CN113089286B - Automatic clothes drying device - Google Patents

Abstract

The present invention discloses an automatic clothes drying device, comprising: a cabinet, a clothes drying space is formed in the cabinet; an air drying mechanism, the air drying mechanism having an air intake port and an air exhaust port, the air drying mechanism being used to suck the wet air in the cabinet through the air intake port and discharge the dry hot air into the cabinet through the air exhaust port after drying and heating; a clothes drying rack, the clothes drying rack being used to hang the clothes to be dried in the clothes drying space, air outlets being provided at both ends of the clothes drying rack, and a hot air module for supplying dry hot air to the air outlets is also provided on the clothes drying rack. The clothes are auxiliary dried by the clothes drying rack, so as to improve the clothes drying effect of the automatic clothes drying device and improve the user experience.

Description

Automatic clothes drying device

Technical Field

The invention relates to the technical field of clothes drying, in particular to an automatic clothes drying device.

Background

At present, the existing clothes drying cabinet generally adopts a drying clothes drying cabinet and adopts an open structure, the cabinet body is provided with an air inlet and an air outlet, a large fan sucks air from the air inlet and heats the clothes through a heating wire, blows the clothes to the clothes, and discharges the clothes from the air outlet. The method is simple, but cannot meet the effect of quick clothes drying, cannot effectively utilize energy efficiency, cannot uniformly dry clothes, and has poor clothes drying effect. Chinese patent number 201420561575.6 discloses a multifunctional quick clothes drying cabinet, which realizes clothes drying treatment by arranging a dehumidifying device, a heating device and a garment steamer in a cabinet body. In the actual use process, as the clothes with sleeves are hung on the clothes hanger and enter the drying wardrobe for drying, the armpits of the clothes are not smooth in ventilation, and after the clothes are dried, the armpits of the clothes are easy to be wet, so that the phenomenon of poor clothes drying effect occurs. How to design a technology with good clothes drying effect to improve user experience is a technical problem to be solved by the invention.

Disclosure of Invention

The invention provides an automatic clothes drying device, which is used for carrying out auxiliary drying on clothes through a clothes hanger so as to improve the clothes drying effect of the automatic clothes drying device and improve the user experience.

In order to achieve the technical purpose, the invention is realized by adopting the following technical scheme:

An automatic clothes drying apparatus comprising:

The clothes drying cabinet comprises a cabinet body, wherein a clothes drying space is formed in the cabinet body;

The air drying mechanism is provided with an air suction port and an air exhaust port, and is used for sucking wet air in the cabinet body through the air suction port, drying and heating the wet air and then exhausting the dried hot air into the cabinet body through the air exhaust port;

the clothes hanger is used for hanging clothes to be dried in the clothes drying space, air outlets are formed in two end portions of the clothes hanger, and a hot air module used for supplying drying hot air to the air outlets is further arranged on the clothes hanger.

Further, the clothes hanger further comprises a hanger body which is of a hollow structure, the two end parts of the hanger body are provided with air outlets communicated with the hollow structure, the top of the hanger body is provided with hooks, and the hot air module is arranged in the hollow structure.

Further, the hot air module comprises an air duct, an electric heating component and a fan, wherein the electric heating component and the fan are arranged in the air duct, and the air duct is arranged in the hollow structure and is used for blowing the outputted hot air to the air outlet.

Further, the top of the frame body is also provided with a vent communicated with the hollow structure, two ends of the hollow structure are respectively provided with the hot air module, the inlet of the air duct faces the vent, and the outlet of the air duct faces the corresponding air outlet.

Further, the clothes hanger also comprises a power supply module, wherein the power supply module is used for supplying electric energy to the electric heating component and the fan.

Further, the power supply module is a storage battery arranged on the frame body, or the power supply module is a power receiving coil, and a power transmission coil is further arranged in the cabinet body.

The clothes hanger comprises a cabinet body, and is characterized by further comprising a clothes hanging mechanism, wherein the clothes hanging mechanism comprises a clothes hanging rod, a movable seat and a driving module, the clothes hanging rod is arranged on the cabinet body, the driving module is used for driving the movable seat to move relative to the clothes hanging rod, and the movable seat is used for hanging the clothes hanger.

Further, the automatic ironing mechanism comprises an ironing head, a lifting module and a steam generating module, wherein the ironing head comprises a steam spraying plate and a supporting plate which are arranged in a relative mode, an ironing area for ironing clothes is formed between the steam spraying plate and the supporting plate, the lifting module is used for driving the ironing head to move up and down in the cabinet body, and the steam generating module is used for generating steam and spraying the steam into the ironing area through the steam spraying plate.

The steam spraying plate comprises a supporting plate, a steam spraying plate, a guiding module and a guiding module, wherein the steam spraying plate is used for guiding the steam spraying plate and the supporting plate to move upwards to the top, and the guiding module is used for guiding the steam spraying plate and the supporting plate to move downwards to the bottom, and the guiding module is away from each other.

The air drying mechanism comprises a shell, a semiconductor refrigerating sheet, a laminar flow heat exchanger, a wind baffle and a driving mechanism, wherein the shell is provided with an air suction port and an air exhaust port, the laminar flow heat exchanger comprises a first heat exchange part used for exchanging cold end cooling capacity in the semiconductor refrigerating sheet, the laminar flow heat exchanger comprises a second heat exchange part used for exchanging heat end heat in the semiconductor refrigerating sheet, the first heat exchange part and the second heat exchange part respectively comprise a plurality of layers of circular blades, the plurality of layers of circular blades are coaxially arranged, an air inlet area is formed between through holes of the plurality of layers of circular blades, an air outlet area is formed between two adjacent layers of circular blades, the driving mechanism is used for driving the laminar flow heat exchanger to rotate, the wind baffle is located between the first heat exchange part and the second heat exchange part and is used for separating the air inlet area of the first heat exchange part and the air inlet area of the second heat exchange part, the air inlet area of the first heat exchange part is arranged opposite to the air suction port, and the air exhaust port of the second heat exchange part is arranged opposite to the air exhaust port.

Compared with the prior art, the clothes drying rack has the advantages that the air outlets are arranged at the two ends of the clothes drying rack, after clothes to be dried are hung on the clothes drying rack, the air outlets are positioned at the armpit positions of the clothes, in the clothes drying process, the hot air module on the clothes drying rack is used for conveying drying hot air to the air outlets, so that the hot air is conveyed to the armpit positions of the clothes through the air outlets to carry out targeted reinforced drying, the clothes armpit positions can meet the drying requirement after the clothes are dried, the clothes drying effect of the clothes is improved, and the user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic view showing the structure of an embodiment of an automatic clothes drying apparatus according to the present invention;

FIG. 2 is a schematic view showing a structure in which an electric door is opened in an embodiment of the automatic clothes drying apparatus according to the present invention;

FIG. 3 is a schematic view showing the structure of an automatic ironing mechanism in the embodiment of the automatic clothes drying apparatus according to the present invention;

FIG. 4 is a schematic view showing the structure of a steam spray plate in an embodiment of the automatic clothes drying apparatus according to the present invention;

FIG. 5 is a front view of the support plate in the embodiment of the automatic clothes drying apparatus of the present invention;

FIG. 6 is a side view of the support plate in an embodiment of the automatic clothes drying apparatus of the present invention;

FIG. 7 is a schematic view showing the structure of an air drying mechanism in the automatic clothes drying apparatus according to the embodiment of the present invention;

FIG. 8 is a partial exploded view of an air drying mechanism in an embodiment of the automatic clothes drying apparatus of the present invention;

FIG. 9 is a schematic diagram showing the layout of gears and guide members in an embodiment of the automatic clothes drying apparatus according to the present invention;

Fig. 10 is a second schematic diagram of the layout of gears and guides in an embodiment of the automatic clothes drying apparatus according to the present invention.

FIG. 11 is a schematic view showing a structure in which a clothes hanging mechanism is in a folded state in an embodiment of the automatic clothes drying apparatus according to the present invention;

FIG. 12 is a schematic view showing a structure in which a clothes hanging mechanism is in an unfolded state in an embodiment of the automatic clothes drying device according to the present invention;

FIG. 13 is a reference view showing the state of use of the clothes hanging mechanism in the automatic clothes drying apparatus according to the embodiment of the present invention;

FIG. 14 is a second reference view showing the use state of the clothes hanging mechanism in the automatic clothes drying apparatus according to the embodiment of the present invention;

FIG. 15 is a third reference view showing the use state of the clothes hanging mechanism in the automatic clothes drying apparatus according to the embodiment of the present invention;

FIG. 16 is a side cross-sectional view of FIG. 15;

Fig. 17 is a structural sectional view of the laundry rack in the embodiment of the automatic clothes drying apparatus according to the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 17, the automatic clothes drying apparatus of the present embodiment includes a cabinet 1, and an air drying mechanism 2, a clothes hanging mechanism 3, and an automatic ironing mechanism 4 provided in the cabinet 1. The air drying mechanism 2 can suck wet air in the cabinet body 1 and output dry air into the cabinet body 1 after drying treatment so as to realize clothes drying treatment, the clothes hanging mechanism 3 is used for hanging clothes to be dried, and the clothes can be hung on the clothes hanging mechanism 3 through a clothes hanger. In addition, the automatic ironing mechanism 4 can automatically iron the clothes on the clothes hanging mechanism 3, so that the ironing operation of the clothes after the clothes drying treatment is finally realized.

In order to make the clothes more thoroughly dried, the clothes hanger 5 is correspondingly improved, the clothes hanger 5 is used for hanging the clothes to be dried in a clothes drying space, two end parts of the clothes hanger 5 are provided with air outlets 50, and a hot air module 52 for supplying drying hot air to the air outlets 50 is further arranged on the clothes hanger 5.

In the actual use process, clothes are hung in the cabinet body 1 through the clothes hanger 5, and in the clothes drying process, on one hand, the whole clothes are dried by the air drying mechanism 2 in the cabinet body 1, and on the other hand, the armpit of the clothes are subjected to targeted clothes drying by the hot air module 52 arranged in the clothes hanger 5. Thus, the problem that the armpit part of the clothes is not easy to dry can be solved, so that the clothes drying effect is improved.

In some embodiments, the clothes hanger 5 further comprises a frame body 51, wherein the frame body 51 is of a hollow structure, air outlets 50 communicated with the hollow structure are formed in two end portions of the frame body 51, hooks 511 are arranged at the top of the frame body 51, and a hot air module 52 is arranged in the hollow structure. In particular, the outer contour of the hanger body 51 to meet the requirement of hanging laundry may be referred to as a conventional hanger structure. The hollow structure is formed in the frame 51 to meet the installation requirement of the hot air module 52, and meanwhile, hot air generated by the hot air module 52 is blown out of the hollow frame 51 to blow-dry the armpit of the clothes.

In addition, for the hot air module 52, the main function thereof is to output hot air, for which purpose the hot air module 52 may include an air duct 521, an electric heating part 523 and a fan 522, the electric heating part 523 and the fan 522 being disposed in the air duct 521, the air duct 521 being disposed in a hollow structure and being used to blow the output hot air toward the air outlet 50. When the clothes are dried, the electric heating component 523 and the fan 522 are electrified to run, the fan 522 drives air to flow in the air duct 521, the air output from the air duct 521 is heated by the electric heating component 523 to form hot air, and the hot air output from the air duct 521 is output through the air outlet 50 to directly blow and dry armpit parts of the clothes. In order to smooth ventilation, a ventilation opening (not shown) communicating with the hollow structure may be further provided at the top of the frame 51, and the two ends of the hollow structure may be respectively provided with a hot air module 52, wherein the inlet of the air duct 521 faces the ventilation opening, and the outlet of the air duct 521 faces the corresponding air outlet 50.

Further, in order to meet the power supply requirements of the electric heating component 523 and the fan 522, the clothes hanger 5 further comprises a power supply module 53, wherein the power supply module 53 is used for supplying electric power to the electric heating component 523 and the fan 522. Specifically, since the laundry rack 5 is arranged separately from the cabinet 1, the laundry rack 5 needs to be provided with a separate power supply module 53 to supply power to the electric heating part 523 and the blower 522.

While the representation entity of the power supply module 53 takes on a variety of forms. For example, the power supply module 53 is a battery provided on the frame 51. Specifically, during drying, the battery discharges to power the electric heating element 523 and the blower 522. Or the power supply module 53 is a power receiving coil, a power transmitting coil (not shown) is further arranged in the cabinet body 1, and when clothes are dried, the clothes hanger 5 enters the cabinet body 1, and wireless power supply is realized through mutual configuration of the power transmitting coil and the power receiving coil so as to supply power to the electric heating component 523 and the fan 522.

In some embodiments, as shown in fig. 11 and 12, the clothes hanging mechanism 3 comprises a mounting seat 31 and two mounting frames 32, wherein the mounting frames 32 are rotatably mounted on the mounting seat 31, the mounting frames 32 are provided with clothes hanging rods 321, when the two mounting frames 32 are rotated and unfolded, the two clothes hanging rods 321 are butted together, in particular, the mounting frames 32 adopt a plate structure with an L-shaped section, when not in use, the two mounting frames 32 are folded and oppositely arranged to reduce the occupied space, and when the clothes drying ironing treatment is needed, the mounting frames 32 are unfolded, so that the two clothes hanging rods 321 are butted together, and more clothes can be hung in the thickness direction of the cabinet body 1. Wherein, the both sides of mount pad 31 are provided with slide rail 311 respectively, are provided with slidable slider (not marked) in the slide rail 311, and mounting bracket 32 rotatable installs on corresponding slider, can adjust the position of mounting bracket 32 through the slider removal.

Based on the above technical solution, optionally, in order to realize automatic ironing of clothes, the automatic ironing mechanism 4 comprises an ironing head 41, a lifting module 42 and a steam generating module 43, wherein the ironing head 41 comprises a steam spraying plate 411 and a supporting plate 412 which are arranged oppositely, an ironing area is formed between the steam spraying plate 411 and the supporting plate 412, a plurality of steam spouts 4111 are arranged on the inner surface of the steam spraying plate 411, the steam generating module 43 is used for supplying steam to the steam spouts 4111, and the lifting module 42 is used for driving the steam spraying plate 411 and the supporting plate 412 to move in a up-down synchronous circulation mode.

In the actual use process, the automatic ironing mechanism 4 can realize automatic ironing on clothes in the cabinet body 1, in the ironing process, the clothes are located in an ironing area formed between the steam spraying plate 411 and the supporting plate 412, the lifting module 42 drives the ironing head 41 to move downwards and spray hot steam to the surface of the clothes through the steam spraying nozzle 4111, the clothes are attached to the supporting plate 412 under the action of the hot steam, the supporting plate 412 can support the clothes, the clothes can not swing along with air flow in the ironing process by utilizing the parallel movement of the steam spraying plate 411 and the supporting plate 412, ironing efficiency is improved, and ironing effect is enhanced. The steam generator used in the conventional ironing device may be adopted for the specific entity of the steam generating module 43, and is not limited and described in detail herein. In addition, for the lifting module 42, the lifting module 42 may be configured to drive the ironing head 41 to move up and down, for example, the lifting module 42 includes a second motor (not shown) and two gears 420 meshed together, the gears 420 are rotatably installed in the cabinet 1, the second motor drives one of the gears 420 to rotate, a winding shaft 421 is disposed on the gear 420, a belt 422 is further wound on the winding shaft 421, a lower end portion of the belt 422 is connected with a corresponding ironing board, the second motor drives the gear 420 to rotate, so as to realize synchronous rotation of the two gears 420, and the corresponding belt 422 will pull the corresponding steam spraying board 411 and the supporting board 412 below to move synchronously, wherein, in a practical use process, two corresponding gears 420 are disposed above two end portions of the ironing head 41, and one of the gears 420 disposed coaxially and oppositely is connected through a connecting shaft, so that both end portions of the ironing head 41 are pulled by the corresponding belt 422.

Therein, the steam spraying plate 411 has a hollow cavity (not shown) formed therein, the steam spraying nozzle 4111 communicates with the hollow cavity, and the steam generating module 43 communicates with the hollow cavity through a pipe. The steam generated by the steam generating module 43 enters the hollow cavity through the pipeline, and then is sprayed outwards through each steam nozzle 4111. The steam can be uniformly dispersed in the hollow cavity, so that the steam nozzles 4111 distributed at different positions can obtain enough steam to improve ironing effect.

In addition, for better clothes drying function, the support plate 412 is used for directly drying clothes in a targeted manner after ironing the clothes, the support plate 412 comprises a plate body 4121 and a fan housing 4122, the plate body 4121 is provided with vent holes 4120 which are arranged in an array, the fan housing 4122 is arranged on the outer surface of the plate body 4121, an air inlet cavity is formed between the fan housing 4122 and the plate body 4121, the fan housing 4122 is provided with an air inlet, the drying air output by the air drying mechanism 2 enters the air inlet cavity through the air inlet, and finally the drying air is output from the vent holes 4120 to directly blow and dry the clothes, so that the clothes drying efficiency is improved. In actual use, after ironing, the clothes are affected by the steam, so that the clothes are wet, and at this time, the steam generating module 43 is suspended and the air drying mechanism 2 is started, and the drying air is blown to the clothes through the vent 4120, so that the clothes are abutted against the steam spraying plate 411 under the action of the drying air, and the clothes can be dried quickly.

Further, the concrete entity of the air drying mechanism 2 can adopt a clothes drying component used in a conventional clothes drying cabinet, for example, an electric heating mode and a fan mode or a heat pump mode. In order to reduce noise and reduce the volume during drying, the air drying mechanism 2 includes a housing 21, a semiconductor cooling plate 22, a laminar flow heat exchanger 23, a driving mechanism 24, and a wind deflector 25, and the semiconductor cooling plate 22, the laminar flow heat exchanger 23, the driving mechanism 24, and the wind deflector 25 are all installed in the housing 21. The shell 21 is provided with an air suction port 211 and an air exhaust port 212, the laminar flow heat exchanger 23 comprises a first heat exchange part 231 for exchanging cold energy of a cold end in the semiconductor refrigerating sheet 22, the laminar flow heat exchanger 23 comprises a second heat exchange part 232 for exchanging heat energy of a hot end in the semiconductor refrigerating sheet 22, the first heat exchange part 231 and the second heat exchange part 232 respectively comprise a plurality of layers of circular blades 230, the layers of circular blades 230 are coaxially arranged, an air inlet area 2301 is formed between through holes of the plurality of layers of circular blades 230, an air outlet area 2302 is formed between two adjacent layers of circular blades, a wind shield 25 is arranged between the first heat exchange part 231 and the second heat exchange part 232, the wind shield 25 separates the air inlet area 2301 of the first heat exchange part 231 from the air inlet area 2301 of the second heat exchange part 232, the air inlet area 2301 of the first heat exchange part 231 is opposite to the air suction port 211, and the air outlet area 2302 of the second heat exchange part 232 is opposite to the air exhaust port 212.

The cold and hot ends of the semiconductor refrigeration sheet 22 exchange heat through the laminar flow heat exchanger 23, and two heat exchange parts in the laminar flow heat exchanger 23 are respectively composed of a plurality of layers of annular blades 230. In the process of driving the laminar flow heat exchanger 23 to rotate by the driving mechanism 24, the annular blades 230 rotate along with the laminar flow heat exchanger, and air between two adjacent annular blades 230 flows to the outer sides of the annular blades 230 under the action of centrifugal force by using fluid viscosity, so that an air inlet area 2301 formed at the through holes of the annular blades 230 generates negative pressure, and the air flow is realized.

The heat exchange process of the cold end of the semiconductor refrigeration sheet 22 is realized for the flowing air stream formed by the rotation of the multi-layer annular blades 230 in the first heat exchange part 231. And the heat exchange treatment of the hot end of the semiconductor refrigeration sheet 22 is realized for the flowing air flow formed by the rotation of the multi-layer annular blades 230 in the second heat exchange part 232. In the clothes drying process, after the semiconductor refrigerating plate 22 is electrified, the driving mechanism 24 drives the laminar flow heat exchanger 23 to rotate, air between two adjacent circular blades 230 flows outwards under the action of fluid viscosity and centrifugal force to generate negative pressure in an air inlet area formed by the circular blades 230, under the action of the negative pressure, air of the cabinet 1 enters the air inlet area 2301 of the first heat exchanging part 231 through the air suction port 211 and is condensed and dried by cold energy released by the cold end of the semiconductor refrigerating plate 22, and after the dried air enters the air inlet area 2301 of the second heat exchanging part 232 and is heated by heat released by the hot end of the semiconductor refrigerating plate 22, the air enters the cabinet 1 from the air outlet 212, so that clothes in the cabinet 1 are dried in a reciprocating manner.

The circular ring blades 230 can play a role of a fan on one hand, and can play a role of heat exchange of the semiconductor refrigerating sheets 22 on the other hand, so that the whole volume of the semiconductor heat exchange assembly is small, and meanwhile, the circular ring blades 230 rotate to realize laminar air circulation, so that running noise can be effectively reduced, and user experience can be improved. And in order to make the overall structure more compact, the semiconductor refrigeration sheet 22 is disposed between the first heat exchanging portion 231 and the second heat exchanging portion 232. The wind deflector 25 can prevent the wet air sucked by the first heat exchanging part 231 from being sucked directly by the second heat exchanging part 232 without being dried, and thus, it is possible to ensure that the dried hot air is output from the air outlet 212, with a specific air flow direction being referred to the air flow direction indicated by the dotted arrow in fig. 8.

In addition, the driving mechanism 24 may include a first motor 241 and a rotating disc 242, the first motor 241 is used for driving the rotating disc 242 to rotate, the laminar flow heat exchanger 23 is mounted on the rotating disc 242, and in order to make the first heat exchange portion 231 perform condensation drying on air better, the laminar flow heat exchanger 23 is fixed on the rotating disc 242 through the second heat exchange portion 232, and the first heat exchange portion 231 can avoid shielding of the rotating disc 242 and has better ventilation efficiency, so as to improve condensation drying efficiency.

Further, in order to improve the heat exchange efficiency, the cold end and the hot end of the semiconductor refrigeration piece 22 can perform heat exchange rapidly and efficiently, the cold end of the semiconductor refrigeration piece 22 is connected with a first heat pipe 221, the first heat pipe 221 is connected with the annular blade 230 of the first heat exchange portion 231, the hot end of the semiconductor refrigeration piece 22 is connected with a second heat pipe 222, and the second heat pipe 222 is connected with the annular blade 230 of the second heat exchange portion 232. Specifically, the cold end and the hot end of the semiconductor refrigeration piece 22 respectively pass through the heat pipe and the corresponding circular ring blade 230 of the heat exchange part, the heat pipe can transfer heat rapidly and dissipate heat rapidly by using the circular ring blade 230, and the circular ring blade 230 can play a role in driving air to flow and can also serve as a heat dissipation fin to exchange heat with the cold end of the semiconductor refrigeration piece 22 rapidly and efficiently in the rotating process.

In addition, for the first heat exchange portion 231 and the second heat exchange portion 232, the first heat exchange portion 231 and the second heat exchange portion 232 may be fixedly connected together by a connection column or a connection frame, preferably, the first heat pipe 221 and the second heat pipe 222 are arranged and fixed together in a heat-insulating manner, specifically, the first heat pipe 221 and the second heat pipe 222 are fixedly connected, so that the first heat exchange portion 231 and the second heat exchange portion 232 are connected together by the first heat pipe 221 and the second heat pipe 222, and the heat pipes are used for connecting the two heat exchange portions besides heat transfer, which is more beneficial to simplifying the structure and reducing the volume. Preferably, the cold end of the semiconductor refrigeration piece 22 is provided with a cold end heat conducting block 223, the hot end of the semiconductor refrigeration piece 22 is provided with a hot end heat conducting block 224, a heat insulation gasket is clamped between the cold end heat conducting block 223 and the hot end heat conducting block 224, the first heat pipe 221 is connected with the cold end heat conducting block 223, and the second heat pipe 222 is connected with the hot end heat conducting block 224. Specifically, the cold end and the hot end of the semiconductor refrigeration sheet 22 transfer heat through corresponding heat conducting blocks, and the heat conducting blocks can be better connected with the heat pipes so as to improve heat transfer efficiency.

Further, the first heat exchanging portion 231 and the second heat exchanging portion 232 are arranged up and down, a partition 210 is arranged in the housing 21, the partition 210 divides the housing 21 into an upper cavity and a lower cavity, a mounting hole (not labeled) is formed in the partition 210, the laminar flow heat exchanger 23 penetrates through the mounting hole, the first heat exchanging portion 231 is located in the upper cavity, the second heat exchanging portion 232 is located in the lower cavity, an air suction port 211 communicated with the cabinet 1 is arranged on the upper cavity, an air exhaust port 212 is communicated with the lower cavity, and the wind shield 25 is located above the partition 210. Specifically, in the upper cavity, the first heat exchange portion 231 sucks air in the cabinet 1 through the air suction port 211 into the upper cavity and into the first heat exchange portion 231, and after condensation and drying, the air enters the lower cavity from the mounting hole and is sucked into the air intake area 2301 in the second heat exchange portion 232.

The automatic ironing mechanism is added, the lifting module can drive the ironing head to move up and down, an ironing area is formed between the steam spraying plate and the supporting plate of the ironing head, the ironing head automatically moves to iron, hot steam sprayed by the steam spraying plate blows to clothes, the clothes are attached to the supporting plate on the other side, the supporting plate on the other side supports the dried clothes and heats and irones the dried clothes at the same time, ironing quality and efficiency are improved, and the air drying mechanism can suck damp and hot air in the cabinet body to form dry and hot air output after drying treatment to dry the clothes in the cabinet body, so that automatic clothes drying is achieved, automatic ironing and drying treatment of the clothes by the automatic clothes drying device is realized, and user experience is improved.

In some embodiments, the automatic ironing mechanism 4 further comprises a guiding module 44, the guiding module 44 being adapted to guide the steam nozzle plate 411 and the support plate 412 towards each other during the upward movement to the top and also to guide the steam nozzle plate 411 and the support plate 412 away from each other during the downward movement to the bottom. Specifically, the steam spraying plate 411 and the support plate 412 are guided by the guide module 44 in the course of the up-and-down synchronous circulation movement, so that the steam spraying plate 411 and the support plate 412 are moved away from each other to the bottom, in this way, the distance between the steam spraying plate 411 and the support plate 412 in the upward movement is large, so that the distance between the laundry and the steam spraying plate 411 and the support plate 412 is large to avoid wrinkles caused by upward pulling of the laundry, and when the steam spraying plate 411 and the support plate 412 are moved to the top, they are moved close to each other, so that the steam spraying plate 411 and the support plate 412 are close to the laundry to perform effective ironing operation on the laundry.

Further, the guide module 44 includes two oppositely disposed guide members 441, the guide members 441 are located below the corresponding gears 420, annular sliding grooves 442 are formed on the outer peripheries of the guide members 441, the end portions of the steam spraying plate 411 and the support plate 412 are respectively provided with sliding members 400, the sliding members 400 are slidably disposed in the annular sliding grooves 442, the steam spraying plate 411 and the support plate 412 slide in the corresponding annular sliding grooves 442 through the corresponding sliding members 400, the annular sliding grooves 442 guide the sliding members 400 to enable the steam spraying plate 411 and the support plate 412 to approach or separate from each other when moving to the top or the bottom, and the annular sliding grooves 442 may include a first vertical sliding groove 401, a second vertical sliding groove 402, an upper sliding groove 403 and a lower sliding groove 404, the upper sliding groove 403 is located above the lower sliding groove 404, and the upper sliding groove 403, the first vertical sliding groove 401, the lower sliding groove 404 and the second vertical sliding groove 402 are sequentially connected; taking the steam spraying plate 411 as an example, when the steam spraying plate 411 is moved up into the upper chute 403, as shown in fig. 9, the belt 422 is mostly wound on the winding shaft 421, the diameter of the disk structure formed by the belt 422 is larger, so that the lower unreeled belt 422 has a force pulling the slider 400 toward the first vertical chute 401, so that the belt applies a force on the steam spraying plate 411 to move toward the first vertical chute 401, and when the ironing plate is moved down into the lower chute, as shown in fig. 10, the belt 422 is mostly stretched, the diameter of the disk structure formed by the belt 422 is smaller, so that the lower unreeled belt 422 has a force pulling the slider 400 toward the second vertical chute 402, so that the belt 422 applies a force on the steam spraying plate 411 to move toward the second vertical chute 402. In order to ensure smooth movement of the slider 400, the upper slide groove 403 and the lower slide groove 404 may have an inclined groove structure or a circular arc groove structure. And the slider 400 may include a coupling frame (not shown) on which the rollers are rotatably mounted, and a roller (not shown) fixed to the ends of the corresponding steam spraying plate 411 and the support plate 412, the roller being seated in the annular sliding groove 442.

In order to realize the automatic door opening and closing of the cabinet body 1, the front panel and the back panel of the cabinet body 1 are respectively provided with an opening, the opening is provided with an electric door 11 capable of being opened and closed, the electric door 11 can automatically realize the door opening and closing in the clothes drying and ironing process, and the electric door 11 can adopt an electric roller shutter door mode to realize the automatic door opening and closing.

Wherein, still dispose humidity transducer and temperature sensor in the cabinet body 1, detect the humidity in the cabinet body 1 through humidity transducer to judge whether the clothing is dried and is accomplished, and temperature sensor can detect the temperature in the cabinet body 1, in order to avoid heating the excessive and heat damage to the clothing of heating module heating.

In addition, a thickness detector (not shown) is provided between the steam spraying plate 411 and the support plate 412, and in an actual ironing process, the thickness detector can detect the thickness of laundry so that a longer ironing time is obtained when the ironing head 41 moves to a position where the laundry is thicker, to improve ironing effect. Similarly, a laundry material detector (not shown) is disposed between the steam spraying plate 411 and the supporting plate 412, and in the actual ironing process, the laundry material detector can detect the material of the laundry to control the temperature in the cabinet 1, that is, control the operation of the heating module and the blower 2, such as silk, wool, etc., which requires low temperature drying and ironing to reduce damage to the laundry, and cotton material, etc., which can use high temperature to shorten the drying time. Preferably, in the actual use, the initial state of the ironing head 41 is at the bottom of the cabinet 1, and when ironing, the ironing head 41 moves upwards to enable the clothes to enter the ironing area, so that the distance between the steam spraying plate 411 and the supporting plate 412 can be increased appropriately to ensure that the clothes can enter the ironing area.

In some embodiments, in order to reduce the human involvement, a plurality of clothes to be dried and ironed are sequentially dried and ironed, so as to further improve the degree of automation. The clothes hanging mechanism 3 comprises a clothes hanging rod 321, a movable seat 34 and a driving module 33, wherein the clothes hanging rod 321 is arranged on the cabinet body 1, the driving module 33 is used for driving the movable seat 34 to move relative to the clothes hanging rod 321, and the movable seat 34 is used for hanging clothes to be dried and carrying the clothes to be dried into a clothes drying space.

In the actual use process, the clothes to be treated are hung on the movable seat 34 through the clothes hanger 5, and the driving module 33 drives the movable seat 34 to automatically drive the clothes hanger 5 to enter the cabinet body 1, so that automatic clothes feeding operation is completed. After the clothes are dried and ironed in the cabinet 1, the movable seat 34 can be further driven by the driving module 33 to slide and move out of the cabinet 1, so that the clothes can automatically enter and exit the cabinet 1.

In some embodiments, in order to enable the movable seat 34 to slide for a long distance, the clothes hanging rod 321 is a threaded rod, a threaded through hole is formed in the movable seat 34, and the driving module 33 is a driving motor, and the threaded rod is in threaded connection with the threaded through hole, and the driving motor is used for driving the threaded rod to rotate. Specifically, when the movable seat 34 is required to be driven to move on the clothes rail 321, the driving motor is energized to rotate so that the threaded rod rotates, and the rotating threaded rod drives the movable seat 34 thereon to move. Thus, the movable seat 34 can be controlled to reciprocate by driving the motor to rotate forward and backward, so that the requirement of the movable seat 34 for reciprocating along the clothes rail 321 is met.

In some embodiments, the clothes hanging mechanism 3 further comprises a temporary storage frame 36 and a selecting component 35, wherein the temporary storage frame 36 is arranged at the end part of the clothes hanging rod 321, the selecting component 35 comprises a clamp 351, a telescopic rod 352, a lifting seat 353 and a sliding block 354, the sliding block 354 can slide relative to the temporary storage frame 36, the lifting seat 353 is arranged on the sliding block 354, the telescopic rod 352 is arranged on the lifting seat 353, and the clamp 351 is arranged on the telescopic rod 352. Specifically, the user may hang a plurality of clothes on the temporary storage rack 36 through the laundry rack 5 when using the clothes rack. Thus, during the laundry drying ironing operation, the laundry is sequentially transferred into the cabinet 11 by the picking assembly 35 without manual operation.

In the actual use process, a user can place a plurality of clothes on the temporary storage frame 36 at one time, and after the clothes drying operation is started, the selecting assembly 35 conveys the clothes one by one into the cabinet 1 for clothes drying and ironing operations. In the operation process, the moving seat 34 drives the clamp 351 to move to the clothes at the forefront side, the telescopic rod 352 stretches out to enable the clamp 351 to move below the hook of the clothes hanger 5, then the lifting seat 353 drives the clamp 351 to move upwards to lift the clothes hanger 5, further, the telescopic rod 352 acts again to enable the clamp 351 to be separated from the temporary storage frame 36, then the sliding block 354 moves again to enable the clamp 351 to move towards the moving seat 34, and the lifting seat 353 and the telescopic rod 352 are matched, so that the clothes hanger is hung on the moving seat 34.

In addition, after the drying, the dried clothes on the movable seat 34 can be further removed by the selecting component 35, and then placed on the temporary storage rack 36, and then the rest clothes are selected again to repeat the selecting operation. Therefore, a user does not need to manually replace clothes in the clothes drying and ironing operation process, and full-automatic operation is realized, so that user experience is improved.

While the specific operation modes of the telescopic rod 352, the lifting seat 353 and the sliding block 354 can be related functional components in the conventional technology, for example, an electric push rod mode can be adopted for the telescopic rod 352. For the manner of implementing the reciprocating movement of the lifting seat 353 and the sliding block 354, a manner of matching a gear with a rack can be adopted, and the gear is driven to rotate by a rotating motor, so that the rack is made to reciprocate, and thus, the reciprocating movement of the lifting seat 353 and the sliding block 354 can be implemented.

It should be noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present invention, and not for limiting the same, and although the present invention has been described in detail with reference to the above-mentioned embodiments, it should be understood by those skilled in the art that the technical solution described in the above-mentioned embodiments may be modified or some technical features may be equivalently replaced, and these modifications or substitutions do not make the essence of the corresponding technical solution deviate from the spirit and scope of the technical solution of the embodiments of the present invention.

Claims (9)

1. An automatic clothes drying apparatus, comprising:

The clothes drying cabinet comprises a cabinet body, wherein a clothes drying space is formed in the cabinet body;

The air drying mechanism is provided with an air suction port and an air exhaust port, and is used for sucking wet air in the cabinet body through the air suction port, drying and heating the wet air and then exhausting the dried hot air into the cabinet body through the air exhaust port;

The clothes hanger is used for hanging clothes to be dried in the clothes drying space, two ends of the clothes hanger are provided with air outlets, and a hot air module for supplying drying hot air to the air outlets is further arranged on the clothes hanger;

The air drying mechanism includes:

the shell is provided with the air suction port and the air exhaust port;

A semiconductor refrigeration sheet;

The laminar flow heat exchanger comprises a first heat exchange part for exchanging cold end cold energy in the semiconductor refrigeration sheet, and a second heat exchange part for exchanging heat of a hot end in the semiconductor refrigeration sheet, wherein the first heat exchange part and the second heat exchange part respectively comprise a plurality of layers of circular ring blades;

the driving mechanism is used for driving the laminar flow heat exchanger to rotate;

A wind deflector positioned between the first heat exchange portion and the second heat exchange portion and configured to space apart the air intake area of the first heat exchange portion and the air intake area of the second heat exchange portion;

the air inlet area of the first heat exchange part is arranged opposite to the air suction port, and the air outlet area of the second heat exchange part is arranged opposite to the air exhaust port.

2. The automatic clothes drying apparatus of claim 1, wherein the clothes hanger further comprises:

the hot air module comprises a frame body, wherein the frame body is of a hollow structure, air outlets communicated with the hollow structure are formed in two end portions of the frame body, hooks are arranged at the top of the frame body, and the hot air module is arranged in the hollow structure.

3. The automatic clothes drying apparatus of claim 2, wherein the hot air module includes an air duct, an electric heating part and a blower fan, the electric heating part and the blower fan being disposed in the air duct, the air duct being disposed in the hollow structure and being for blowing the outputted hot air toward the air outlet.

4. The automatic clothes drying device according to claim 3, wherein the top of the frame body is further provided with a vent communicated with the hollow structure, the two ends of the hollow structure are respectively provided with the hot air module, the inlet of the air duct faces the vent, and the outlet of the air duct faces the corresponding air outlet.

5. The automatic clothes drying apparatus of claim 3, wherein the clothes hanger further comprises:

and the power supply module is used for supplying electric energy to the electric heating component and the fan.

6. The automatic clothes drying device according to claim 5, wherein the power supply module is a storage battery arranged on the frame body, or the power supply module is a power receiving coil, and a power transmitting coil is further arranged in the cabinet body.

7. The automatic clothes drying apparatus of claim 1, further comprising:

The clothes hanging mechanism comprises a clothes hanging rod, a movable seat and a driving module, wherein the clothes hanging rod is arranged on the cabinet body, the driving module is used for driving the movable seat to move relative to the clothes hanging rod, and the movable seat is used for hanging the clothes hanger.

8. The automatic clothes drying apparatus of claim 1, further comprising:

The automatic ironing mechanism comprises an ironing head, a lifting module and a steam generation module, wherein the ironing head comprises a steam spraying plate and a supporting plate which are arranged in a relative mode, an ironing area for ironing clothes is formed between the steam spraying plate and the supporting plate, the lifting module is used for driving the ironing head to move up and down in the cabinet body, and the steam generation module is used for generating steam and spraying the steam into the ironing area through the steam spraying plate.

9. The automatic clothes drying apparatus of claim 8, further comprising:

the guide module is used for guiding the steam spraying plate and the supporting plate to move upwards to be close to each other in the process of the top, and is also used for guiding the steam spraying plate and the supporting plate to move downwards to be far away from each other in the process of the bottom.