CN219218483U - Clothes nursing cabinet - Google Patents

Abstract

The utility model discloses a clothes care cabinet, which comprises a care cabinet shell, a care cavity, a first channel, a second channel and a moisture transfer piece. The nursing chamber is used for storing clothes to be nursed; two ends of the first channel are communicated with the nursing cavity, one end of the first channel is an air inlet, and the other end of the first channel is an air outlet; 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; the moisture transport member has an adsorption zone in communication with the first channel; 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. The adsorption zone adsorbs moisture in the first channel, the desorption zone receives the moisture absorbed by the adsorption zone and discharges the moisture through the air outlet of the second channel, and the technical problems of poor dehumidification effect and long drying time of the clothes care cabinet in the prior art are solved.

Description

Clothes nursing cabinet

Technical Field

The utility model belongs to the field of clothes care, and particularly relates to a clothes care cabinet.

Background

The clothes care machine is a device for treating peculiar smell, wrinkles or moisture on clothes by applying steam or hot air to the clothes, and the clothes care device can automatically iron and fast dry the freely hung clothes, can avoid new wrinkles on the clothes, saves time and labor, is convenient and fast, and therefore, generally enters families.

At present, most of clothes care equipment adopts a hot air circulation system to care clothes so as to realize the effects of drying, deodorizing and the like. The hot air circulation system generally comprises an air channel, a fan and a dehumidifying and heating device, wherein the fan and the dehumidifying and heating device are arranged in the air channel, air enters the air channel from a return air inlet of the air channel under the action of the fan, dehumidifies and heats the air through the dehumidifying and heating device, and then is discharged from an air outlet of the air channel to the cabinet body of the clothes care equipment to care clothes. The dehumidifying and heating device of the hot air circulation system in the prior art generally uses a heat exchange mode to dehumidify and heat the humid gas; however, when the air in the air duct is large, the effects of dehumidification and heating are greatly reduced, so that the nursing effect of clothes is affected, mould is generated in clothes nursing equipment, and the clothes have peculiar smell; and there are problems of long drying time and high cost, especially in the later drying stage, the air quantity in the drying channel is large but the water vapor concentration is low, and long drying time is required.

The present utility model has been made in view of this.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and aims to provide a clothes care cabinet, wherein an adsorption area and a desorption area are arranged on a moisture transfer piece, so that the adsorption area adsorbs moisture in a first channel, the desorption area receives the moisture absorbed by the adsorption area and discharges the moisture through an air outlet of a second channel, the mildewed odor of a care cavity is avoided, and the technical problems of poor dehumidification effect and long drying time of the clothes care cabinet in the prior art are solved.

Solves the technical problems of poor dehumidification effect and long drying time of the clothes nursing cabinet in the prior art.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that: a laundry 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.

According to the clothes care cabinet, the adsorption area and the desorption area are formed in the moisture transfer piece, moisture exhausted from the nursing cavity in the first channel is adsorbed through the adsorption area, the desorption area receives the moisture absorbed by the adsorption area and is exhausted through the air outlet of the second channel, so that the air with large air quantity and low concentration of water vapor can be concentrated into the air with small air quantity and high concentration of water vapor, the moisture in the clothes care cabinet is prevented from breeding peculiar smell and bacterial mildew, the investment and the operation cost of the clothes care cabinet are reduced, the treatment efficiency of moisture removal is improved, and the drying efficiency of the nursing cavity is further improved.

Further, 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.

Further, the cooling unit includes: 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.

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

Further, 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.

Further, a second heating unit is arranged on the second channel and is arranged on the air inlet side of the desorption zone and used for heating the desorption zone;

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.

Further, the moisture transfer member comprises a rotating wheel which can circularly rotate between the adsorption area and the desorption area, moisture in the first channel is adsorbed from the adsorption area, and the moisture is separated from the desorption area and discharged through the second channel.

Further, the moisture transfer piece also comprises a shell, wherein a separation part is arranged in the shell, and the inside of the shell is separated into an adsorption area and a desorption area through the separation part;

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.

Further, a first inlet and a first outlet which are communicated with the adsorption zone are arranged on the shell and are respectively communicated with the first channel;

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.

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

By adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects.

(1) According to the clothes care cabinet, the adsorption area and the desorption area are formed in the moisture transfer piece, moisture exhausted from the nursing cavity in the first channel is adsorbed through the adsorption area, the desorption area receives the moisture absorbed by the adsorption area and is exhausted through the air outlet of the second channel, so that the air with large air quantity and low concentration of water vapor can be concentrated into the air with small air quantity and high concentration of water vapor, the moisture in the clothes care cabinet is prevented from breeding peculiar smell and bacterial mildew, the investment and the operation cost of the clothes care cabinet are reduced, the treatment efficiency of moisture removal is improved, and the drying efficiency of the nursing cavity is further improved.

(2) According to the utility model, the front cooling device is arranged on the air inlet side of the adsorption zone, so that the moisture in the first channel is dehumidified firstly, and then passes through the adsorption zone and the desorption zone of the moisture transport piece to dehumidify the moisture again, so that the moisture is further ensured to be converted into dry gas; and set up first heating unit in the air-out side of adsorption area, further guaranteed to let in nursing cavity gaseous desiccation, further improved the drying efficiency who washes nursing cavity.

(3) The moisture transfer piece comprises a rotatable rotating wheel, moisture in a first channel is absorbed by an adsorption area of the rotating wheel, and then dry air is circulated back into a nursing cavity to play a role of drying the nursing cavity, when the rotating wheel rotates to a desorption area, the moisture is transferred to the desorption area, and air entering a second channel takes away and discharges the moisture, so that the moisture in the second channel is treated, the moisture is discharged, and the problems of moisture breeding peculiar smell and bacterial mould in a clothes nursing cabinet are prevented; then cooling the rotating wheel through the post-cooling device, reducing the temperature of the rotating wheel, improving the effect of re-adsorbing moisture in the adsorption area by the rotating wheel, thereby reducing the investment and operation cost of equipment, improving the treatment efficiency of moisture removal, and improving the drying efficiency of the nursing chamber.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. It is evident that the drawings in the following description are only examples, from which other drawings can be obtained by a person skilled in the art without the inventive effort. In the drawings:

FIG. 1 is a schematic view of a clothes care cabinet of the present utility model;

FIG. 2 is a schematic view of a clothes care cabinet of the present utility model;

FIG. 3 is a schematic view of a clothes care cabinet of the present utility model;

FIG. 4 is a schematic view of a clothes care cabinet of the present utility model;

FIG. 5 is a schematic view of a clothes care cabinet of the present utility model;

fig. 6 is a schematic view of a clothes care cabinet of the present utility model.

Wherein: 1. a nursing cabinet housing; 2. a care chamber; 3. a first channel; 31. a cooling unit; 311. a front cooling device; 312. a post-cooling device; 32. a first heating unit; 33. a circulating fan; 34. a reflux fan; 4. a second channel; 41. a second heating unit; 42. a regenerating fan; 5. a moisture transport member; 51. an adsorption zone; 52. a desorption zone; 53. a transmission mechanism; 54. a motor; 6. a lint filter.

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

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model, but are not intended to limit the scope of the present utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Example 1

As shown in fig. 1, a clothes care cabinet according to the present embodiment includes a care cabinet housing 1, a care chamber 2, a first passage 3, a second passage 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 nursed.

The two ends of the first channel 3 are communicated 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 for guiding the moisture in the nursing chamber 2 into the first channel 3; the other end of the first channel 3 is an air outlet, and the other end of the first channel 3 is used for guiding 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 transport member 5 communicates with the first and second passages 3, 4, respectively. The moisture transport member 5 is used for transporting moisture in the first channel 3 into the second channel 4.

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

The adsorption zone 51 communicates with the first channel 3, and the adsorption zone 51 is used for adsorbing the moisture discharged from the nursing chamber 2.

The desorption area 52 is communicated with the second channel 4, and the desorption area 52 is used for receiving the moisture adsorbed in the adsorption area 51 and discharging along with an air outlet of the second channel 4.

The clothing nursing cabinet of this embodiment is through setting up adsorption area 51, desorption area 52 at moisture transfer piece 5, adsorb nursing cavity 2 exhaust moisture in the first passageway 3 through adsorption area 51, desorption area 52 receives adsorption area 51 absorbing moisture, and through the air outlet exhaust of second passageway 4, can concentrate the gas of big amount of wind, low concentration steam into the gas of little amount of wind, high concentration steam, prevent inside moist peculiar smell and the bacterial mould of breeding of clothing nursing cabinet, reduce the input and the running cost of clothing nursing cabinet, improve the treatment effeciency that the moisture got rid of, thereby improve the drying efficiency of nursing cavity 2.

In one embodiment, the air inlet of the second channel 4 is communicated with the outlet of the desorption area 52 (not shown in the figure), and the air outlet of the second channel 4 is communicated with the outside of the nursing cabinet housing 1.

In another embodiment, as shown in fig. 1 to 6, the air inlet and the air outlet of the second channel 4 are both communicated with the outside of the nursing cabinet housing 1, and the desorption area 52 is communicated in the second channel 4. The air inlet and/or the air outlet of the second channel 4 may be communicated with the outside of the nursing cabinet housing 1, or may be arranged outside the nursing chamber 2 of the nursing cabinet housing 1.

In yet another embodiment, the air inlet of the second channel 4 is communicated with the first channel 3 (not shown in the figure) at the air outlet side of the adsorption zone 51, and the air outlet of the second channel 4 is communicated with the outside of the nursing cabinet housing 1. The communication position between the air inlet of the second channel 4 and the first channel 3 on the air outlet side of the adsorption area 51 is provided with a valve for controlling the communication or closing.

In addition, a circulating fan 33 is disposed on the first channel 3. The circulating fan 33 is arranged on the air inlet side of the adsorption zone 51.

Further, a second heating unit 41 and a regeneration fan 42 are disposed on the second channel 4.

The second heating unit 41 is disposed on the air intake side of the desorption region 52. The second heating unit 41 is used for heating the desorption region 52.

The regeneration fan 42 is disposed on the air outlet side of the desorption region 52, and the regeneration fan 42 is configured to discharge the moisture in the desorption region 52.

In this embodiment, the second heating unit 41 is disposed 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 kept in a high-temperature state, thereby ensuring that the desorption zone 52 can continuously receive the moisture adsorbed in the adsorption zone 51, and improving the working efficiency of the desorption zone 52; in addition, a regeneration fan 42 is disposed on the air outlet side of the desorption region 52, so that a small portion of the regeneration air is circulated, and the moisture in the desorption region 52 is discharged from the air outlet of the second channel 4.

Further, the moisture transport member 5 includes a wheel (not shown in the drawings). The rotating wheel can circularly rotate between the adsorption area 51 and the desorption area 52, moisture in the first channel 3 is adsorbed in the adsorption area 51, separated from the desorption area 52 and discharged through the second channel 4.

The clothing nursing cabinet of this embodiment sets up the runner in the first passageway 3 of connecting nursing cavity 2, utilizes the runner in the adsorption zone 51 to absorb nursing cavity 2 exhaust moisture, and most hydrone is adsorbed by the runner, then in nursing cavity 2 is gone back to the air cycle with the drying, plays the effect of dry nursing cavity 2, when transporting moisture to desorption zone 52 through runner rotation, utilizes the wind in the second passageway 4 to take away the discharge, handles the moisture in the second passageway 4, and the moisture realizes the dehumidification, prevents that inside moisture of clothing nursing cabinet from breeding the problem of peculiar smell and bacterial mould.

The concentration of moisture desorbed from the desorption region 52 may be N times the intake moisture concentration of the adsorption region 51. Wherein N is more than 1 and less than 200.

The rotating wheel is provided with a low-temperature moisture absorption and high-temperature dehumidification material.

The rotating wheel has larger specific surface area, various pore structures, pore size distribution and rich surface properties, and has stronger adsorption capacity on water vapor.

Further, the moisture transport member 5 further includes a housing (not shown in the drawings). A partition is provided in the casing, and the inside of the casing is partitioned into an adsorption zone 51 and a desorption zone 52 by the partition.

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

Preferably, the rotating wheel is in dynamic sealing connection with the shell.

In a specific embodiment, the moisture transporting member 5 is provided with an adsorption area 51 and a desorption area 52 in sequence along the circumferential direction to form a plurality of sector areas, and the angle of the sector area where the adsorption area 51 is located is larger than that of the sector area where the desorption area 52 is located.

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

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

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

Specifically, the transmission mechanism 53 is respectively connected with the rotating wheel and the motor 54, and the transmission mechanism 53 is used for driving the rotating wheel to rotate. The motor 54 is used to power the wheel rotation.

It should be noted that, the rotating wheel may adopt a mode that the motor 54 drives the transmission mechanism 53 to drive the rotating wheel to rotate; or the motor 54 can directly drive the rotating wheel to rotate; the motor 54 and the rotating wheel belt can also be driven; the motor 54 may also be a gear driving wheel with a gear structure to rotate.

The rotating wheel is at least partially made of low-temperature moisture-absorbing and high-temperature moisture-removing materials and is of a porous structure. The porous structure of the runner is arranged opposite to the adsorption zone 51 and the desorption zone 52.

Further, a first inlet and a first outlet which are communicated with the adsorption zone 51 are arranged on the shell, and the first inlet and the first outlet are respectively communicated with the first channel 3.

A second inlet and a second outlet are provided in the housing in communication with the desorption zone 52, which second inlet and second outlet are in communication with the second channel 4, respectively.

The second outlet is communicated with the external atmosphere of the nursing cabinet shell 1 or is communicated with the nursing cabinet shell 1 and the nursing cavity 2, and is used for air inlet and air outlet in the second channel 4.

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

Zeolite wheel (zeolite AmBpO2 p.nh 2O), which is an aluminosilicate mineral containing alkali or alkaline earth elements, the crystal structure of which is usually connected into a rack-like nanocrystalline structure by silicon oxygen tetrahedron and aluminum oxygen tetrahedron, forming cavities of different shapes and sizes, and being capable of selectively adsorbing and filtering nonpolar/polar molecules having smaller molecular sizes than the pore channels. When the humidity is too high, the zeolite can absorb moisture through numerous fine pores on the surface; when the environment is dry, moisture can be released again to keep moist. In addition, in the process of changing the environmental humidity, the temperature is naturally changed and adjusted along with the humidity.

Silica gel wheel (silica gel (mSiO2.nH2O), aliased silicic acid gel.

Activated alumina wheel (activated alumina, english name is Activatedalumina) with chemical formula of Al2O3.

The rotating wheels have the characteristics of low temperature moisture absorption and high Wen Tuoshi.

Example two

As shown in fig. 2, this embodiment is further defined based on the first embodiment, and includes the structure of the first embodiment, and the first heating unit 32 is further disposed on the first channel 3.

The first heating unit 32 is disposed at the air outlet side of the adsorption zone 51, and the first heating unit 32 is configured to heat the air in the first channel 3.

The embodiment is provided with the first heating unit 32 on the first channel 3, and the air in the first channel 3 is heated by the first heating unit 32, so that the dryness of the air in the nursing chamber 2 is ensured, and the condition that moisture enters the nursing chamber 2 to cause the inside of the clothes nursing cabinet to be moist and breed peculiar smell and bacterial and mould is avoided.

Example III

As shown in fig. 3, this embodiment is further defined based on the second embodiment, and includes a cooling unit 31 provided in the first passage 3 in this embodiment in addition to the structure of the second embodiment. The cooling unit 31 is used for cooling the moisture transporting member 5. The cooling device is disposed on the air outlet side of the adsorption zone 51.

The embodiment is provided with the cooling unit 31 on the first channel 3, and the cooling unit 31 is used for cooling the adsorption area 51 of the moisture transfer member 5, so as to reduce the temperature of the rotating wheel, improve the effect of the rotating wheel in the adsorption area 51 for re-adsorbing moisture, obviously reduce the investment and operation cost of the clothes care cabinet, and obviously improve the treatment efficiency of moisture removal and the drying efficiency of the care chamber 2.

Example IV

As shown in fig. 4, this embodiment is further defined based on the second embodiment, and includes a cooling unit 31 provided in the first passage 3 in this embodiment in addition to the structure of the second embodiment. The cooling unit 31 is configured to dehumidify the air in the first channel 3 or cool the moisture transporting member 5.

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

In a specific embodiment, the front cooling device 311 is disposed on the air inlet side of the adsorption zone 51, and the front cooling device 311 is used for dehumidifying the air in the first channel 3.

The post-cooling device 312 is disposed on the air outlet side of the adsorption zone 51, and the post-cooling device 312 is configured to cool the moisture transport member 5.

In this embodiment, the front cooling device 311 is disposed on the air inlet side of the adsorption area 51, so that the moisture in the first channel 3 is dehumidified, and then passes through the adsorption area 51 and the desorption area 52 of the moisture transport member 5 to dehumidify the moisture again, so that the moisture is further ensured to be converted into dry gas; and the first heating unit 32 is arranged at the air outlet side of the adsorption zone 51, so that the dryness of the air introduced into the nursing chamber 2 is further ensured, and the drying efficiency of the nursing chamber 2 is further improved.

Specifically, the front cooling device 311 is provided at the air intake port of the first passage 3.

The dehumidifying capacity of the front cooling device 311 is smaller than that of the adsorption zone 51. The front cooling device 311 and the rear cooling device 312 may be water cooling devices, semiconductor refrigerating devices, evaporators of compressors, and the like.

In another embodiment, the rear cooling device 312 is arranged in the care cabinet housing 1, and the air outlet side of the rear cooling device 312 is arranged toward the adsorption zone 51 of the moisture transport element 5. The first heating unit 32 is disposed at the air outlet side of the adsorption zone 51.

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

When the post-cooling device 312 is disposed on the air outlet side of the adsorption zone 51, the post-cooling device 312 may cool the moisture transporting member 5 and dehumidify the air passing through the post-cooling device 312; or only the moisture transporting member 5 may be subjected to a temperature lowering treatment.

Example five

As shown in fig. 5, this embodiment is further defined based on the above-described fourth embodiment, and the circulation fan 33 in this embodiment is disposed between the front cooling device 311 and the adsorption zone 51, except for including the structure according to the above-described fourth embodiment.

The first channel 3 in this embodiment is further provided with a backflow fan 34. The reflux fan 34 is disposed at the air outlet side of the first heating unit 32.

According to the embodiment, the circulating fan 33 is arranged between the front cooling device 311 and the adsorption area 51, and the reflux fan 34 is arranged on the air outlet side of the first heating unit 32, so that moisture in the nursing chamber 2 is continuously led into the first channel 3, the moisture in the nursing chamber 2 is converted into dry gas, and the dry gas is led into the nursing chamber 2, the technical problems that air wind force blown out from the air outlet is weak and cannot completely fill the cabinet body are solved, and the nursing effect of clothes is ensured.

Specifically, the circulating fan 33 is disposed on the air intake side of the adsorption zone 51. The reflux fan 34 is arranged on the air outlet of the first channel 3.

Example six

This embodiment is further defined based on any one of the first to fifth embodiments described above.

As shown in fig. 6, this embodiment is based on the first embodiment, and the laundry care cabinet of this embodiment further includes a humidity sensor and a lint filter 6 in addition to the structure of the first embodiment. The humidity sensor is arranged in the care chamber 2 or the first channel 3 for detecting the humidity of the air. Based on the detected humidity, the nursing chamber 2 is controlled to dehumidify.

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

The nursing chamber 2 is provided with a vent (not shown in the figure) which communicates with the air inlet of the first channel 3 for introducing moisture in the nursing chamber 2 into the first channel 3.

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

In this embodiment, the lint filter 6 is disposed in the care chamber 2, and the air introduced into the first channel 3 is filtered by the lint filter 6, so that the lint is prevented from entering the moisture transport member 5, and the adsorption area 51 and/or the desorption area 52 are prevented from being blocked.

Example seven

This embodiment is further defined based on any one of the above-described embodiments one to six.

A hanging structure (not shown in the figure) is arranged in the nursing chamber 2 of the present application, and is used for hanging clothes to be nursed or a partition plate (not shown in the figure) is arranged in the nursing chamber 2, and the clothes to be nursed can be placed on the partition plate.

The both ends of suspended structure are connected with the both sides wall of nursing cavity 2, can hang the clothing, and suspended structure one end in this application rotatable fixed is on the lateral wall of nursing cavity 2, and the other end telescopic can dismantle with the lateral wall of nursing cavity 2 and be connected for extension is fixed in nursing cavity 2 when using, shortens rotatory folding when not using on the lateral wall of nursing cavity 2. The fixing mode of the hanging structure in the nursing chamber 2 is not limited in the application, and the hanging structure can be arranged in the nursing chamber 2 in an up-and-down moving mode and used for clothes with different sizes.

In this application, a door structure (not shown) is provided on the top or side wall of the nursing chamber 2, and the nursing chamber 2 may be opened to place clothes into the nursing chamber 2 or take clothes out of the nursing chamber 2.

The door body structure can be arranged in a single opening mode or a double opening mode. The laundry in the care chamber 2 can be taken out when opened and the care chamber 2 is sealed when closed. The utility model discloses a can set up seal structure in the opening and closing department of door body structure and nursing cavity 2, improve the dehumidification drying effect of nursing cavity 2.

The foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited to the above-mentioned embodiment, but is not limited to the above-mentioned embodiment, and any simple modification, equivalent change and modification made by the technical matter of the present utility model can be further combined or replaced by the equivalent embodiment without departing from the scope of the technical solution of the present utility model.

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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