a zeolite runner, a silica gel runner, a graphene runner or an activated alumina runner.

Zeolite runner (zeolite AmBpO2p nH2O), zeolite is an aluminosilicate mineral containing alkali metal or alkaline earth metal elements. Cavities with different shapes and sizes can selectively adsorb and filter non-polar/polar molecules whose molecular size is smaller than that of the pores. When the humidity is too high, zeolite can absorb moisture through countless tiny pores on the surface; when the environment is dry, it can release water to keep it moist. Moreover, in the process of changing the ambient humidity, the temperature will naturally change and adjust according to the humidity.

Silica gel runner (silica gel (mSiO2 nH2O), also known as silicic acid gel.

Activated alumina runner (activated alumina, the English name is Activatedalumina), the chemical formula is Al2O3.

The runners all have the characteristics of moisture absorption at low temperature and dehumidification at high temperature.

Embodiment two

As shown in Figure 2, this embodiment is further limited based on the above-mentioned first embodiment. In addition to the structure involved in the above-mentioned first embodiment, the first channel 3 in this embodiment is also provided The first heating unit 32 .

The first heating unit 32 is arranged on the air outlet side of the adsorption area 51 , and the first heating unit 32 is used for heating the air in the first channel 3 .

In this embodiment, a first heating unit 32 is provided on the first passage 3, and the air in the first passage 3 is heated by the first heating unit 32 to ensure that it enters the nursing chamber 2. The dryness of the air in the cabinet can prevent moisture from entering the nursing chamber 2, causing the inside of the clothing nursing cabinet to be damp and breed peculiar smell and bacteria and mold.

Embodiment three

As shown in Figure 3, this embodiment is further limited based on the above-mentioned second embodiment. In addition to the structure involved in the above-mentioned second embodiment, the first channel 3 in this embodiment is also provided with Cooling unit 31. The cooling unit 31 is used to lower the temperature of the moisture transfer member 5 . The cooling device is arranged on the air outlet side of the adsorption area 51 .

In this embodiment, a cooling unit 31 is provided on the first channel 3, and the cooling unit 31 is used to lower the temperature of the adsorption area 51 of the moisture transfer member 5, so as to reduce the temperature of the runner and improve The effect of the rotor re-adsorbing moisture in the adsorption area 51 can significantly reduce the investment and operating costs of the clothing care cabinet, and significantly improve the treatment efficiency of moisture removal and the drying efficiency of the care chamber 2 .

Embodiment Four

As shown in Figure 4, this embodiment is further defined based on the above-mentioned second embodiment. In addition to the structure involved in the above-mentioned second embodiment, the first channel 3 in this embodiment is also provided with Cooling unit 31. The cooling unit 31 is used to dehumidify the air in the first channel 3 or to lower the temperature of the moisture transfer member 5 .

The cooling unit 31 includes a front cooling device 311 and a rear cooling device 312 .

A specific implementation manner is that the front cooling device 311 is arranged on the air intake side of the adsorption area 51 , and the front cooling device 311 is used to dehumidify the air in the first channel 3 .

The post-cooling device 312 is arranged on the air outlet side of the adsorption area 51 , and the post-cooling device 312 is used for cooling the moisture transfer element 5 .

In this embodiment, by setting the front cooling device 311 on the air inlet side of the adsorption area 51, the moisture in the first channel 3 is dehumidified first, and then passes through the adsorption area 51 of the moisture transfer member 5, dehumidifies The attached area 52 dehumidifies the moisture again, further ensuring that the moisture is converted into a dry gas; and setting the first heating unit 32 on the air outlet side of the adsorption area 51, further ensuring that the air into the nursing chamber 2 The dryness of the gas further improves the drying efficiency of the washing and nursing chamber 2.

Specifically, the front cooling device 311 is arranged at the air inlet of the first channel 3 .

It should be noted that the dehumidification capacity of the front cooling device 311 is smaller than the dehumidification capacity of the adsorption area 51 . The front cooling device 311 and the rear cooling device 312 may be water cooling devices, semiconductor refrigeration devices, or evaporators of compressors, etc.

Another specific implementation manner is that the after-cooling device 312 is arranged in the nursing cabinet shell 1 , and the air outlet side of the after-cooling device 312 is arranged toward the adsorption area 51 of the moisture transfer member 5 . The first heating unit 32 is disposed on the air outlet side of the adsorption area 51 .

The technical solution adopted in this embodiment is that the after-cooling device 312 is arranged on the air outlet side of the adsorption zone 51 , and the first heating unit 32 is arranged on the air outlet side of the after-cooling device 312 .

It should be noted that, when the after-cooling device 312 is arranged on the air outlet side of the adsorption area 51, the after-cooling device 312 can perform cooling treatment on the moisture transfer member 5, and at the same time, the The air passing through the post-cooling device 312 is dehumidified; or only the moisture transfer element 5 is cooled.

Embodiment five

As shown in Figure 5, this embodiment is further defined based on the fourth embodiment above. In addition to the structure involved in the fourth embodiment above, the circulating fan 33 in this embodiment is set at the front between the cooling device 311 and the adsorption zone 51 .

In this embodiment, the first channel 3 is also provided with a return fan 34 . The return fan 34 is disposed on the air outlet side of the first heating unit 32 .

In this embodiment, a circulating fan 33 is arranged between the front cooling device 311 and the adsorption area 51, and a return fan 34 is arranged on the air outlet side of the first heating unit 32, so that the humidity in the nursing chamber 2 Air is continuously introduced into the first channel 3, and the moisture in the nursing chamber 2 is converted into dry gas, and then passed into the nursing chamber 2, which solves the problem that the air blown out from the air outlet is weak , the technical problem that the cabinet cannot be completely filled, thus ensuring the care effect of the clothes.

Specifically, the circulation fan 33 is arranged on the air intake side of the adsorption area 51 . The return fan 34 is arranged on the air outlet of the first channel 3 .

Embodiment six

This embodiment is further defined based on any one of the above-mentioned Embodiments 1 to 5.

As shown in FIG. 6 , this embodiment is based on Embodiment 1. In addition to the structure involved in the above-mentioned Embodiment 1, the clothes care cabinet in this embodiment further includes a humidity sensor and a lint filter 6 . The humidity sensor is arranged in the nursing chamber 2 or the first channel 3 for detecting air humidity. According to the detected humidity, the dehumidification of the nursing chamber 2 is controlled.

The lint filter 6 is arranged in the nursing chamber 2 or in the first channel 3 for filtering lint.

There is a vent (not shown in the figure) on the nursing chamber 2, and the vent is communicated with the air inlet of the first channel 3, and is used to introduce the moisture in the nursing chamber 2 into the first channel 3 in.

Preferably, the lint filter 6 is arranged on the vent.

In this embodiment, a lint filter 6 is set in the nursing chamber 2, and the air passing into the first channel 3 is filtered through the lint filter 6, so as to prevent the lint from entering the moisture transfer member 5, a situation occurs that causes the adsorption zone 51 and/or the desorption zone 52 to be clogged.

Embodiment seven

This embodiment is further defined based on any one of the foregoing embodiments 1 to 6.

The nursing chamber 2 of the present application is provided with a suspension structure (not shown in the figure), which is used to hang the clothes to be nursed or the nursing chamber 2 is provided with a dividing plate (not shown in the figure). Clothes can be placed on the divider.

The two ends of the suspension structure are connected to the side walls of the nursing chamber 2, and clothes can be hung. One end of the suspension structure in the present application can be rotatably fixed on the side wall of the nursing chamber 2, and the other end can be stretched and connected to the nursing chamber. The side wall of the chamber 2 is detachably connected, and is used to be extended and fixed in the nursing chamber 2 when in use, and shortened and rotated to be folded on the side wall of the nursing chamber 2 when not in use. In the present application, the fixing method of the suspension structure in the nursing chamber 2 is not limited, and it can also be moved up and down in the nursing chamber 2 for different sizes of clothes.

In the present application, a door body structure (not marked) is provided on the top or the side wall of the nursing chamber 2, the described nursing chamber 2 can be opened, and the clothes are placed in the nursing chamber 2 or removed from the nursing chamber. 2 out.

The door structure can be set as single or double opening. When it is opened, the clothes in the nursing chamber 2 can be taken out, and when it is closed, the nursing chamber 2 is sealed. In the present application, a sealing structure can be provided at the opening and closing of the door structure and the nursing chamber 2 to improve the dehumidification and drying effect of the nursing chamber 2 .

The above descriptions are only preferred embodiments of the present utility model, and do not limit the utility model in any form. Although the utility model has been disclosed as above with preferred embodiments, it is not intended to limit the utility model. Without departing from the scope of the technical solution of the present utility model, the technicians of this patent can use the technical content of the above-mentioned prompts to make some changes or modify them into equivalent embodiments with equivalent changes, and the implementations in the above-mentioned embodiments can also be further combined Or replace, but any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention, all still belong to the scope of the present invention.

Claims (10)

1. A garment care cabinet, comprising:

a nursing cabinet housing;

the nursing chamber is arranged in the nursing cabinet shell and is used for storing clothes to be nursed;

the first channel, both ends communicate with said nursing cavity, one end is the air inlet, is used for introducing the moisture in the nursing cavity into the first channel, another end is the air outlet, is used for introducing the dry air into the nursing cavity;

one end of the second channel is an air inlet, and the other end of the second channel is an air outlet;

the moisture transfer piece is communicated with the first channel and the second channel respectively and is used for transferring moisture in the first channel into the second channel;

the moisture transport member has:

an adsorption zone in communication with the first channel for adsorbing moisture exhausted from the care chamber;

and the desorption area is communicated with the second channel and is used for receiving the moisture adsorbed in the adsorption area and discharging along with an air outlet of the second channel.

2. A laundry care cabinet according to claim 1, characterized in that the first channel is provided with: the cooling unit is used for dehumidifying the air in the first channel or cooling the moisture transport piece;

the first heating unit is arranged on the air outlet side of the adsorption zone and is used for heating the air in the first channel.

3. A laundry care cabinet according to claim 2, characterized in that the cooling unit comprises: the front cooling device is arranged on the air inlet side of the adsorption zone and is used for dehumidifying the air in the first channel;

and the rear cooling device is arranged on the air outlet side of the adsorption area and is used for cooling the moisture transfer piece.

4. A laundry care cabinet according to claim 3, characterized in that the first heating unit is arranged at the air outlet side of the rear cooling device.

5. The clothes care cabinet of claim 4, wherein the first channel is further provided with: a circulating fan arranged between the front cooling device and the adsorption zone,

and the reflux fan is arranged on the air outlet side of the first heating unit.

6. The clothes care cabinet according to claim 1, wherein the second channel is provided with a second heating unit, and the second heating unit is arranged on the air inlet side of the desorption area and is used for heating the desorption area;

and the regeneration fan is arranged on the air outlet side of the desorption area and is used for discharging the moisture in the desorption area.

7. A laundry care cabinet according to any one of claims 1-6, wherein the moisture transporting member comprises a wheel which is rotatable cyclically between the adsorption zone and the desorption zone, the wheel being adapted to adsorb moisture from the adsorption zone in the first passage, to disengage from the desorption zone and to be discharged through the second passage.

8. The garment care cabinet of claim 7, wherein the moisture transport member further comprises a housing, wherein a partition is provided in the housing, and the housing is partitioned into an adsorption area and a desorption area by the partition;

the rotating wheel is rotatably supported in the shell, and the rotating wheel is sequentially rotatably arranged in the adsorption area and the desorption area.

9. The garment care cabinet of claim 8, wherein said housing is provided with a first inlet and a first outlet in communication with said adsorption zone, each in communication with said first passage;

the shell is provided with a second inlet and a second outlet which are communicated with the desorption area and are respectively communicated with the second channel.

10. The laundry care cabinet of claim 7, wherein the wheel is a zeolite wheel, a silica gel wheel, a graphene wheel, or an activated alumina wheel.

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