CN217592647U - Multi-temperature-zone refrigerated bathroom cabinet - Google Patents

Abstract

The utility model discloses a multi-temperature-zone refrigerated bathroom cabinet, it includes: the cabinet body is provided with at least two accommodating spaces, and a heat insulation plate is arranged between every two adjacent accommodating spaces; the cooling module is arranged at the top of the cabinet body; the flow guide module is arranged below the cooling module; and a cabinet door; the cabinet is internally provided with a plurality of gas channels, hot air in different accommodating spaces enters the flow guide module through the gas channels and is guided to the cooling module through the flow guide module, and cold air obtained by cooling through the cooling module is guided back to the gas channels through the flow guide module and then returns to different accommodating spaces of the cabinet body through the gas channels. By implementing the utility model, different accommodating spaces can be controlled to different temperatures by controlling the output quantity of cold air; and a set of cooling module can be adopted to realize multi-temperature-zone control, the structure is simple, and the temperature control precision is high.

Description

Multi-temperature-zone refrigerated bathroom cabinet

Technical Field

The utility model relates to a bathroom cabinet field especially relates to a multi-temperature-zone refrigerated bathroom cabinet.

Background

The bathroom cabinet is a storage cabinet used in a bathroom, and is generally used for storing toiletries, cosmetics, and the like. Along with the improvement of living standard of people, cosmetics are increasingly diversified, and different cosmetics have different requirements on storage environment, particularly on storage temperature. Accordingly, there is a need to provide a bathroom cabinet that can provide multiple storage temperatures.

On the other hand, the general structure of current bathroom cabinet is comparatively simple, does not possess the cold-stored function many. In order to make a bathroom cabinet have a refrigeration function, a refrigeration device is generally arranged in a cabinet body of the bathroom cabinet in the prior art. Because the refrigerating device and the required matching components thereof are complex, only one refrigerating device is often arranged, and the refrigerating requirement of a multi-temperature area cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a multi-temperature-zone refrigerated bathroom cabinet is provided, its differentiation temperature control that can realize different accommodation space in the bathroom cabinet enriches cold-stored function.

In order to solve the technical problem, the utility model provides a multi-temperature-zone refrigerated bathroom cabinet, it includes:

the cabinet body is provided with at least two accommodating spaces, and a heat insulation plate is arranged between every two adjacent accommodating spaces;

the cooling module is arranged at the top of the cabinet body;

the flow guide module is arranged below the cooling module; and

a cabinet door;

the cabinet is internally provided with a plurality of gas channels, hot air in different accommodating spaces enters the flow guide module through the gas channels and is guided to the cooling module through the flow guide module, and cold air obtained by cooling through the cooling module is guided back to the gas channels through the flow guide module and then returns to different accommodating spaces of the cabinet body through the gas channels.

As an improvement of the above technical solution, the flow guide module comprises a flow guide plate and a plurality of air extracting and feeding fans arranged above the flow guide plate;

the air-cooling type air conditioner is characterized in that a plurality of partition plates are arranged on the guide plate, the guide plate is divided into a hot air cooling area and a cold air flow guide area by the aid of the plurality of partition plates, the cooling module is arranged in the hot air cooling area, and the air pumping and air conveying fan is arranged in the cold air flow guide area.

As an improvement of the above technical solution, the cabinet body includes a housing, a back plate and a back plate cover plate, and the accommodating space includes a top accommodating space and a bottom accommodating space;

the guide plate and the back plate are enclosed to form a first hot air inlet channel and a first cold air outlet channel; hot air in the top accommodating space enters the hot air cooling area through the first hot air inlet channel, and cold air obtained by cooling through the cooling module enters the top accommodating space through the first cold air outlet channel.

As an improvement of the technical scheme, the guide plate is provided with a first air inlet hole and a first air outlet hole which are communicated with the top accommodating space.

As an improvement of the above technical solution, the back plate is provided with a plurality of concave portions integrally formed with the back plate, the concave portions are matched with the back plate cover plate to form a plurality of second hot air inlet channels and second cold air outlet channels, hot air in the bottom accommodating space enters the hot air cooling area through the second hot air inlet channels, and cold air obtained by cooling through the cooling module enters the bottom accommodating space through the second cold air outlet channels.

As an improvement of the technical scheme, a second air inlet hole and a second air outlet hole are formed in the side wall of the bottom accommodating space.

As an improvement of the above technical solution, the flow guiding module further includes a fan housing disposed above the flow guiding plate, and the air-extracting and-sending fan is mounted on the fan housing.

As an improvement of the technical scheme, temperature sensors are arranged beside the first air inlet hole, the second air inlet hole, the first air outlet hole and the second air outlet hole.

As an improvement of the technical scheme, a first sealing strip used for sealing the cabinet door is arranged between the cabinet body and the cabinet door, and a second sealing strip corresponding to the heat insulation plate is arranged on the cabinet door.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses a multi-temperature-zone refrigerated bathroom cabinet, including the cabinet body, cooling module, water conservancy diversion module and cabinet door, wherein, the cabinet body divides into a plurality of accommodation spaces through the thermal insulation board, and the internal many gas passage that set up of cabinet, different accommodation space's hot-air gets into the water conservancy diversion module via gas passage to through water conservancy diversion module water conservancy diversion to cooling module, obtain the cold air after being cooled off by cooling module again, the cold air is through water conservancy diversion module, gas passage transport back different accommodation space. By controlling the output of the cold air, different accommodating spaces can be controlled to different temperatures. Based on the structure, one set of cooling module can be adopted to realize multi-temperature-zone control, the structure is simple, and the temperature control precision is high.

Drawings

Fig. 1 is a schematic structural view (exploded view) of a multi-temperature zone refrigerator bathroom cabinet according to an embodiment of the present invention;

fig. 2 is a schematic structural view (exploded view) of the cabinet in an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of a gas channel according to an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of a gas channel according to another embodiment of the present invention;

fig. 5 is a schematic structural diagram of a flow guide plate according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to specific embodiments.

Referring to fig. 1, the utility model provides a refrigerated bathroom cabinet with multi-temperature-zone, it includes the cabinet body 1, cools off module 2, water conservancy diversion module 4, cabinet door 4 and locates the cabinet body 1 and the cabinet door 4 between first sealing strip 5. Wherein, the cooling module 2 is arranged at the top of the cabinet body 1; the diversion module 4 is arranged below the cooling module 2. The cabinet body 1 comprises at least two accommodating spaces, a plurality of gas channels are arranged in the cabinet body 1, hot air in different accommodating spaces enters the flow guide module 4 through the gas channels, the hot air is guided to the cooling module 3 through the flow guide module 4, cold air obtained by cooling through the cooling module 3 is guided back to the gas channels through the flow guide module 4, and then the cold air returns to different accommodating spaces of the cabinet body 1 through the gas channels. Based on the scheme, different accommodating spaces can be controlled to have different temperatures by controlling the output quantity of the cold air. In addition, the scheme can adopt one set of cooling module 2 to realize multi-temperature-zone control, and has simple structure and high temperature control precision.

It should be noted that the bathroom cabinet in the present invention refers to a cabinet arranged in a bathroom, which may be a traditional bathroom cabinet or a mirror cabinet, but is not limited thereto.

Referring to fig. 2, the cabinet 1 includes a housing 11, a back plate 12, a back plate cover 13 and a thermal insulation plate 18, wherein the back plate 12 is provided with a recess 121 integrally formed with the back plate 12, and the recess 121 and the back plate cover 13 cooperate to form a plurality of gas channels. The top of the back plate 12 and the baffle 31 enclose a plurality of gas channels. Through the gas channel, hot air output and cold air input of different accommodating spaces can be realized, and further the multi-temperature-zone refrigerating space is obtained.

Specifically, referring to fig. 3, in the present embodiment, the bathroom cabinet 1 is provided with two temperature zones, i.e., a top accommodation space 14 and a bottom accommodation space 15. The guide plate 31 and the back plate 12 enclose to form a first hot air inlet channel 314 and a first cold air outlet channel 315, a first air inlet hole 316 and a first air outlet hole 317 are arranged on the guide plate 31, hot air in the top accommodation space 14 enters the first hot air inlet channel 314 through the first air inlet hole 316, and after being cooled by the cooling module 2, the obtained cold air is guided through the first cold air outlet channel 315 and then discharged to the top accommodation space 14 through the first air outlet hole 317, so that the cooling of the top accommodation space 14 is realized.

Further, in order to achieve precise temperature control, temperature sensors (not shown) are disposed near the first air inlet hole 316 and the first air outlet hole 317, so as to control the amount of cold air discharged based on the temperature.

Specifically, in the present embodiment, the concave portion 121 cooperates with the back cover plate 13 to form the second hot air inlet passage 16 and the second cold air outlet passage 17, and the second air inlet hole 151 and the second air outlet hole 152 are provided on the side wall of the bottom accommodating space 15. The top of the second hot gas inlet passage 16 communicates with the first hot gas inlet passage 314. The hot air in the bottom accommodating space 15 enters the second hot air inlet channel 16 through the second air inlet hole 151, and after being cooled by the cooling module 2, the obtained cold air is guided through the second cold air outlet channel 17, and then is discharged to the bottom accommodating space 15 through the second air outlet hole 152, so as to cool the bottom accommodating space 15.

Further, the second outlet holes 152 and the second inlet holes 151 are oppositely disposed to increase the flow rate of the gas in the bottom accommodating space 15, thereby increasing the cooling efficiency. And, temperature sensors are provided beside the second air intake holes 151 and the second air outlet holes 152 to control the amount of cool air discharged based on the temperature.

It should be noted that, the utility model discloses well accommodation space's the figure that sets up is not limited to two, can set up a plurality of accommodation space to set up many gas passage who accesss to different accommodation space in the cabinet body 1, and then realize the circulation of hot air and cold air in the different accommodation space. It should be noted that the gas channel setting mode of the middle top accommodation space is not limited to the above mode. Specifically, referring to fig. 4, in another embodiment of the present invention, a third air outlet 141 for outputting cool air is provided on the sidewall of the top receiving space 14, and a third cool air outlet channel 19 is formed between the back plate 12 and the back plate cover plate 13. The hot air in the top accommodation space 14 is cooled, guided by the third cold air outlet channel 19, and finally enters the top accommodation space 14 through the third air outlet hole 141.

Referring to fig. 1, the airflow guiding module 3 includes an airflow guiding plate 31, an air extracting and feeding fan 32 and a fan cover 33, the airflow guiding plate 31 is fixedly connected with the cabinet 1, the fan cover 33 is fixedly connected with the airflow guiding plate 31, and the air extracting and feeding fan 32 is installed on the fan cover 33.

Specifically, referring to fig. 5, a plurality of partition plates 311 are disposed on the flow guide plate 31, the plurality of partition plates 311 divide the flow guide plate 31 into a hot air cooling area 312 and a cold air guiding area 313, the cooling module 2 is disposed in the hot air cooling area 312, and the air-extracting and air-sending fan 32 is disposed in the cold air guiding area 313. The first hot gas inlet channel 314 and the second hot gas inlet channel 16 are communicated with the hot gas cooling area 312, and the first cold gas outlet channel 315 and the second cold gas outlet channel 17 are communicated with the cold gas diversion area 313. The hot gas cooling area 312 is communicated with the cold gas guiding area 313 through a cold gas circulation channel 318. The cool air flow passage 318 is disposed between the rear wall of the air guide plate 31 and the fan housing 33 to allow cool air cooled by the cooling module 2 to enter the cool air flow guide region 313.

The number of the hot air cooling area 312, the cold air guiding area 313 and the pumping fan 32 may be one or more. Specifically, in this embodiment, one hot air cooling area 312 may be provided, and one cold air guiding area 313 may be provided at each of both sides, and one suction fan 32 may be provided in each cold air guiding area 313, so that the cold air output from the two cold air guiding areas 313 may be respectively supplied to the top accommodating space 14 and the bottom accommodating space 15. In another embodiment, a plurality of hot gas cooling zones 312 and a plurality of cold gas guiding zones 313 may be provided, spaced apart; the air suction and delivery fan 32 is arranged in each cold air flow guide area 313, and by adopting the arrangement, cold air generated by different cold air flow guide areas 313 can be delivered to different positions of the cabinet body, so that multiple temperature areas of the cabinet body are realized.

Referring to fig. 1 and 3, the cooling module 2 includes a refrigerator 21 and a plurality of cooling fins 22, between which a passage for hot air cooling is formed 32. By the above arrangement, the cooling efficiency of the cooling module 2 can be improved. Specifically, the refrigerator 31 may be a semiconductor refrigerator commonly used in the art, or may be a forced cooling fan, etc., but is not limited thereto.

The working principle of the refrigerated bathroom cabinet with multiple temperature zones in the embodiment is as follows: the hot air in the top accommodating space 14 rises and enters the first hot air inlet channel 314 through the first air inlet hole 316 under the negative pressure formed by the air extracting and feeding fan 32, enters the hot air cooling area 312 through the first hot air inlet channel 314, and is cooled by the cooling module 2 arranged in the hot air cooling area 312 to obtain cold air; the cool air moves to the cool air guiding region 313 through the cool air flowing channel 319 under the negative pressure formed by the air exhausting and supplying fan 32, is discharged to the first cool air discharging channel 315 by the air exhausting and supplying fan 32, and finally enters the top accommodating space 14 through the first air discharging hole 317, thereby completing the cooling of the top accommodating space 14. The hot air in the bottom accommodating space 15 rises, enters the second hot air inlet channel 16 through the second air inlet holes 151 under the action of the negative pressure formed by the air extracting and feeding fan 32, converges to the first hot air inlet channel 314 at the top end of the second hot air inlet channel 16, enters the hot air cooling area 312 through the first hot air inlet channel 314, and is cooled by the cooling module 2 arranged in the hot air cooling area 312 to obtain cold air; the cold air moves to the cold air guiding region 313 through the cold air flowing channel 319 under the negative pressure formed by the air exhausting and supplying fan 32, is discharged to the second cold air outlet channel 17 by the air exhausting and supplying fan 32, and finally enters the bottom accommodating space 15 through the second air outlet hole 152, thereby completing the cooling of the bottom accommodating space 15. By controlling the amount of cold air entering the top and bottom accommodation spaces 14, 15, a different refrigeration temperature can be achieved.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and decorations can be made, which are also considered as the protection scope of the present invention.

Claims (9)

1. A multi-temperature zone refrigerated bathroom cabinet comprising:

the cabinet body is provided with at least two accommodating spaces, and a heat insulation plate is arranged between every two adjacent accommodating spaces;

the cooling module is arranged at the top of the cabinet body;

the flow guide module is arranged below the cooling module; and

a cabinet door;

the cabinet is internally provided with a plurality of gas channels, hot air in different accommodating spaces enters the flow guide module through the gas channels, the hot air is guided to the cooling module through the flow guide module, cold air obtained by cooling through the cooling module is guided back to the gas channels through the flow guide module, and then returns to different accommodating spaces of the cabinet body through the gas channels.

2. A multi-temperature zone refrigerated bathroom cabinet as recited in claim 1 wherein said deflector module includes a deflector and a plurality of suction plenum fans disposed above said deflector;

the air-cooling type air conditioner is characterized in that a plurality of partition plates are arranged on the guide plate, the guide plate is divided into a hot air cooling area and a cold air flow guide area by the aid of the plurality of partition plates, the cooling module is arranged in the hot air cooling area, and the air pumping and air conveying fan is arranged in the cold air flow guide area.

3. A multi-temperature zone refrigerated bathroom cabinet as recited in claim 2 wherein said cabinet body includes a housing, a back panel and a back panel cover, said receiving space includes a top receiving space and a bottom receiving space;

the guide plate and the back plate are enclosed to form a first hot air inlet channel and a first cold air outlet channel; the hot-air via in the top accommodation space first steam inlet channel gets into hot gas cooling district, the cold air through cooling module cooling gained gets through first air conditioning outlet channel gets into the top accommodation space.

4. A multi-temperature zone refrigerated bathroom cabinet as recited in claim 3 wherein said deflector has a first inlet aperture and a first outlet aperture communicating with said top receiving space.

5. The multi-temperature-zone refrigerated bathroom cabinet of claim 4 wherein the back panel has a plurality of recesses formed integrally therewith, the recesses cooperating with the back panel cover to form a plurality of second hot air inlet channels and a plurality of second cold air outlet channels, hot air in the bottom receiving space entering the hot air cooling zone via the second hot air inlet channels, and cold air cooled by the cooling module entering the bottom receiving space via the second cold air outlet channels.

6. A multi-temperature zone refrigerated bathroom cabinet as claimed in claim 5 wherein the side wall of said bottom receiving space is provided with a second air inlet hole and a second air outlet hole.

7. The multi-temperature-zone refrigerated bathroom cabinet of any one of claims 2 to 6 wherein the deflector module further comprises a fan housing disposed above the deflector, the air extracting and sending fan being mounted on the fan housing.

8. The multi-temperature-zone refrigerated bathroom cabinet of claim 6 wherein temperature sensors are disposed adjacent to the first air inlet, the second air inlet, the first air outlet and the second air outlet.

9. The multi-temperature-zone refrigerated bathroom cabinet of claim 1, wherein a first sealing strip for sealing the cabinet door is provided between the cabinet body and the cabinet door, and a second sealing strip provided corresponding to the heat insulating plate is provided on the cabinet door.

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