CN212175286U - Drying wardrobe - Google Patents

Abstract

The utility model discloses a drying wardrobe belongs to drying wardrobe technical field. The drying wardrobe comprises a wardrobe body and a wardrobe door, wherein the wardrobe body comprises a heating area and a drying area, the drying area is arranged above the heating area, and an air outlet is formed in the top of the wardrobe body; the heating zone is provided with a heater; the heating area is communicated with the drying area, and a water leakage structure is arranged between the heating area and the drying area. The utility model discloses can be applied to the hotel guest room, realize carrying out the clothing drying in the guest room to, the stoving wardrobe has the dual function of accomodating and drying, reduces and takes up an area of the space, and with low costs, is fit for extensive popularization and use.

Description

Drying wardrobe

Technical Field

The utility model relates to a stoving wardrobe technical field, in particular to stoving wardrobe.

Background

Most clothes dryers include a rotating drum that is driven by a belt and around which heated air is provided to evaporate the moisture. The clothes drying drum adopts the principle that the drum rotates forwards and backwards to achieve the effect of preventing clothes drying articles from winding.

However, most of clothes dryers on the market at present are machine types suitable for home use, the equipment structure is complex, the maintenance cost is high, and the independent clothes dryers occupy a large space and are not suitable for being applied in places such as hotels and hotels. In general, laundry cleaning services in hotels collect laundry of customers uniformly in a laundry center and then perform washing, and laundry drying is also performed in the laundry center. The clothes dryer is additionally arranged in the hotel room, so that more indoor space is occupied, the cost is increased, and the clothes dryer is difficult to popularize.

SUMMERY OF THE UTILITY MODEL

The utility model provides a drying wardrobe, which can solve one or more of the prior art problems.

According to one aspect of the utility model, a drying wardrobe is provided, which comprises a wardrobe body and a wardrobe door, wherein the wardrobe body comprises a heating area and a drying area, the drying area is arranged above the heating area, and the top of the wardrobe body is provided with an air outlet; the heating zone is provided with a heater; the heating area is communicated with the drying area, and a water leakage structure is arranged between the heating area and the drying area.

The beneficial effects of the utility model are that, the cabinet door is closed and to be closed the cabinet body, hangs moist clothing in the drying area of stoving wardrobe, and the zone of heating passes through heater formation hot-air, and the hot-air admission drying area carries out the clothing and dries, and the air exit at cabinet body top can be followed to the hot-air of later carrying a large amount of vapor. The heater is arranged below the drying area, and hot air flows from bottom to top to accord with the motion rule of cold and hot air flow, so that the energy consumption can be reduced. The drying wardrobe is applied to hotel rooms, the space of the wardrobe can be fully utilized, a dryer does not need to be additionally purchased, the cost is reduced, and the occupied space is small.

In some embodiments, the water leaking structure includes a water leaking plate, the water leaking plate is disposed at the bottom of the drying area, and the water leaking plate is provided with water leaking holes, and the water leaking holes are connected with a water draining pipe. The water leakage plate is also provided with a through hole which is connected with the heater. The drying wardrobe has the beneficial effects that the water leakage plate is arranged below the drying area of the drying wardrobe and can receive water drops dropping from wet clothes, and the water leakage plate also has the function of area division and can isolate the drying area from other areas of the wardrobe, so that the interference among different functional areas of the wardrobe can be reduced in the working process of equipment. The water drops dropping on the water leakage plate can be discharged out of the drying area through the water leakage holes and enter the water discharge pipe, and the water discharge pipe can be connected with water discharge equipment of a room so as to discharge water. The water leakage hole can be one or more. The humidity in the drying wardrobe can be reduced through the water leakage structure, so that the clothes drying efficiency is improved, and the energy consumption is reduced. In addition, the water in the drying wardrobe is discharged in time, so that the corrosion of the water to the wardrobe and the drying equipment can be reduced, the equipment maintenance cost is reduced, and the service life is prolonged. The hot air generated by the heater can enter the drying area of the wardrobe through the through hole to dry the clothes. Generally, the clothes are hung, hot air enters from the lower part of the clothes, the interference among a plurality of clothes can be avoided, the clothes are heated uniformly, and the drying effect is ensured.

In some embodiments, the through hole is provided with a wind deflector. The beneficial effect is that the hot air entering the drying area can be more uniform through the air deflector.

In some embodiments, the wind deflector is a conical structure, and comprises a panel with a circular top, and a wind guiding curved surface connected with the panel and in an inverted cone structure, and supporting legs are arranged on the wind guiding curved surface. The clothes drying cabinet has the advantages that moist clothes are hung in a drying area of the clothes drying cabinet, hot air is formed in the heating area, the conical air deflector is arranged between the drying area and the heating area, and the heating area is communicated with the drying area. The hot air enters the drying area, changes the flowing direction under the action of the conical air deflector, is uniformly dispersed in the space of the whole drying area, and dries the wet clothes. The hot air passes through the conical air deflector to adjust the wind direction, so that the temperature of the inner space of the drying area can be consistent in a short time. Thereby preventing the hot air from directly blowing the clothes and preventing the clothes from being damaged due to the local long-time heating. The conical air guide plate adopts a curved surface for guiding air, so that the wind resistance is small, the wind loss can be effectively reduced, and the resource waste is reduced. The panel of the conical air deflector can also accept moisture dropped from clothes, so that the moisture is prevented from directly dropping to a heating area, and accidents can be prevented. The support legs support the conical air deflector. In addition, the conical air deflector has the advantages of simple structure, convenience in processing, easiness in installation and low technical requirements on production personnel and installation personnel.

In some embodiments, the air deflector grid-type air deflector includes a mounting base plate having an air deflector opening configured with a grid structure. The drying wardrobe has the beneficial effects that moist clothes are hung in a drying area of the drying wardrobe, hot air is formed in a heating area, a grid-type air deflector is arranged between the drying area and the heating area, and the heating area is communicated with the drying area. The hot air enters the drying area, changes the flowing direction under the action of the grid-type air deflector, is uniformly dispersed in the space of the whole drying area, and dries the wet clothes. The hot air passes through the grid-type air deflector to adjust the wind direction, so that the temperature of the inner space of the drying area can be consistent in a short time. Thereby preventing the hot air from directly blowing the clothes and preventing the clothes from being damaged due to the local long-time heating. The grid type air deflector adopts the grid for guiding air, the wind resistance is small, the wind loss can be effectively reduced, and the resource waste is reduced. In addition, the grid type air deflector has the advantages of simple structure, convenient processing, easy installation and low technical requirements on production personnel and installation personnel.

In some embodiments, the heater comprises a shell and a central control device, wherein an electric heating plate and a fan are arranged in the shell, and both the electric heating plate and the fan are connected with the central control device; the electric hot plate is arranged above the fan, the shell is also provided with an air outlet, and the air outlet is arranged above the electric hot plate. The heating device has the beneficial effects that the heating device is simple in structure and easy to process, can be suitable for wardrobes of different specifications and models and shapes, can be transformed into a drying wardrobe by utilizing the wardrobes of hotel rooms, and is high in applicability. The heater occupies a small space, has high heating speed, has little influence on the storage space of the wardrobe and has strong practicability. The heating temperature of the electric heating plate is controlled through the central control equipment, and the safety performance of the equipment is enhanced.

In some embodiments, the heater further comprises an air guide pipe, the air guide pipe comprises a bendable pipeline, one end of the pipeline is a fixed end, and the fixed end is connected with the heater; the other end of the pipeline is a free end which is connected with the through hole. The clothes drying cabinet has the advantages that the heater is arranged in the heating area of the clothes drying cabinet to form hot air, and wet clothes are hung in the drying area of the clothes drying cabinet, and the drying area is generally arranged above the heating area. An arc-shaped air guide pipe is arranged between the drying area and the heating area, the fixed end of the arc-shaped air guide pipe is connected with an air outlet of the heater, and hot air formed by the heater can be directionally conveyed through a pipeline. Generally, the clothes are difficult to avoid dripping water drops in the drying process. The pipeline can be crooked to make hot-blast direction of delivery not straight-up straight down, if there is the water droplet to get into from the free end of pipeline, the inner wall of pipeline has certain accepting effect to water droplet or other debris, can prevent that water droplet or debris from directly falling into the heater, thereby can protect the heater, prevent the short circuit. On the other hand, the pipeline can be crooked to can match the stoving wardrobe of different space sizes, can be according to the crooked degree of the different adjustment arc pipes of distance between the heater in the stoving wardrobe and the drying zone, need not cut just can with the stoving wardrobe phase-match of multiple specification, simple and convenient.

In some embodiments, the cabinet includes an interior frame layer and an exterior insulation layer. The frame layer is a metal frame, and the heat insulation layer is a wood plate. The metal frame has the advantages that the metal frame has good stability, is not easy to deform, and can provide enough supporting force for the cabinet body of the drying wardrobe. On the other hand, the metal material has good heat conductivity, can keep the internal temperature of cabinet even at the stoving wardrobe operation in-process, prevents that the clothing from being heated unevenly. The heat insulation layer is made of a wood board, the processing performance is good, and the appearance of the drying wardrobe can be consistent with the overall decoration style of a room. The wooden board has excellent heat insulation effect, and can prevent the outer wall of the cabinet body from being too high in temperature when the drying wardrobe operates, so that the accident of scalding can be avoided. In addition, the outer layer of the cabinet body is made of wood plates, so that the heat conduction inside the cabinet body can be effectively reduced, the energy consumption is reduced, and the clothes drying efficiency is improved. In addition, the external heat insulation layer has strong processing performance, and is convenient for designing and processing the appearance of the drying wardrobe, so that the appearance of the drying wardrobe is consistent with the decoration style of a room.

Drawings

Fig. 1 is a perspective view of a drying wardrobe in embodiment 1 of the present invention;

FIG. 2 is a perspective view of a water leakage structure of the drying wardrobe shown in FIG. 1;

FIG. 3 is an enlarged view of a water leakage structure C of the drying wardrobe shown in FIG. 2;

FIG. 4 is a front view of a water leakage structure for the drying wardrobe shown in FIG. 2;

FIG. 5 is a perspective view of a grill-type air deflector of the drying wardrobe shown in FIG. 1;

FIG. 6 is a front view of the grill type air deflector for the drying wardrobe shown in FIG. 5;

FIG. 7 is an exploded view of the grill type air deflector for the drying wardrobe shown in FIG. 5;

FIG. 8 is a perspective view of the heater for the drying wardrobe shown in FIG. 1;

FIG. 9 is an exploded view of the heater of FIG. 8;

FIG. 10 is a perspective view of an arc-shaped air duct of the heater for the drying wardrobe shown in FIG. 1;

FIG. 11 is a schematic view of the interface of the curved duct of FIG. 10;

FIG. 12 is a schematic view of the use of the curved duct of FIG. 10;

FIG. 13 is an enlarged view of a portion A of the drying wardrobe shown in FIG. 1;

FIG. 14 is a cross-sectional view of the drying wardrobe shown in FIG. 1 taken along line B-B;

fig. 15 is a schematic view of a tapered air deflector of the drying wardrobe according to embodiment 3 of the present invention;

fig. 16 is a schematic view of the tapered wind deflector of fig. 15.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1

Fig. 1 to 4 schematically show a drying wardrobe according to an embodiment of the present invention. The drying wardrobe can be arranged in a guest room of a hotel or a hotel, a drying function is added to a common storage wardrobe, a customer can dry wet clothes in the guest room, the clothes drying time can be freely selected, the limitation of hotel clothes washing service is avoided, and various inconveniences caused by clothes washing can be avoided. The drying wardrobe comprises a wardrobe body 1 and a wardrobe door 2, wherein the bottom of the wardrobe body 1 is provided with a heating area 10, and a heater 30 is arranged to provide hot air into the drying wardrobe. The drying area 20 is arranged above the heating area 10, the drying area 20 is provided with a clothes drying rod 40, and clothes to be dried are hung on the clothes drying rod 40.

A water leakage structure is arranged between the heating area 10 and the drying area 20. As shown in fig. 2 to 4, the water leakage structure includes a water leakage plate 110, the left and right edges of the water leakage plate 110 are provided with waterproof edges 130, and the water leakage plate 110 and the waterproof edges 130 are made of waterproof and corrosion-resistant PVC plastic materials, and are waterproof and corrosion-resistant, and have certain rigidity, thereby playing a good role in supporting. In addition, the PVC plastic plate has certain heat resistance and cannot deform at the drying temperature of a drying wardrobe. The water leakage plate 110 is provided with a circular through hole 113, and hot air generated in the heating region 10 can enter the drying region 20 through the through hole 113 and dry the damp laundry.

The water leakage plate 110 is arranged at the bottom of the drying area 20 of the drying wardrobe, can isolate the drying area 20 from the heating area 10 at the bottom of the wardrobe, and can prevent water drops dropping from clothes from damaging heating equipment. The waterproof edge 130 is engaged with the drain board 110.

The matching position of the water leakage plate 110 and the waterproof edge 130 and the edge of the waterproof edge 130 are both provided with waterproof strips 112 protruding upwards, and the height of the waterproof strips 112 is higher than the plate surface of the water leakage plate 110. When water drops dropping from clothes flow on the water leakage plate 110 or the waterproof edge 130, the waterproof strip 112 can play a role in stopping, and can perform simple regional centralized treatment on the water drops to prevent the water drops from flowing around so as to avoid wetting the cabinet body 1 of the wardrobe.

The water leakage plate 110 and the waterproof edge 130 are both provided with water leakage holes 111. The surfaces of the water leakage plate 110 and the waterproof edge 130 are both provided with slopes inclining towards the center, and the water leakage holes 111 are located at the bottom positions of the slopes. Thus, the water drops dropped from the clothes can slide down to the position of the water leakage holes 111 along the slope of the water leakage plate 110 and the waterproof edge 130, and can be directly discharged from the drying zone 20 through the water leakage holes 111. The edge of the through hole 113 is provided with an annular water storage groove 115 for collecting water drops, and the water storage groove 115 is also provided with water leakage holes 111 for discharging the water drops.

The drain pipe is connected below the water leakage hole 111, and the drain pipe can be connected with a drain pipe of a room or externally connected with a water storage structure. So that the moisture discharged from the water leakage holes 111 can be discharged out of the wardrobe through the drain pipe.

The through hole 113 of the water leakage plate 110 is provided with a grid-type air deflector, as shown in fig. 5 to 7, the integral structure of the grid-type air deflector is made of waterproof and corrosion-resistant PVC material. The grid-type air deflector comprises a top installation plate 320 and a bottom installation plate 310 which are arranged side by side up and down, the top installation plate 320 and the bottom installation plate 310 are both circular, and the bottom installation plate 310 can be matched with the through hole 113 and cover the whole through hole 113. The bottom of the installation bottom plate 310 is provided with 4 evenly distributed support legs 312, the edge of the through hole 113 is provided with 4 small holes (not marked in the figure), and the small holes correspond to the support legs 312 one by one and can be matched with each other. The 4 support legs 312 on the installation base plate 310 are embedded into the 4 small holes, so that the installation base plate 310 can be fixed on the through hole 113 of the water leakage plate 110, and the water leakage plate is simple in structure and good in stability. The number of the supporting legs 312 and the number of the small holes can be adjusted as required to ensure the stability of the grid-type wind deflector. The bottom surface of the top mounting plate 320 is provided with two symmetrical fixing pillars 321, and the top surface of the bottom mounting plate 310 is provided with two symmetrical fixing grooves 311. The fixing support 321 can be inserted into the fixing groove 311, thereby fixing the installation top plate 320 vertically above the installation bottom plate 310. The symmetrically arranged fixing pillars 321 and the fixing grooves 311 are uniformly engaged, so that the stability can be enhanced, and the installation top plate 320 can be prevented from moving or falling.

The central positions of the top mounting plate 320 and the bottom mounting plate 310 are both provided with circular air guiding openings 330, and the upper and lower air guiding openings 330 are correspondingly arranged, when the grid-type air guiding plate is mounted on the through hole 113, the positions of the air guiding openings 330 on the top mounting plate 320 and the bottom mounting plate 310 are both corresponding to the through hole 113. The air guide opening 330 is configured with a grid structure, the grid structure includes a plurality of elongated reinforcing ribs 331 arranged side by side, the plurality of reinforcing ribs 331 are uniformly dispersed, and the cross section of the reinforcing ribs 331 is "V" shaped.

The hot air formed in the heating area 10 enters the drying area 20 through the through holes 113 of the water leakage plate 110, and when passing through the grid-type air deflector, the hot air in the uniform flow direction is divided and changed in flow direction under the dividing action of the plurality of mutually parallel reinforcing ribs 331. After passing through the installation bottom plate 310 and the installation top plate 320, the hot air enters the drying area 20, and after twice division and diversion, the hot air can be diffused all around as soon as possible and rapidly spread in the whole drying area 20, so that a large amount of hot air can be prevented from directly blowing the clothes to be dried, and the clothes can be prevented from being damaged due to local heating. The cross section of the reinforcing ribs 331 is V-shaped, so that the resistance to hot air is small, the influence on wind power can be reduced, and the clothes drying efficiency is improved.

The top mounting plate 320 and the bottom mounting plate 310 have reinforcing ribs 331 arranged in a staggered manner in the vertical direction. When the grid-type air guide plate is viewed from above, the reinforcing ribs 331 on the top plate 320 and the bottom plate 310 are staggered to cover almost the entire air guide opening 330. Therefore, the reinforcing ribs 331 have a certain bearing capacity, when clothes to be dried are wet, the grid-type air deflector can bear water drops dropped from the clothes, the water drops are prevented from falling into the heating area 10 through the through holes 113, the protection of heating equipment is enhanced, and the safety performance of the drying wardrobe is improved. In addition, the reinforcing rib 331 has an arc shape with a certain curvature, the edges of the installation top plate 320 and the installation bottom plate 310 are arc shapes extending downwards, and the ends of the installation top plate 320 and the installation bottom plate 310 correspond to the water storage tank 115 at the edge of the through hole 113. Therefore, the water received by the reinforcing ribs 331 can flow toward the edge of the top mounting plate 320 or the bottom mounting plate 310 along the curvature of the reinforcing ribs 331, and finally drop into the water storage tank 115 from the edge end of the top mounting plate 320 or the bottom mounting plate 310, and is discharged out of the drying zone 20 through the water leakage holes 111. Thereby reducing the humidity of the drying area 20 as soon as possible and improving the drying efficiency.

As shown in fig. 8 and 9, the heater 30 includes a housing 410, two electric heating plates 420 and two fans 450 are disposed in the housing 410, the two electric heating plates 420 are respectively disposed right above the two fans 450, an air inlet 412 is disposed on the housing 410 below the two fans 450, two air outlets 411 are further disposed on the housing 410 above the electric heating plates 420, and the two air outlets 411 respectively correspond to the two electric heating plates 420.

As the fan 450 is operated, cool air outside the heater 30 can enter the inside of the case 410 through the air inlet 412. The fan 450 blows air upward from the bottom of the electric heating plate 420, and the cold air is heated by the electric heating plate 420 to form hot air with a suitable temperature for drying the laundry, and the hot air can be discharged from the air outlet 411. Air ducts 430 are connected to both air outlets 411, and the hot air discharged from the air outlets 411 can be conveyed along the air ducts 430.

The inside of the casing 410 is communicated with the outside through the air inlet 412, the bottom of the casing 410 is provided with the supporting column 415, and the bottom of the casing 410 is separated from the ground, so that the outside air can enter the inside of the casing 410 more smoothly. The fan 450 is located at the bottom of the electric heating plate 420, and the bottom of the electric heating plate blows air, so that the air flows from bottom to top, the movement rule of cold and hot air flow is also met, the loss of heat in the transmission process is avoided, and the energy consumption is reduced.

The two air outlets 411 are respectively provided with a grating 440, when the hot air heated by the electric heating plate 420 enters the air guide pipe 430, the hot air is divided, guided and mixed again by the grating 440, and the temperature, the flow rate and the like of the air conveyed in the air guide pipe 430 are not greatly fluctuated. The hot air in the air guide pipe 430 tends to be more uniform, and is milder when drying the clothes, so that the clothes can be prevented from being damaged, and the clothes can be prevented from being dried unevenly. In addition, if sundries drop off carelessly, the grating plate 440 can prevent the sundries from entering the shell 410, so that the inside of the shell 410 is kept clean, and the normal operation of the equipment is ensured.

The cabinet body 1 of the drying wardrobe is provided with a heating area 10 and a drying area 20, the drying area 20 is positioned above the heating area 10, and the top of the cabinet body 1 is also provided with an air outlet.

The heater 30 is arranged in the heating area 10, and then hot air is conveyed from the bottom of the wardrobe to the upper part of the wardrobe to dry clothes, so that the drying wardrobe which can be arranged in a hotel room is formed, and the requirement of a customer on drying the clothes can be met. And, heater 30 simple structure installs easily, and it is little to take up an area of, can not influence the storage space of wardrobe, and the suitability is strong.

The drying area 20 is arranged above the heating area 10, the drying wardrobe can be provided with two drying areas 20, the two drying areas 20 are respectively connected with the two air outlets 411 of the heater 30 through the air guide pipe 430, the two drying areas 20 are mutually independent, and drying treatment at different temperatures and different air speeds can be realized. The heating temperatures of the two electric heating plates 420 are respectively adjusted, and the temperatures of the hot air discharged from the two air outlets 411 are different, so that the drying processes of different temperatures can be performed on the two drying regions 20. The wind speeds of the two fans 450 are respectively adjusted, and the wind speeds of the hot wind exhausted from the two air outlets 411 are different, so that the drying treatment with different wind speeds can be performed on the two drying areas 20. Thus, the function of zone management can be realized by adjusting the two electric heating plates 420 and the two fans 450. In the drying process, the humidity air can be exhausted from the air outlet at the top of the cabinet body 1.

The heater 30 is further connected with a central control device, and the electric heating plate 420 and the fan 450 are electrically connected with and controlled by the central control device. The central control device may monitor the operation state of the electric heating plate 420 and the fan 450. The external human-computer interaction touch screen 460 of the central control equipment is arranged on the cabinet body 1 of the drying wardrobe, corresponding operation indexes can be input through the touch screen 460, the heating temperature of the electric heating plate 420 or the wind speed of the fan 450 is further adjusted, and operation is convenient and fast.

As shown in fig. 10 to 12, the air duct 430 includes a bendable duct 431, one end of the duct 431 is a fixed end 432, the other end is a free end 433, and both ends are provided with connectors 434. The fixed end 432 is connected with the air outlet of the heater 30, and the free end 433 is connected with the through hole 113 of the water leakage plate 110. The pipeline 431 is provided with a continuous corrugated structure, and the corrugated structure can also stretch, so that the length of the pipeline 431 can be changed due to the stretching of the corrugated structure, and the pipeline can adapt to drying wardrobes of different specifications and is not limited by the distance between a heat sink and the water leaking plate 110 during installation and selection. The corrugated structure provides some seating and retention of the inner wall of conduit 431. When clothes are dried by using the dried clothes, if water drops drop and enter the arc-shaped air deflector through the obstruction of the grid-type air deflector, the water drops are difficult to continuously flow to the heater 30 along the inner wall of the pipeline 431 under the obstruction action of the corrugated structure and are temporarily stored in the arc-shaped structure. In the state that the heater 30 is operated, hot wind passes through the duct 431, and heat-treats the moisture in the corrugated structure to be easily volatilized, and enters the drying zone 20 together with the hot wind, so that the heater 30 can be prevented from being damaged by water droplets.

The end of the joint 434 away from the pipe 431 is provided with a flange 435, the flange 435 of the joint 434 provided at the fixed end 432 can be clamped at the air outlet of the shell of the heater 30, and the flange 435 of the joint 434 provided at the free end 433 can be clamped at the through hole 113 of the water leakage plate 110, so that the stability of connection is ensured and the pipe 431 is prevented from falling off.

The outer wall of the pipeline 431 is further wrapped with a layer of aluminum foil, and the effects of heat preservation, moisture prevention and fire prevention can be achieved.

As shown in fig. 13 and 14, the cabinet 1 includes an inner frame layer 11 and an outer insulating layer 12.

The frame layer 11 inside the cabinet 1 is a stainless steel frame. When the drying wardrobe is used for drying clothes, the temperature and the humidity inside the wardrobe body 1 are higher, the inner frame layer 11 is made of hard stainless steel, and the structural stability is good. The interlayer made of metal has good supporting performance, and can prevent the cabinet body 1 from deforming due to long-time heating and moisture. When hot air is used for drying clothes, a large amount of water vapor diffuses in the cabinet, and the stainless steel frame layer 11 is not easy to rust in the environment with high temperature and high humidity in the cabinet body 1, so that the service life of the wardrobe is prolonged. In addition, metal materials such as stainless steel have good heat conduction performance, so that the temperature balance in the cabinet body 1 can be ensured.

The heat insulation layer 12 outside the cabinet body 1 is a wood plate. Wooden board heat-proof quality is good, and the outside parcel of frame layer 11 has ligneous insulating layer 12, and the external temperature of the avoiding cabinet body 1 that can be fine is too high to can prevent that the user from scalding, the security performance of reinforcing stoving wardrobe. The wood heat insulation layer 12 prevents the temperature in the cabinet body 1 from conducting outwards, reduces energy loss and improves the utilization rate of heat energy. On the other hand, the wood board has better processing performance, and the outer edge surface of the heat insulation layer 12 can be painted or pasted with paper, so that the appearance of the drying wardrobe is consistent with the decoration style of a room.

Example 2

Fig. 15 and 16 schematically show a drying wardrobe according to another embodiment of the present invention. The difference from example 1 is that:

the air deflector is conical, the conical air deflector is fixed on the through hole 113 of the water leakage plate 110, and the conical air deflector is made of waterproof and corrosion-resistant PVC materials. The conical air deflector comprises a circular panel 210 positioned at the top and an air guiding curved surface 220 connected with the panel 210, wherein 3 supporting legs 221 are uniformly arranged on the air guiding curved surface 220, and the whole air guiding curved surface is of an inverted circular cone structure. The through hole 113 is provided with 3 small holes, and 3 support legs 221 can be embedded into the small holes, so that the conical air deflector is fixed. 3 stabilizer blades 221 evenly distributed can guarantee that the toper aviation baffle atress is even, strengthens the steadiness, prevents that the toper aviation baffle from removing or toppling over.

The hot air formed in the heating area 10 enters the drying area 20 through the through hole 113, and changes the flow direction under the action of the air guiding curved surface 220 when passing through the tapered air guiding plate. The hot air is blocked by the air guide curved surface 220, and then is uniformly dispersed to the periphery from the gap between the conical air guide plate and the through hole 113, and is rapidly diffused to the whole space of the drying area 20, so that the temperature difference between different positions of the drying area 20 is not large. The conical air deflector can prevent the hot air from directly blowing the clothes, reduce the temperature difference between the hot air and the air in the drying area 20 and prevent the clothes from being damaged due to local heating. The air guide curved surface 220 is a smooth and uniform vertebral body side surface, has small resistance to rising hot air, can reduce the influence on wind power, and improves the clothes drying efficiency.

The support leg 221 includes a first support column 223 and a second support column 222, one end of the first support column 223 is connected with the air guiding curved surface 220, and the other end of the first support column 223 is connected with the second support column 222; the first support column 223 has a larger diameter than the second support column 222, and the second support column 222 can be extended or retracted into the interior of the first support column 223. Also, the length of the second support pole 222 extending beyond the first support pole 223 can be controlled, similar to the support pole structure of a folding umbrella. Therefore, the height of the supporting leg 221 can be adjusted by pulling out or pushing in the second supporting column 222 from the first supporting column 223, and further, the distance between the panel 210 of the tapered air deflector and the water leakage plate 110 can be adjusted, so that the flow rate of the hot air in the heating zone 10 entering the drying zone 20 can be controlled as required. When the humidity of the clothes to be dried is high or the amount of the clothes to be dried is large, the hot air with a large flow rate can be used for drying, and at this time, the height of the supporting legs 221 can be increased. When the humidity of the clothes to be dried is small or the amount of the clothes to be dried is small, the hot air with a small flow rate can be used for drying, and at this time, the height of the supporting legs 221 can be adjusted to be small.

The top panel 210 is a downwardly concave arc with some receiving capacity. If the humidity of the laundry to be dried is high, the dropped water drops may be temporarily stored on the panel 210 and evaporated by the hot air, and discharged out of the wardrobe together with the air of the drying zone 20.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (8)

1. A drying wardrobe is characterized by comprising a wardrobe body (1) and a wardrobe door (2), wherein the wardrobe body (1) comprises a heating area (10) and a drying area (20), the drying area (20) is arranged above the heating area (10), and an air outlet (3) is formed in the top of the wardrobe body (1); the heating zone (10) is provided with a heater (30); the heating area (10) is communicated with the drying area (20), and a water leakage structure is arranged between the heating area (10) and the drying area (20);

the water leakage structure comprises a water leakage plate (110), the water leakage plate (110) is arranged at the bottom of the drying area (20), water leakage holes (111) are formed in the water leakage plate (110), and the water leakage holes (111) are connected with a water drainage pipe (120).

2. The drying wardrobe according to claim 1, wherein said draining board (110) is further provided with a through hole (113), and said through hole (113) is connected with said heater (30).

3. The drying wardrobe according to claim 2, wherein the through hole (113) is provided with a wind deflector.

4. The drying wardrobe according to claim 3, wherein the air guiding plate is of a conical structure and comprises a panel (210) with a circular top, and an air guiding curved surface (220) connected with the panel (210), and the air guiding curved surface (220) is provided with supporting legs (221).

5. The drying wardrobe of claim 3, wherein the air deflector comprises a mounting base plate (310), the mounting base plate (310) is provided with an air guiding opening (330), and the air guiding opening (330) is configured with a grid structure.

6. The drying wardrobe according to claim 3, characterized in that said heater (30) comprises a casing (410) and a central control device, an electric heating plate (420) and a fan (450) being arranged inside said casing (410), said electric heating plate (420) and said fan (450) being electrically connected to said central control device;

the electric heating plate (420) is positioned above the fan (450); still be equipped with air outlet (411) on casing (410), air outlet (411) are located the top of electric plate (420).

7. The drying wardrobe according to claim 6, wherein said heater (30) further comprises a wind duct (430) comprising a bendable duct (431);

one end of the pipeline (431) is a fixed end (432), and the other end of the pipeline (431) is a free end (433); the fixed end (432) is connected with the air outlet (411); the free end (433) is connected with the through hole (113).

8. The drying wardrobe according to any one of claims 1 to 7, characterized in that said cabinet body (1) comprises an inner frame layer (11) and an outer insulating layer (12); the frame layer (11) is a metal frame, and the heat insulation layer (12) is a wood plate.

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