CN219908324U - Clothes steam nursing device - Google Patents

Abstract

The utility model discloses a clothes steam nursing device, which comprises: a vapor care chamber; one end of the first channel is provided with an air inlet for guiding air into the first channel, and the other end of the first channel is provided with an air outlet for discharging dry air; the air outlet of the second channel is communicated with the steam nursing chamber; the moisture transfer module is respectively communicated with the first channel and the second channel and transfers moisture in the first channel into the second channel; the moisture transfer module is provided with an adsorption area which is communicated with the first channel and is used for adsorbing moisture in the air in 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, guiding the moisture into the second channel and discharging the moisture into the steam nursing cavity through the air outlet of the second channel. According to the utility model, the moisture in the air can be utilized to carry out steam care on clothes through the moisture transfer module, a water source and a water tank are not required to be additionally arranged, and the cost is low.

Description

Clothes steam nursing device

Technical Field

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

Background

Currently, laundry steam care apparatuses perform ironing, deodorizing and/or drying processes on laundry by high-temperature steam, such as washing and drying integrated machines, clothes dryers, steam care cabinets, etc. When the clothes steam nursing is carried out, a water inlet valve is required to be arranged to be communicated with a steam generator, or a water storage box is required to be arranged to be communicated with the steam generator, steam is generated by the steam generator, a steam pipe is connected to a steam discharge end of the steam generator, and the steam pipe is communicated to the inside of a nursing cavity of the clothes steam nursing device to carry out steam nursing. However, the provision of a steam source is inconvenient because the user sometimes needs to manually add water to the water storage box or open the water inlet valve.

The steam discharge end of the steam generator is connected with the steam pipe, the steam pipe is communicated to the inside of the inner barrel, steam generated by the steam generator is favorably sprayed onto the dried clothes in the inner barrel, so that the effect of ironing the clothes by steam is achieved, and the wrinkles of the clothes are favorably reduced.

Chinese patent application number CN202110461252.4 discloses a clothes dryer comprising: a case; an evaporator for condensing steam generated by drying the dryer into condensed water; the base is provided with a water storage tank and a condensate tank, and the condensate tank is used for collecting condensate water; the water inlet end of the steam generator is communicated with the water storage tank, a partition plate is arranged between the water storage tank and the condensate tank, and a communication hole is formed in the partition plate to communicate the water storage tank with the condensate tank; the condensed water box is used for guiding condensed water to the water storage tank; the three-way pipe is arranged on the condensate water box and provided with: the water inlet is connected with a first water suction pump, and the first water suction pump is used for sucking condensed water into the water inlet; the first water outlet is communicated to a water storage box for collecting and storing condensed water; and a second water outlet connected to the condensate water box. The water source of the steam generator in the clothes dryer can be simultaneously from condensate water generated by self drying and manually added water, and meanwhile, the waterway system is simple in structure and low in cost. However, the clothes dryer needs to manually add water, is inconvenient to use, needs to additionally provide a water source and a condensed water box for containing the water source, is troublesome in structural arrangement, has a large volume, and needs to additionally occupy the space in the clothes dryer.

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 steam nursing device which can absorb moisture in external air through a moisture transfer module and transfer the moisture to a steam nursing cavity, so that the moisture in the external air can be utilized for steam nursing of clothes, a water tank is not required to be additionally arranged, and the cost is low.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that: there is provided a laundry vapor care device comprising:

a steam care chamber for steam care of laundry;

one end of the first channel is provided with an air inlet for guiding air into the first channel, and the other end of the first channel is provided with an air outlet for discharging dry air;

one end of the second channel is an air inlet; the other end is an air outlet which is communicated with the steam nursing chamber;

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

The adsorption area is communicated with the first channel and is used for adsorbing moisture in the air introduced into the first channel;

and the desorption area is communicated with the second channel and is used for receiving the moisture absorbed in the adsorption area and guiding the moisture into the second channel, and the moisture is discharged into the steam nursing cavity through the air outlet of the second channel.

Preferably, the air outlet of the first passage communicates with the external atmosphere for discharging the dry air into the external atmosphere.

Further, the method further comprises the following steps:

the two ends of the circulating channel are respectively communicated with the steam nursing chamber; a circulating fan is arranged in the circulating channel; the air outlet of the second channel is communicated with the circulating channel.

Further, the moisture transport module comprises,

the shell is internally provided with a containing cavity, the shell is provided with an air inlet and an air outlet which are respectively communicated with the first channel, the containing cavity comprises an adsorption area and a desorption area,

the rotating wheel is provided with a position which moves back and forth between the adsorption zone and the desorption zone, and rotates to the desorption zone to be separated after the adsorption zone adsorbs the moisture in the accommodating cavity; the second passage communicates with the desorption zone.

Further, one end of the second channel is arranged in the accommodating cavity and communicated with the desorption area, and the other end of the second channel penetrates through the outside of the shell and is communicated with the steam nursing cavity.

Further, a heating element is arranged in the second channel and is used for heating air in the desorption area;

and the fan is used for driving the hot and humid air in the second channel to flow outwards.

Further, one end of the second channel and the rotating wheel in the desorption area form dynamic seal, the heating element is arranged in one end of the second channel, and the other end of the second channel penetrates out of the shell.

Further, the air inlet is arranged on one side wall of the shell opposite to the rotating wheel, the air outlet is arranged on the peripheral wall of the shell in the circumferential direction of the rotating wheel, and the air inlet and the air outlet are arranged on two sides of the rotating wheel;

the second channel is arranged on one side wall of the shell, which is provided with the air inlet.

Further, the method further comprises the following steps:

the first channel, the second channel and the moisture transport module are disposed within the housing outside of the vapor care chamber.

Further, the moisture transport module further comprises:

the machine bin is arranged in the shell outside the steam nursing cavity, and is provided with an inlet and an outlet which are communicated with the external atmosphere and correspondingly communicated with the air inlet and the air outlet of the first channel;

the shell is arranged in the machine cabin, the inlet and the outlet are correspondingly communicated with the air inlet and the air outlet of the shell, and the second channel penetrates through the shell and the machine cabin.

Further, the inlet and the outlet are provided through the housing.

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

(1) According to the utility model, the air is guided into the adsorption area of the moisture transfer module through the moisture transfer module, the moisture in the air is adsorbed, then the moisture is transferred into the desorption area and separated into the second channel to obtain steam, the steam is guided into the steam care cavity to carry out steam care on clothes, and the moisture in the air is utilized without additional water source.

(2) The air outlet of the first channel is communicated with the external atmosphere, the dried air dehumidified in the adsorption zone is received and discharged to the outside of the clothes steam nursing device, so that the space outside the clothes steam nursing device can be dehumidified, and the clothes steam nursing device can be used as an indoor dehumidifier, is multipurpose, and has a simple structure and low cost.

(3) According to the utility model, the rotating wheel is rotatably arranged in the shell, and after the rotating wheel adsorbs the large-air-volume low-concentration humid air led in from the outside atmosphere in the adsorption zone, the rotating wheel rotates to the desorption zone to be separated and converted into the low-air-volume high-concentration vapor, and the vapor is discharged into the vapor nursing cavity through the second channel, so that a large amount of vapor can be generated to meet the needs of vapor nursing, and the nursing effect is good.

(4) According to the utility model, the heating element is arranged in the second channel, so that the air temperature in the desorption area can be increased by heating, the effect of desorbing the moisture of the rotating wheel in the desorption area into steam is enhanced, the steam can be heated to become high-temperature high-humidity steam, the temperature of the steam is increased, and the high-temperature steam in the second channel is led into the steam nursing cavity, so that the effect of clothes steam nursing is improved.

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 vapor care device of the present utility model;

FIG. 2 is a schematic view of another vapor care device of the present utility model;

FIG. 3 is a schematic cross-sectional view of a moisture transport module of the present utility model;

FIG. 4 is a schematic illustration of a rotor coupling to a drive module according to the present utility model.

Wherein: 1. a housing; 11. a laundry treating case; 12. a protective shell; 2. a vapor care chamber; 21. a steam inlet; 22. a steam outlet; 23. a hanging frame; 3. a moisture transport module; 31. a housing; 311. a receiving chamber; 3111. a first accommodation portion; 3112. a second accommodating portion; 312. an air inlet; 313. an air outlet; 314. a first fan; 315. a bearing; 32. a rotating wheel; 321. an annular wheel; 3211. gear teeth; 322. a support base; 3221. a shaft hole; 323. a rotating shaft; 33. a driving module; 331. a driving unit; 332. a speed reducing commutator; 333. a transmission gear; 334. a housing; 34. a machine cabin; 341. an inlet; 342. an outlet; 4. a first channel; 5. a second channel; 51. a heating member; 52. a second fan; 53. a first channel shell; 54. a second channel shell; 6. a circulation passage; 61. and a circulating fan.

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.

As shown in fig. 1 to 4, the present utility model provides a laundry steam care device for steam ironing and deodorizing laundry or drying laundry and ironing steam after drying the laundry.

The laundry vapor care device comprises a vapor care chamber 2, a first channel 4, a second channel 5 and a moisture transport module 3. The laundry is steam-treated in the steam-treating chamber 2.

One end of the first channel 4 is an air inlet for introducing air into the first channel 4. The other end of the first channel 4 is an air outlet for discharging the dry air. One end of the second channel 5 is an air inlet which is communicated with the moisture transfer module 3. The other end of the second channel 5 is an air outlet and is communicated with the steam nursing chamber 2. The moisture transfer module 3 is respectively communicated with the first channel 4 and the second channel 5 and is used for transferring moisture in the first channel 4 into the second channel 5.

The moisture transport module 3 has an adsorption zone and a desorption zone. The adsorption zone is communicated with the first channel 4 and is used for adsorbing moisture in the air introduced into the first channel 4. The desorption zone is in communication with the second passage 5 for receiving moisture adsorbed in the adsorption zone. The air inlet of the second channel 5 receives the high concentration moisture detached from the desorption zone and is discharged from the air outlet of the second channel 5 into the steam care chamber 2.

According to the utility model, through the arrangement in the moisture transfer module 3, air is guided into the adsorption area of the moisture transfer module 3 to adsorb moist gas in the air, then the moisture is transferred into the desorption area and separated into the second channel 5 to obtain steam, the steam is guided into the steam nursing chamber 2 to carry out steam nursing on clothes, and no additional water source is needed to be arranged by utilizing the moist gas in the air.

In the present utility model, one end of the first channel 4 is an air inlet communicated with the outside of the vapor care chamber 2, so as to guide air outside the vapor care chamber 2 into the first channel 4. The air outlet of the first channel 4 is communicated with the outside of the steam nursing chamber 2, and can be discharged to the outside atmosphere or other devices.

The air inlet of the first passage 4 may be in communication with the outside atmosphere or may be in communication with other devices to introduce outside air into the first passage 4. The air outlet of the first channel 4 can be communicated with the external atmosphere or other devices, and dehumidified air is discharged.

Preferably, the air inlet of the first passage 4 is in communication with the external atmosphere. The air outlet of the first channel 4 communicates with the outside atmosphere for conducting dry air out to the atmosphere outside the vapor care chamber 2.

The air outlet of the first channel 4 is communicated with the external atmosphere, the dried air dehumidified in the adsorption zone is received and discharged to the outside of the clothes steam nursing device, so that the space outside the clothes steam nursing device can be dehumidified, and the clothes steam nursing device can be used as an indoor dehumidifier, is multipurpose, and has a simple structure and low cost.

The moisture of the external atmosphere may be introduced from the inside of the laundry care appliance outside the steam care chamber 2 or from the outside of the laundry care appliance.

As shown in fig. 1 to 2, the laundry vapor care device may be a laundry treatment apparatus or a vapor care cabinet. Fig. 1 is a laundry treating apparatus including a drum assembly and a door. The steam care chamber 2 is an inner space of the cartridge assembly, and can dry laundry, and can iron and deodorize the laundry by using steam. The cartridge assembly includes an inner cartridge and an outer cartridge. Fig. 2 is a steam nursing cabinet, the steam nursing cabinet is internally provided with a steam nursing chamber 2, a hanging frame 23 is arranged in the steam nursing chamber 2, and clothes can be hung in the steam nursing chamber 2 for steam treatment. The present embodiment is not limited solely to the laundry treatment apparatus or the steam nursing cabinet.

Preferably, the laundry vapor care device further comprises a circulation passage 6. Both ends of the circulation channel 6 are respectively communicated with the steam nursing chamber 2. A circulating fan 61 is arranged in the circulating channel 6 to drive the air in the circulating channel 6 to flow. The air outlet of the second channel 5 is communicated with the circulation channel 6, and is used for guiding the moisture generated by the moisture transfer module 3 into the steam nursing chamber 2 through the circulation channel 6 for steam nursing, so that the steam can be recycled for ironing, deodorizing and/or drying clothes.

As shown in fig. 3 to 4, the moisture transport module 3 includes a housing 31 and a rotating wheel 32.

The housing 31 is internally provided with a containing cavity 311, the housing 31 is provided with an air inlet 312, and the air inlet 312 is used for guiding external moisture into the containing cavity 311. The housing 31 further has an air outlet 313, and the air outlet 313 is used for guiding out the drying air. The rotating wheel 32 is rotatably arranged in the accommodating cavity 311, the accommodating cavity 311 comprises an adsorption area and a desorption area, a position of the rotating wheel 32 moves back and forth between the adsorption area and the desorption area, and the rotating wheel 32 rotates to the desorption area to be separated after moisture in the accommodating cavity 311 is adsorbed in the adsorption area.

The air inlet of the second channel 5 is communicated with the desorption region, and receives the moisture (i.e., steam) detached from the rotor 32 in the desorption region.

According to the utility model, the rotating wheel 32 is rotatably arranged in the shell 31, and after the rotating wheel 32 adsorbs the large-air-volume low-concentration humid air introduced from the outside atmosphere in the adsorption zone, the large-air-volume low-concentration humid air is rotated to the desorption zone to be separated and converted into the low-air-volume high-concentration vapor, and the low-air-volume high-concentration vapor is discharged into the vapor nursing chamber 2 through the second channel 5, so that a large amount of vapor can be generated to meet the needs of vapor nursing, and the nursing effect is good.

The air inlet 312 and the air outlet 313 may be located on the same side of the wheel surface of the wheel 32, or may be located on two sides of the wheel surface of the wheel 32.

A bearing 315 is disposed on a side wall of the housing 31, the rotating wheel 32 is rotatably supported on the bearing 315 through a rotating shaft 323, and the air inlet 312 is disposed at an outer periphery of the bearing 315.

The wheel 32 comprises an annular wheel 321 and a support 322.

The annular wheel 321 is used for adsorbing or desorbing moisture. The annular wheel 321 has the characteristics of low-temperature moisture absorption and high-temperature moisture removal. The outer peripheral wall of the supporting seat 322 is connected with the inner ring side of the annular wheel 321, one end of the rotating shaft 323 is fixed on the supporting seat 322, and the other end of the rotating shaft 323 can rotate on a bearing 315 arranged in the housing 31.

The support base 322 is provided with a through shaft hole 3221 in an axial direction, and the rotating shaft 323 is fixed in the shaft hole 3221 in a penetrating manner.

The annular wheel 321 is formed by a honeycomb hole structure. Preferably, the annular wheel 321 is a zeolite wheel 32, and when the humidity is too high, the annular wheel 321 can absorb the humidity through numerous fine holes on the surface.

Preferably, a plurality of air inlets 312 are disposed on a side wall of the housing 31, and the plurality of air inlets 312 are disposed along a radial direction of the rotating wheel 32 at intervals, and/or the plurality of air inlets 312 are disposed along a circumferential direction of the rotating wheel 32 at intervals, so that the air inlets 312 and the supporting seat 322 are prevented from being disposed opposite to each other, and the moisture is prevented from being absorbed by the annular wheel 321.

The accommodating chamber 311 is provided with a first fan 314 for guiding dehumidified air out of the air outlet 313.

More preferably, the circulating fan 61 is disposed near the air outlet 313. An air outlet duct shell protruding outwards is arranged on the outer peripheral wall of the shell 31 and is used for drying air outside. The first fan 314 is disposed at a communication position between the housing 31 and the outlet duct housing.

Further, one end of the second channel 5 is disposed in the accommodating cavity 311 and is in communication with the desorption region. The other end of the second channel 5 is inserted into the outside of the housing 31 and is communicated with the steam nursing chamber 2, so that the steam generated by the moisture transfer module 3 is led into the steam nursing chamber 2.

A heating element 51 and a second fan 52 are arranged in the second channel 5. The heating element 51 is disposed in one end of the second channel 5, and is used for heating the temperature in the desorption zone, so as to improve the moisture desorption effect of the runner 32 in the desorption zone. The second fan 52 is disposed in the second channel 5, and is configured to drive air in the second channel 5 to flow to the outside.

According to the utility model, the heating piece 51 is arranged in the second channel 5, so that the air temperature in the desorption area can be increased, the effect of desorbing the moisture of the rotating wheel 32 into steam in the desorption area is enhanced, the steam can be heated to become high-temperature high-humidity steam, the temperature of the steam is increased, and the high-temperature steam in the second channel 5 is led into the steam nursing chamber 2, so that the effect of clothes steam nursing is improved.

Preferably, one end of the second channel 5 forms a dynamic seal with the rotating wheel 32 in the desorption area, and a separation device is not required to be arranged on the inner wall of the shell 31 to form the desorption area, so that the structure is simple and the volume is small. The heating element 51 and the second fan 52 are disposed in one end of the second channel 5, and the other end of the second channel 5 passes through the housing 31.

Specifically, the second channel 5 includes a first channel case 53 and a second channel case 54.

The first channel shell 53 is disposed in the accommodating cavity 311 and located on the other side of the rotating wheel 32. The first channel shell 53 has a closed end at one end and an outlet end disposed opposite the tread of the wheel 32. Preferably, the wheel surface is disposed adjacent to the wheel 32. The heating member 51 and the second fan 52 are disposed in the first passage housing 53.

The second channel shell 54 is located at one side of the rotating wheel 32, and one end of the second channel shell 54 is an inlet end and is opposite to the wheel surface of the rotating wheel 32. Preferably, the wheel surface is disposed adjacent to the wheel 32. The outlet end of the first passage housing 53 and the inlet end of the second passage housing 54 are in face-to-face sealing arrangement with a portion of the wheel 32. The other end of the second channel case 54 is an outlet end, penetrating the housing 31, for discharging moisture.

The desorption region is an area opposite between the air outlet of the first passage housing 53 and the air inlet of the second passage housing 54, and the adsorption region is another area outside this area and is located around the rotor 32.

Preferably, the heating element 51 is disposed at the outlet of the first passage housing 53, adjacent to the tread of the wheel 32. The second fan 52 is disposed within the closed end of the first channel shell 53.

Further, the accommodating cavity 311 includes a first accommodating portion 3111 and a second accommodating portion 3112 extending in sequence along an axial direction of the rotating wheel 32, and an inner diameter of the first accommodating portion 3111 is smaller than an inner diameter of the second accommodating portion 3112.

The rotating wheel 32 is rotatably arranged in the first accommodating portion 3111, the air inlet 312 is arranged on the side wall of the first accommodating portion 3111 where the rotating wheel 32 is supported, the air outlet 313 is arranged on the peripheral wall of the second accommodating portion 3112, and the second channel 5 penetrates through the side wall of the first accommodating portion 3111.

According to the utility model, the rotating wheel 32 is rotatably arranged in the first accommodating part 3111, the second channel 5 is arranged in the second accommodating part 3112, the air inlet 312 is arranged on the side wall of the rotating wheel 32 supported on the first accommodating part 3111, and the air outlet 313 is arranged on the peripheral wall of the second accommodating part 3112, so that the air entering the accommodating cavity 311 passes through the rotating wheel 32 to ensure the high efficiency of moisture absorption of the rotating wheel 32. The rotating wheel 32 is rotatably installed in the first accommodating part 3111, and under the condition that the rotating shaft 323 is worn, the opening of the first accommodating part 3111 still can limit the outer edge of the rotating wheel 32, so that coaxial operation is realized, and the rotating wheel 32 still can keep rotating to play a dehumidifying role.

Preferably, the first accommodating part 3111 has a concave cavity shape. The first channel shell 53 is disposed in the second accommodating portion 3112, and the second channel shell 54 is disposed through a bottom wall of the cavity of the first accommodating portion 3111.

The moisture transport member further comprises a drive module 33, the drive module 33 being in driving connection with the periphery of the wheel 32 for driving the wheel 32 to rotate within the housing 31.

The drive module 33 includes a transmission gear 333 and a drive unit 331. The wheel 32 has teeth 3211 on its outer periphery.

The transmission gear 333 is in meshed transmission connection with the gear teeth 3211. The driving unit 331 is in driving connection with the driving gear 333 via a driving shaft, and is configured to drive the rotating wheel 32 to rotate via the driving gear 333.

Preferably, the driving unit 331 is a motor.

The driving module 33 further includes a casing 334, which is disposed outside the casing 31 to form a sealed cavity, and the driving unit 331 is disposed inside the casing 334, so as to avoid the driving unit 331 from being wetted, and realize normal and high-reliability operation of the driving unit 331 under the condition of high temperature and high humidity. The transmission gear 333 is disposed in the first accommodating portion 3111, and the transmission shaft is disposed through the housing 31 to the first accommodating portion 3111 and is located on the outer periphery of the gear teeth 3211 of the annular wheel 321.

The driving unit 331 is covered outside the shell 31, so that the driving unit 331 can be prevented from being in a humid environment in the accommodating cavity 311 for a long time, the driving unit 331 is prevented from being damaged, and wires for externally connecting the driving unit 331 are convenient.

The cover 334 is fastened to the outer peripheral edge of the first accommodating portion 3111. The cover 334 extends from the outer peripheral edge of the first accommodating portion 3111 to the outer periphery of the second accommodating portion 3112 along the radial direction of the rotor 32, and extends outward in the circumferential direction of the first accommodating portion 3111.

The cover 334 is provided on one end of the housing 31 in the second passage 5, and is provided on the outer peripheral side of the second passage 5.

The driving module 33 further comprises a supporting frame for fixing the driving unit 331 and the transmission gear 333. One end of the supporting frame is disposed in the casing 334, and the other end of the supporting frame penetrates the housing 31 into the first accommodating portion 3111.

A through hole is formed in a side wall of the other side of the housing 31, and the through hole is formed in an outer peripheral edge of the first accommodating portion 3111. The support frame is arranged through the through hole.

The output shaft of the drive unit 331 is disposed to extend in the radial direction of the rotor 32. The driving module 33 includes a speed reducing commutator 332, wherein the speed reducing commutator is in transmission connection with an output shaft of the driving unit 331, the output shaft of the speed reducing commutator is in transmission connection with the commutator, and the transmission shaft is connected between an output end of the commutator and the transmission gear 333. The decelerator and the commutator are disposed within the housing 334.

The support frame includes first board, second board, the third board that connects gradually. The first plate extends from the outside to the inside along the radial direction in the housing 334, the second plate extends from the first plate along the axial direction to the direction close to the housing 31 in the housing 334, and the third plate extends from the second plate to the middle of the first accommodating portion 3111 and penetrates the through hole into the housing 31.

The transmission gear 333 is fixed on a third plate located in the housing 31, the transmission shaft penetrates through the third plate, and the commutator is disposed on a side wall of the second plate far away from the first plate. The speed reducer is arranged on one side of the second plate, which is close to the first plate. The driving unit 331 is fixed to the first plate and is disposed on the same side as the decelerator.

Further, the air inlet 312 is disposed on a side wall of the housing 31 opposite to the rotating wheel 32, the air outlet 313 is disposed on an outer peripheral wall of the housing 31 in the circumferential direction of the rotating wheel 32, and the air inlet 312 and the air outlet 313 are disposed on two sides of the rotating wheel 32. The second channel 5 is disposed through a side wall of the housing 31 having the air inlet 312.

According to the utility model, the air inlet 312 and the air outlet 313 are arranged on the shell 31 on two opposite sides of the rotating wheel 32, and the moisture entering the accommodating cavity 311 is dehumidified more thoroughly by the rotating wheel 32 and then dried air is discharged, so that the dehumidifying effect is better, one end of the second channel 5 is arranged in the accommodating cavity 311 and communicated with the desorption region, and can receive the moisture separated from the rotating wheel 32 in the desorption region, and a separation device is not required to be arranged on the inner wall of the shell 31 to seal the desorption region, so that the moisture transfer member has the advantages of simple internal structure, compact internal space, small occupied space and low production cost. The household appliance washing and protecting device can be suitable for household appliance washing and protecting devices which occupy small space in the home of a user and are required to be compact in structure.

As shown in fig. 1 to 2, the laundry vapor care device further includes a cabinet 1.

The first channel 4, the second channel 5, the circulation channel 6 and the moisture transport module 3 are arranged in the housing 1 outside the steam care chamber 2.

In actual use, the cabin 34 may be provided, or the cabin 34 may not be provided, and the air inlet 312 of the housing 31 is directly connected to the external atmosphere through a pipeline.

Preferably, the moisture transfer module 3 further comprises a cabin 34.

The cabinet 34 is disposed in the housing 1 outside the vapor care chamber 2. The cabin 34 is provided with an inlet 341 and an outlet 342 which are communicated with the external atmosphere, and the inlet 341 is connected with the air inlet of the first channel 4 and is used for guiding the external atmosphere into the first channel 4. The outlet 342 is correspondingly communicated with the air outlet of the first channel 4, and is used for guiding the dehumidified air to the external atmosphere.

The housing 31 is disposed in the cabin 34, and the inlet 341 and the outlet 342 are correspondingly communicated with the air inlet 312 and the air outlet 313 of the housing 31, so that the external atmosphere is led into the housing 31 to absorb moisture and the dehumidified air in the housing 31 is led back into the external atmosphere. The second channel 5 penetrates the housing 31 and the cabin 34, is communicated with the circulation channel 6, and guides the steam into the steam nursing chamber 2.

The inlet 341 is used for air intake from the outside of the clothes steam nursing device to the inside of the machine cabin 34, enters the accommodating cavity 311 in the shell 31 through the air inlet 312 of the shell 31, dehumidifies through the rotating wheel 32, and is sequentially discharged to the outside of the clothes steam nursing device from the air outlet 313 and the outlet 342 of the shell 31; the rotating wheel 32 rotates to the desorption area after absorbing moisture, and the absorbed moisture is separated to become steam with high moisture concentration, and the steam is led into the steam nursing chamber 2 from the second channel 5 for steam nursing.

Further, the inlet 341 and the outlet 342 are provided through the casing 1.

As shown in fig. 1, when the laundry vapor care device is a laundry treatment apparatus. The cabinet 1 includes a laundry treating case 11 and a protective case 12. The steam care chamber 2 is provided in the laundry treatment housing 11, and the protective case 12 is provided on the laundry treatment housing 11. The cabin 34 is disposed within the protective shell 12.

Preferably, the protective shell 12 is fastened on the rear wall of the clothes treating shell 11 to form a cavity, and the cabin 34 is arranged in the cavity. More preferably, the cabin 34 is disposed near the rear wall of the protective shell 12, and the inlet 341 and the outlet 342 are disposed through the protective shell 12 and the cabin 34.

As shown in fig. 2, when the laundry vapor care device is a vapor care cabinet. The steam nursing cabinet further comprises an inner container arranged inside the shell 1, and the steam nursing chamber 2 is formed inside the inner container. A cabin 34 is formed between the inner container and the casing 1, and the casing 31 is disposed in the cabin 34.

Preferably, the inner container is provided with a steam inlet 21 and a steam outlet 22, and the first channel 4 is formed between the steam inlet 21 and the steam outlet 22. Moisture enters the inner container from the steam inlet 21 through the air outlet of the second channel 5 to steam care clothes, and then enters the first channel 4 from the steam outlet 22 to circularly flow.

The cabin 34 is arranged in the casing 1 below the liner, and the steam inlet 21 and the steam outlet 22 are arranged at the lower part of the interior.

The inner container is also provided with a hanging frame 23 which can hang clothes on a clothes hanger for steam nursing. The hanging frame 23 is arranged at the upper part in the inner container.

Further, the rotor 32 is provided with a low temperature hygroscopic and high temperature dehumidifying material.

The rotating wheel 32 has larger specific surface area, various pore structures and pore size distribution and rich surface properties, and has stronger adsorption capacity on water vapor.

The positions of the adsorption area and the desorption area are fixed, and the rotating wheel 32 rotates at a certain rotating speed. The rotational speed of the wheel 32 is 0.01-60r/min. Preferably, the rotational speed of the wheel 32 is 0.02-10r/min.

The rotating wheel 32 is at least partially made of a low-temperature moisture-absorbing and high-temperature moisture-removing material and has a porous structure. The porous structure of the rotating wheel 32 is opposite to the adsorption zone and the desorption zone.

The wheel 32 is a zeolite wheel, a silica gel wheel, a graphene wheel, or an activated alumina wheel.

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 vapor garment care device, comprising:

a steam care chamber for steam care of laundry;

one end of the first channel is provided with an air inlet for guiding air into the first channel, and the other end of the first channel is provided with an air outlet for discharging dry air;

one end of the second channel is an air inlet; the other end is an air outlet which is communicated with the steam nursing chamber;

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

The adsorption area is communicated with the first channel and is used for adsorbing moisture in the air introduced into the first channel;

and the desorption area is communicated with the second channel and is used for receiving the moisture absorbed in the adsorption area and guiding the moisture into the second channel, and the moisture is discharged into the steam nursing cavity through the air outlet of the second channel.

2. A laundry vapor care device according to claim 1, further comprising:

the two ends of the circulating channel are respectively communicated with the steam nursing chamber; a circulating fan is arranged in the circulating channel; the air outlet of the second channel is communicated with the circulating channel.

3. A garment vapor care device as defined in claim 2, wherein the moisture transport module comprises,

the shell is internally provided with a containing cavity, the shell is provided with an air inlet and an air outlet which are respectively communicated with the first channel, the containing cavity comprises an adsorption area and a desorption area,

the rotating wheel is provided with a position which moves back and forth between the adsorption zone and the desorption zone, and rotates to the desorption zone to be separated after the adsorption zone adsorbs the moisture in the accommodating cavity; the second passage communicates with the desorption zone.

4. A garment vapor care device as recited in claim 3, wherein one end of the second passageway is disposed within the receiving chamber in communication with the desorption zone and the other end of the second passageway extends through the housing in communication with the vapor care chamber.

5. The vapor clothes care device of claim 4, wherein a heating element is arranged in the second channel and is used for heating air in the desorption area;

and the fan is used for driving the hot and humid air in the second channel to flow outwards.

6. The vapor care device of claim 5, wherein one end of the second passage forms a dynamic seal with the rotor in the desorption zone, the heating element is disposed in one end of the second passage, and the other end of the second passage extends out of the housing.

7. A garment vapor care device according to any of claims 3-6, wherein,

the air inlet is arranged on one side wall of the shell, which is opposite to the rotating wheel, the air outlet is arranged on the peripheral wall of the shell in the circumferential direction of the rotating wheel, and the air inlet and the air outlet are arranged on two sides of the rotating wheel;

the second channel is arranged on one side wall of the shell, which is provided with the air inlet.

8. A laundry vapor care device according to claim 3, further comprising:

the first channel, the second channel and the moisture transport module are disposed within the housing outside of the vapor care chamber.

9. The garment vapor care device of claim 8, wherein the moisture transport module further comprises:

the machine bin is arranged in the shell outside the steam nursing cavity, and is provided with an inlet and an outlet which are communicated with the external atmosphere and correspondingly communicated with the air inlet and the air outlet of the first channel;

the shell is arranged in the machine cabin, the inlet and the outlet are correspondingly communicated with the air inlet and the air outlet of the shell, and the second channel penetrates through the shell and the machine cabin.

10. A garment vapor care device as recited in claim 9, wherein the inlet and the outlet are disposed through the housing.