CN217959289U - Mirror cabinet - Google Patents

Abstract

The utility model discloses a mirror cabinet, mirror cabinet includes: the cabinet body is provided with a storage cavity, an installation cavity and a communication port for communicating the installation cavity and the storage cavity; and the condensation dehumidifying assembly is arranged in the mounting cavity and is used for reducing the air humidity in the mounting cavity. According to the utility model discloses mirror cabinet, through installation cavity and storing chamber intercommunication, and condensation dehumidification subassembly is used for the installation cavity dehumidification, need not the dehumidification drying effect that the heating can realize the storing chamber, avoid the article in the storing chamber to wet and go mildy, ageing or rotten to can reduce the humidity in the installation cavity, avoid mirror cabinet internally mounted part to wet and damage, also avoid taking place panel corruption, the deformation scheduling problem, be favorable to improving mirror cabinet's structural stability and safety in utilization.

Description

Mirror cabinet

Technical Field

The utility model relates to the technical field of furniture, more specifically relates to a mirror cabinet.

Background

In humid environments, such as bathroom environments, items in mirror cabinets (skin care products, cosmetics, make-up tools, etc.) are susceptible to damp and mildew during long-term storage.

In the related art, the dehumidifying and drying function is realized by a method of installing a heating device on a mirror cabinet. However, the heating device may cause the temperature in the cabinet to rise, so that the articles in the cabinet are heated, and the high temperature is easy to accelerate the aging of the articles, cause the cosmetic tools to be damaged and cause the cosmetics to deteriorate. For example, lipstick is easy to melt and deteriorate in a high-temperature environment, and even bacteria are bred, so that the problems of lip skin inflammation and the like are caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a mirror cabinet, mirror cabinet need not the heating and can realize the dry effect of dehumidification.

According to the utility model discloses mirror cabinet, include: the cabinet body is provided with a storage cavity, an installation cavity and a communication port for communicating the installation cavity and the storage cavity; and the condensation dehumidifying assembly is arranged in the mounting cavity and is used for reducing the air humidity in the mounting cavity.

According to the utility model discloses mirror cabinet, through installation cavity and storing chamber intercommunication, and the condensation dehumidification subassembly is used for the installation cavity dehumidification, need not the dehumidification drying effect that the heating can realize the storing chamber, avoid the article in the storing chamber to wet and go mildy, ageing or rotten to can reduce the humidity in the installation cavity, avoid mirror cabinet internally mounted part to wet and damage, also avoid taking place panel corruption, the scheduling problem warp, be favorable to improving mirror cabinet's structural stability and safety in utilization.

In addition, according to the utility model discloses mirror cabinet of above-mentioned embodiment can also have following additional technical characterstic:

according to some embodiments of the invention, the condensation dehumidification assembly comprises: a semiconductor chip having a cooling end; the condenser is connected with the refrigerating end and used for condensing the water vapor in the mounting cavity.

According to some embodiments of the utility model, the mirror cabinet still includes: and the collector is arranged on the lower side of the condenser and is used for collecting condensed water.

According to the utility model discloses a some embodiments, the condenser includes a plurality of fins, and is a plurality of the fin is along transversely arranging, every the cross-sectional area of fin steadilys decrease along vertical downwards.

According to some embodiments of the utility model, the cabinet body still is equipped with detachable water storage container, water storage container pass through the water receiving pipe with the collector intercommunication.

According to the utility model discloses a some embodiments, the cabinet body is equipped with and is used for detecting the level sensor of water level in the water storage container, semiconductor chip with the level sensor electricity is connected, with the basis level sensor's testing result work.

According to the utility model discloses a some embodiments, the cabinet body still has heat dissipation channel, heat dissipation channel and outside intercommunication, the condensation dehumidification subassembly includes: a semiconductor chip having a heat dissipating end; the radiator is connected with the radiating end of the semiconductor chip, and at least one part of the radiator is positioned in the radiating channel.

According to some embodiments of the utility model, the cabinet body be equipped with air intake and air outlet of heat dissipation channel intercommunication, the air intake with the air outlet is located respectively the both ends of the roof of the cabinet body, perhaps locate respectively the both ends of the lateral wall of the cabinet body.

According to some embodiments of the utility model, the internal first driving piece that is equipped with of cabinet, first driving piece is used for the drive air in the heat dissipation channel flows.

According to some embodiments of the utility model, be equipped with the second driving piece in the installation cavity, the export of second driving piece with storing chamber intercommunication, in order to drive the gas flow in the storing chamber.

According to some embodiments of the invention, the second drive is disposed adjacent to the condensation dehumidification assembly.

According to some embodiments of the utility model, the export of second driving piece with the intercommunication mouth is located the same lateral wall in storing chamber.

According to some embodiments of the invention, the condensation dehumidification assembly is disposed adjacent to the communication port.

According to the utility model discloses a some embodiments, the cabinet body is including cabinet body and the door body, the door body is located the cabinet body just is used for opening and closing the mouth is got to getting in storing chamber the door body is closed get under the state of putting the mouth, the door body with get the sealed cooperation in week edge of putting the mouth.

According to some embodiments of the utility model, the cabinet body with one of the door body is equipped with the detector, and another is equipped with the trigger piece, the trigger piece is in the door body is closed trigger when getting put the mouth the detector, the condensation dehumidification subassembly with the detector electricity is connected, the condensation dehumidification subassembly sets to work preset time when the detector is triggered.

According to some embodiments of the utility model, the mirror cabinet still includes: the detection end of the humidity sensor extends into the storage cavity; the control assembly, humidity transducer with the condensation dehumidification subassembly respectively with the control assembly electricity is connected, the control assembly is used for when humidity transducer's testing result satisfies the preset condition control the work of condensation dehumidification subassembly.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a front view of a mirror cabinet according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a mirror cabinet according to an embodiment of the present invention;

fig. 3 is a schematic view of the internal structure of a mirror cabinet according to some embodiments of the present invention;

fig. 4 is a schematic view of the internal structure of a mirror cabinet according to other embodiments of the present invention;

fig. 5 is an electrical schematic diagram of a mirror cabinet according to an embodiment of the present invention;

fig. 6 is a schematic control logic diagram of a mirror cabinet according to an embodiment of the present invention.

Reference numerals are as follows:

a mirror cabinet 100;

a cabinet body 10; a storage chamber 101; a mounting cavity 102; a communication port 103; a heat dissipation channel 104; an air inlet 105; an air outlet 106; a placement chamber 107; a cabinet body 11; a door body 12; a laminate 13; a mounting location 14;

a condensing and dehumidifying module 20; a semiconductor chip 21; a condenser 22; a radiator 23;

a control assembly 30; a collector 31; a water storage container 32; a water receiving pipe 33; a water level sensor 34; a humidity sensor 35; a water pipe connector 36;

the first driving member 41; a second drive member 42; a detector 43; a trigger 44; a display assembly 45; a power supply assembly 46.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the invention, "a first feature" or "a second feature" may include one or more of the features, "a plurality" means two or more, the first feature may be "on" or "under" the second feature, including the first and second features being in direct contact, or may include the first and second features being in contact through another feature not in direct contact, but in between, and the first feature being "on", "above" or "over" the second feature may include the first feature being directly above and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature.

In a humid environment, such as a bathroom environment, items in the mirror cabinet (skin care products, cosmetics, make-up tools, etc.) are prone to getting damp and mildewed over long periods of storage. In some related arts, the dehumidifying and drying function is realized by a method of installing a heating device on a mirror cabinet. The heating device is generally composed of two parts, namely a heater and a fan, wherein the heater can be a PTC heater, a resistance wire heater or other heater devices with the same heating function, and the fan can be a centrifugal fan, a cross-flow fan and the like.

However, the heating device can cause the temperature in the cabinet to rise, so that the articles in the cabinet are heated, and the aging of the articles is easily accelerated by the high temperature, the cosmetic tools are damaged, and the cosmetics are deteriorated. For example, lipstick is easy to melt and deteriorate in a high-temperature environment, even bacteria are bred, and therefore the problems of lip skin inflammation and the like are caused.

Therefore, the utility model provides a mirror cabinet 100 can enough reduce the air humidity in the space that article were located, prevents that article from depositing for a long time and making moist and go mouldy, can avoid accelerating ageing, damage or rotten scheduling problem of article again.

The cabinet 100 according to an embodiment of the present invention is described below with reference to the drawings. In some embodiments, the mirror cabinet 100 may be a bathroom mirror cabinet.

Referring to fig. 1 to 4, a mirror cabinet 100 according to an embodiment of the present invention may include: a cabinet 10 and a condensing and dehumidifying assembly 20.

Specifically, the cabinet 10 has a storage chamber 101, and the storage chamber 101 is used for placing and storing articles, such as skin care products, cosmetics, beauty tools, and the like.

Referring to fig. 3 and 4, the cabinet 10 further has a mounting cavity 102 and a communication port 103, and the communication port 103 communicates the mounting cavity 102 with the storage cavity 101, so that air in the mounting cavity 102 and air in the storage cavity 101 can be communicated through the communication port 103. Moreover, the communication mode of the communication port 103 is beneficial to increasing the communication area, so that the circulation is more sufficient, and the circulation effect is more obvious.

As shown in fig. 3 and 4, the condensation and dehumidification assembly 20 is installed in the installation cavity 102, and the condensation and dehumidification assembly 20 is used for reducing the air humidity in the installation cavity 102. Specifically, when the air in the installation cavity 102 flows through the dehumidifying and condensing assembly 20, water vapor in the air may be condensed by the dehumidifying and condensing assembly 20, so as to reduce the humidity of the air in the installation cavity 102. Because the air of installation cavity 102 and storing chamber 101 can circulate, when reducing the interior air humidity of installation cavity 102, can effectively reduce the interior air humidity of storing chamber 101 to reach the purpose that the article in the prevention and cure storing chamber 101 wet.

And, at the dehumidification in-process, mirror cabinet 100 need not the heating and can realize the dry effect of dehumidification, avoids the interior temperature rise of storing chamber 101, is favorable to slowing down article ageing, damage or rotten in the storing chamber 101, has improved user's use and has experienced and safety in utilization. Meanwhile, the temperature in the installation cavity 102 can be effectively controlled, and the problems of aging, damage and the like of the components of the mirror cabinet 100 in the installation cavity 102 are avoided.

In addition, dehumidification drying effect in installation cavity 102 and the storing chamber 101 can be realized simultaneously to condensation dehumidification subassembly 20, in other words, not only the storing chamber 101 that the user can see is difficult for weing, the installation cavity 102 that the user is difficult for seeing also can keep dry, avoid moulding because of the humidity in the installation cavity 102, avoid the inside mould or even panel corruption of mirror cabinet 100, the deformation, the holistic clean degree of mirror cabinet 100 has been improved greatly, safety in utilization and structural stability, more do benefit to the use that improves the user and experience.

It should be noted that the structure and size of the installation cavity 102 can be flexibly set according to actual situations.

For example, in some embodiments, as shown in fig. 3, the cabinet 10 may include a cabinet body 11 and a door body 12, the cabinet body 11 has a mounting cavity 102 and a storage cavity 101, and the door body 12 is used for opening and closing an access opening of the storage cavity 101. The cabinet body 11 may include an outer shell and an inner shell, wherein the inner shell defines the storage cavity 101, the inner shell is disposed in the outer shell, and an installation cavity 102 is defined between the inner shell and the outer shell. Therefore, the dehumidifying and drying of the installation cavity 102 can be realized through the condensation dehumidifying component 20, and the drying of the plate of the whole cabinet body 11 can be realized, so that the corrosion or deformation of the outer shell and the inner shell can be avoided, and the structural stability of the whole mirror cabinet 100 can be improved.

Of course, in other embodiments, as shown in fig. 4, a partition plate may be further disposed between the outer shell and the inner shell, the partition plate partitions a region between the outer shell and the inner shell to form an installation cavity 102, and a space size of the installation cavity 102 is smaller than an overall space between the outer shell and the inner shell, so that the dehumidification and drying efficiency is improved, and the effect of preventing the articles in the storage cavity 101 from being wetted is better.

In some embodiments, a communication port 103 is provided at least one of the top wall and the side wall of the storage cavity 101 to enable dehumidified dry air to enter the storage cavity 101 from the top or side of the storage cavity 101. The temperature of the drying air dehumidified by condensation is lower, the drying air entering the storage cavity 101 has a downward movement trend, and the drying air entering the storage cavity 101 from the top or the side part is easy to drive the air in the storage cavity 101 to circularly flow, so that the uniformity of air drying in the storage cavity 101 is realized.

According to the utility model discloses mirror cabinet 100, communicate through installation cavity 102 and storing chamber 101, and condensation dehumidification subassembly 20 is used for installation cavity 102 dehumidification, the dehumidification drying effect that need not the heating and can realize storing chamber 101, article in avoiding storing chamber 101 wet and go mildy, it is ageing or rotten, and can reduce the humidity in installation cavity 102, avoid mirror cabinet 100 internally mounted parts to wet the damage, also avoid taking place panel corruption, the scheduling problem warp, be favorable to improving mirror cabinet 100's structural stability and safety in utilization.

According to some embodiments of the present invention, as shown in fig. 3, the condensation dehumidification assembly 20 may include a semiconductor chip 21, the semiconductor chip 21 having a refrigeration end. When the air in the installation cavity 102 flows through the refrigerating end, water vapor in the air can be condensed under the low temperature effect of the refrigerating end, so that the humidity of the air is reduced.

In addition, the dehumidifying condensation assembly 20 can further include a condenser 22, wherein the condenser 22 is connected to a refrigeration end, and refrigeration of the refrigeration end can be transmitted to the condenser 22, so that the condenser 22 can also be used for condensing water vapor in the installation cavity 102. The refrigerating end is matched with the condenser 22, so that the contact area of the refrigerating end and the air in the installation cavity 102 can be increased, and the dehumidifying and drying efficiency is improved.

Moreover, the refrigeration end of the semiconductor chip 21 is generally a plane structure, and compared with a plane, the surface of the condenser 22 is more concave-convex, so that the adsorption force to liquid is weaker, condensed water is more favorably dripped, and long-time dehumidification of the condenser 22 and the refrigeration end is favorably realized.

And the collection mode of the condensed water can be flexibly set according to the actual situation. Wherein, in order to avoid the excessive condensed water from dripping onto the plate of the mirror cabinet 100, it is also convenient to collect more condensed water, and reduce the cleaning frequency of the condensed water, in some embodiments of the present invention, as shown in fig. 3 and 4, the mirror cabinet 100 may further include a collector 31. The collector 31 is disposed at the lower side of the condenser 22, and the collector 31 can collect the condensed water dropping from the condenser 22 and the refrigerating end, so as to prevent the condensed water from wetting the plates in the cabinet 100.

In some embodiments, as shown in fig. 3 and 4, the cabinet 10 may further include a water storage container 32, the water storage container 32 is communicated with the collector 31, and the water storage container 32 has a larger water storage space, so that the frequency of cleaning the condensed water by the user may be reduced, and the use experience may be improved.

In addition, the water storage container 32 may be detachably mounted, for example, may be mounted on the cabinet 10 in a pulling and pulling manner, so that the user can detach the water storage container 32 to pour out the collected condensed water, and can clean the water storage container 32, thereby preventing bacteria from growing in the water storage container 32.

In order to facilitate the location arrangement of the water storage container 32, the collector 31 and the condensation and dehumidification assembly 20, the water storage container 32 and the collector 31 may be communicated through a water connection pipe 33, so that the water storage container 32 and the collector 31 are not located in a far distance. For example, as shown in fig. 3 and 4, the water storage container 32 may be disposed in an area that is easily accessible to a user, such as the lower portion of the cabinet 10, so that the user can conveniently detach and mount the water storage container 32; the air containing water vapor has a relatively high temperature and is liable to flow upward in the installation cavity 102, and the collector 31 and the condensation and dehumidification unit 20 may be disposed at the upper portion of the cabinet 10 to facilitate an improvement in dehumidification and drying effects.

In some embodiments, as shown in fig. 3 and 4, the bottom wall of the collector 31 extends from one end of the bottom wall to the other end of the bottom wall in a downward inclination manner, and the water receiving pipe 33 may be connected to the other end of the bottom wall, i.e. to the lower end of the bottom wall, so as to quickly flow into the water storage container 32 when less condensed water is collected by the collector 31, thereby preventing the condensed water from splashing due to water accumulation in the collector 31.

It should be noted that the water receiving pipe 33 and the collector 31 may be integrally formed, or may be connected by an intermediate connecting component such as a water pipe connector 36, or may be directly connected by a structure such as an insertion, a plug, or the like, and it is only necessary that the water receiving pipe 33 can guide the condensed water in the collector 31 to other positions.

According to some embodiments of the present invention, as shown in fig. 3 and 4, the cabinet 10 may further be provided with a water level sensor 34, and the water level sensor 34 is used for detecting the water level in the water storage container 32. The semiconductor chip 21 is electrically connected to the water level sensor 34 so that the semiconductor chip 21 can operate according to the detection result of the water level sensor 34.

Specifically, when the water level sensor 34 does not detect that the water level in the water storage container 32 reaches the preset water level height, the semiconductor chip 21 can operate to perform dehumidification, and the condensed water generated by the dehumidification can flow into the water storage container 32 without causing the overflow of the condensed water. When the water level sensor 34 detects that the water level in the water storage container 32 reaches the preset water level height, the semiconductor chip 21 does not work, so as to avoid that the condensed water continuously generated causes the condensed water in the water storage container 32 to overflow.

In some embodiments, the water level sensor 34 includes a float extending into the reservoir 32, the float being capable of rising and falling with changes in the water level in the reservoir 32, and the water level sensor 34 detects that the water level in the reservoir 32 reaches a predetermined level when the float rises to a level at which the water level sensor 34 is triggered.

In some embodiments, the mirror cabinet 100 may further include a reminding component electrically connected to the water level sensor 34, and when the water level sensor 34 detects that the water level in the water storage container 32 reaches a preset water level height, the reminding component may send out a reminding message to remind the user to pour out the water in the water storage container 32. Optionally, the reminder component can be an audio reminder, an image reminder, a text reminder, etc., for example, the reminder component can be integrated with the display component 45 to display a reminder icon through the display component 45.

In some embodiments of the present invention, the collector 31 of the mirror cabinet 100 can also be directly communicated with the components of the bathroom through the water receiving pipe 33, for example, with the sewer and the washbasin, so as to directly discharge the collected condensed water, without setting the water storage container 32, without the need of the user to regularly clean the water storage container 32, and also thoroughly avoid the risk of overflowing the condensed water in the water storage container 32.

In the embodiment of the present invention, the specific structure of the condenser 22 can be flexibly set according to actual conditions. In some embodiments, the condenser 22 may include a plurality of fins arranged in a transverse direction, and each fin has a cross-sectional area decreasing vertically downward, such that each fin forms a sheet structure with a wide top and a narrow bottom. On the one hand, the surface area of the condenser 22 is increased to a greater extent to improve the dehumidification and drying effect, and on the other hand, the special structure of the fins is more favorable for the formed condensed water to drop downwards into the collector 31.

According to some embodiments of the present invention, as shown in fig. 3 and 4, the condensation and dehumidification assembly 20 includes a semiconductor chip 21, and the semiconductor chip 21 has a heat dissipation end to dissipate heat generated by the operation of the semiconductor chip 21. The cabinet 10 may have a heat dissipation channel 104, and the heat dissipation channel 104 communicates with the outside. The condensation and dehumidification assembly 20 may further include a heat sink 23, the heat sink 23 is connected to the heat dissipation end of the semiconductor chip 21, and at least a portion of the heat sink 23 is located in the heat dissipation channel 104.

The heat of the heat dissipation end of the semiconductor chip 21 can be conducted to the heat sink 23. Because the radiator 23 is at least partially positioned in the heat dissipation channel 104, and the heat dissipation channel 104 is communicated with the outside, the external air can enter the heat dissipation channel 104 to fully contact with the radiator 23 in the heat dissipation channel 104 to cool the radiator 23, thereby realizing the rapid cooling of the heat dissipation end of the semiconductor chip 21. The air heat-exchanged with the radiator 23 may be discharged to the outside again to avoid causing the ambient temperature inside the cabinet 10 to rise.

In some embodiments, as shown in fig. 3 and 4, the cabinet 10 may be provided with an air inlet 105 and an air outlet 106, which are communicated with the heat dissipation channel 104, wherein the external air inlet 105 enters the heat dissipation channel 104, exchanges heat with the heat sink 23, and is discharged out of the cabinet 10 through the air outlet 106.

The air inlet 105 and the air outlet 106 may be spaced apart from each other, for example, the air inlet 105 and the air outlet 106 may be respectively disposed at two ends of a top wall of the cabinet 10, or the air inlet 105 and the air outlet 106 may be respectively disposed at two ends of a side wall of the cabinet 10. On one hand, the air inlet 105 and the air outlet 106 can be separated by a larger distance, so that air with higher temperature discharged from the air outlet 106 is prevented from entering the heat dissipation channel 104 through the air inlet 105 again, the temperature of the air entering the heat dissipation channel 104 is ensured to be lower, and the heat dissipation effect on the heat sink 23 is ensured; on the other hand, the air inlet 105 and the air outlet 106 are arranged on the top wall or the side wall of the cabinet body 10, so that the air is not easy to expose, the appearance of the mirror cabinet 100 is more attractive, the air is far away from water sources such as a hand washing sink, and the risk of water inlet of the cabinet body 10 is reduced.

In some embodiments, as shown in fig. 3 and 4, a first driving element 41 may be disposed in the cabinet 10, and the first driving element 41 is used for driving the air flow in the heat dissipation channel 104 to improve the heat dissipation effect of the heat sink 23, so as to facilitate the improvement of the cooling capability of the semiconductor chip 21, and thus improve the dehumidification and drying effect.

It should be noted that the inlet of the heat dissipation channel 104 may be directly communicated with the air inlet 105, or may be indirectly communicated with the air inlet 105, and the outlet of the heat dissipation channel 104 may be directly communicated with the air outlet 106, or may be indirectly communicated with the air outlet 106.

As shown in fig. 3, the outlet of the heat dissipating channel 104 is directly communicated with the air outlet 106, so that the air with higher temperature exchanging heat with the heat sink 23 can be completely discharged to the outside, and the air is prevented from leaking into the cabinet 10 to affect the temperature stability inside the cabinet 10. The inlet of the heat dissipation channel 104 is disposed adjacent to the air inlet 105 and spaced from the air inlet 105 by a certain distance, the heat sink 23 is disposed at the air inlet 105, so as to facilitate installation of the condensation and dehumidification assembly 20, the first driving member 41 is disposed between the air inlet 105 and the heat sink 23, and the heat sink 23 is disposed at the air outlet side of the first driving member 41, so that the air inlet 105 serves as an air source of the first driving member 41, and it is ensured that the temperature of the inlet air is low, and the air blown out by the first driving member 41 can directly blow toward the heat sink 23 and enter the heat dissipation channel 104, so as to improve the cooling effect of the heat sink 23.

Of course, in other embodiments, as shown in fig. 4, the inlet of the heat dissipation channel 104 may directly communicate with the air inlet 105, and the heat sink 23 and the first driving member 41 are both located in the heat dissipation channel 104, which is more beneficial to improve the heat dissipation effect of the heat sink 23.

The specific structure of the first driving member 41 can be flexibly set according to the setting position and the like. For example, as shown in fig. 3 and 4, the air inlet 105 is disposed on the top wall of the cabinet 10, the first driving member 41 is disposed on the lower side of the air inlet 105 and located on one side of the heat sink 23 in the transverse direction, and the first driving member 41 is a centrifugal fan, so that the air flowing in from the air inlet 105 can be blown out in the radial direction and toward the heat sink 23. In other embodiments, the air inlet 105 is disposed on a side wall of the cabinet 10, the heat sink 23 is disposed on a lateral side of the air inlet 105, the first driving member 41 is disposed between the air inlet 105 and the heat sink 23, and the first driving member 41 is a cross-flow fan, so that air flowing in from the air inlet 105 can be blown out in an axial direction and toward the heat sink 23.

According to the utility model discloses a some embodiments can be equipped with temperature sensor in the heat dissipation channel 104, and temperature sensor is used for detecting the temperature of radiator 23, when the temperature that detects radiator 23 reaches early warning temperature, can control semiconductor chip 21 stop work to avoid the high temperature to lead to condensation dehumidification subassembly 20 to damage or take place the condition of a fire, improved the security. In some embodiments, the temperature sensor may also be electrically connected to the first driving element 41, so that the first driving element 41 operates according to the detection result of the temperature sensor, for example, when the temperature sensor detects that the temperature of the radiator 23 reaches a preset temperature, the first driving element 41 operates to efficiently dissipate heat of the radiator 23, and when the temperature sensor detects that the temperature of the radiator 23 is lower than the preset temperature, the first driving element 41 may stop operating, and heat exchange is performed by the radiator 23 through free air flow, so as to reduce energy consumption.

According to some embodiments of the utility model, as shown in fig. 3 and 4, can be equipped with second driving piece 42 in the installation cavity 102, the export and the storing chamber 101 intercommunication of second driving piece 42 to can drive the gas flow in the storing chamber 101 at second driving piece 42 during operation, not only can make the interior air cycle of storing chamber 101 flow, in order to improve the homogeneity of each department's air humidity in the storing chamber 101, and can improve the circulation of air between storing chamber 101 and the installation cavity 102, in order to further improve dehumidification drying effect in the storing chamber 101.

In some embodiments, as shown in fig. 3 and 4, the air source of the second driving element 42 is dry air processed by the condensing and dehumidifying assembly 20 in the installation cavity 102, and the second driving element 42 can directly blow the dry air into the storage cavity 101, which greatly improves the dehumidifying effect of the storage cavity 101.

In some embodiments, as shown with continued reference to fig. 3 and 4, the second driving member 42 may be disposed adjacent to the dehumidifying condensation assembly 20 such that the air source of the second driving member 42 is air near the dehumidifying condensation assembly 20, even if the space in the installation cavity 102 is large, the air driven into the storage cavity 101 by the second driving member 42 can be ensured to be dry.

For example, as shown in fig. 3 and 4, the condensation and dehumidification assembly 20 and the second driving member 42 are both located on the same side, e.g., the upper side, of the storage chamber 101, so that the air dehumidified by the condensation and dehumidification assembly 20 can be rapidly diffused to the second driving member 42 and enter the storage chamber 101.

In some embodiments of the present invention, the same side wall of the storage chamber 101 can be located by the outlet of the second driving member 42 and the communication port 103, such as the top wall shown in fig. 3, the second driving member 42 blows air downwards into the storage chamber 101, and the air in the storage chamber 101 flows upwards and flows out through the communication port 103 after circulating, so as to realize air circulation in the storage chamber 101 in a large range.

According to some embodiments of the utility model, as shown in fig. 3, the condensation dehumidification subassembly 20 is close to the intercommunication mouth 103 setting to make the dry air after condensation dehumidification subassembly 20 handles change in getting into storing chamber 101, be favorable to reducing the air humidity in the storing chamber 101.

According to the utility model discloses a some embodiments, intercommunication mouth 103 department is equipped with the grid, can avoid the great object of volume to pass in and out between installation cavity 102 and storing chamber 101 through setting up the grid, also is convenient for increase intercommunication mouth 103's open area, improves circulation of air effect and dehumidification effect, does not influence structure aesthetic property and integrality.

In some embodiments, as shown in fig. 3, the communication port 103 is disposed on the top wall of the storage cavity 101, so that the structure at the communication port 103 is not easily exposed, the appearance is more attractive, and the grille is prevented from being accidentally touched and falling or water enters the communication port 103.

In some embodiments of the present invention, as shown in fig. 1-3, the cabinet body 10 may include a cabinet body 11 and a door 12, the door 12 is disposed on the cabinet body 11, and the door 12 is used for opening and closing the opening of the storage chamber 101. And, under the state that the door body 12 closed and got and put the mouth, the door body 12 was put the mouth with getting the week along sealed cooperation to make the door body 12 can seal and get and put the mouth, storing chamber 101 only communicates with installation cavity 102 through intercommunication mouth 103, and other regions are all sealed, prevent that the humid air in the environment from passing through in the gap gets into storing chamber 101, have improved the effect that prevents that the article from weing in the storing chamber 101.

In some embodiments, the inner side of the door 12 may be provided with a sealing strip, and the sealing strip is pressed on the periphery of the access opening when the door 12 closes the access opening, so that the sealing effect is better.

In some embodiments, as shown in fig. 3, one of the cabinet body 11 and the door body 12 is provided with a detector 43, the other of the cabinet body 11 and the door body 12 is provided with a trigger 44, and the condensation and dehumidification assembly 20 is electrically connected to the detector 43. When the door body 12 closes the pick-and-place opening, the trigger piece 44 triggers the detector 43, and when the detector 43 is triggered, the condensation dehumidification component 20 works for a preset time. That is to say, when the door body 12 is opened or closed, it is considered that external humid air enters the storage cavity 101, and the condensation and dehumidification assembly 20 works for a preset time to rapidly reduce the air humidity in the storage cavity 101 and maintain the humidity balance in the storage cavity 101.

In some embodiments, the detector 43 is a proximity switch, the triggering member 44 is a magnetic member such as a magnet, and the magnetic member approaches the proximity switch when the door 12 is closed, so as to trigger the proximity switch. Of course, the structures of the detector 43 and the trigger 44 include, but are not limited to, those that can detect the open/close state of the door 12.

According to some embodiments of the present invention, as shown in fig. 3, mirror cabinet 100 further includes humidity sensor 35 and control assembly 30. The detection end of the humidity sensor 35 extends into the storage cavity 101 to detect the air humidity in the storage cavity 101. The control unit 30 is electrically connected to the humidity sensor 35 to receive information of the detection result of the humidity sensor 35. The control component 30 is electrically connected to the condensation and dehumidification component 20 to control the condensation and dehumidification component 20 to operate and dehumidify when the detection result of the humidity sensor 35 satisfies the preset condition.

For example, when the humidity sensor 35 detects that the humidity in the storage cavity 101 is greater than 55%, the humidity sensor 35 transmits a signal to the control component 30, the control component 30 controls the drying function to operate normally, and the condensing and dehumidifying component 20 starts to operate; when the humidity sensor 35 detects that the humidity in the storage cavity 101 is less than 45%, the humidity sensor 35 transmits a signal to the control component 30, the control component 30 controls the drying function to stop running, and the condensation dehumidifying component 20 stops working.

According to some embodiments of the present invention, in order to improve the storage capacity and functionality of the mirror cabinet 100, the cabinet body 10 may further have a placing cavity 107, the placing cavity 107 is separated from the installation cavity 102, in other words, the air of the placing cavity 107 and the installation cavity 102 cannot circulate. The placing cavity 107 is formed as a common cavity without a dehumidifying and drying function, and can be used for placing articles which are not easily affected by a damp environment, and the mirror cabinet 100 has a common storage function and a drying cavity storage function at intervals.

The structures inside the storage chamber 101 and the placing chamber 107 can be flexibly arranged according to the actual requirements. For example, a laminate 13 may be provided to divide the cavity into multiple layers to increase the storage capacity; or a hanging rack, a hook, a storage box and the like can be arranged to meet the placing requirements of different types of articles.

In some embodiments, as shown in FIG. 4, a plurality of mounting locations 14 may be disposed within the storage cavity 101, the plurality of mounting locations 14 being vertically spaced apart, each mounting location 14 being removably connectable to a deck 13. Therefore, the laminated plate 13 is connected with different installation positions 14, the volume of the upper cavity and the lower cavity of the laminated plate 13 can be adjusted, and the number of layers of the laminated plate 13 connected with the installation positions 14 can be adjusted, so that the storage cavity 101 can be placed and dried in different sizes and different quantities. Of course, the placement chamber 107 may also be provided with a plurality of mounting locations 14 to achieve stratification and spatial adjustment.

In some embodiments where the cabinet 10 includes a cabinet body 11 and two door bodies 12, the two door bodies 12 may be provided, and the two door bodies 12 are respectively used for opening and closing the access ports of the storage cavity 101 and the placing cavity 107.

The utility model discloses an in some embodiments, can also be equipped with display module 45 on the door body 12, display module 45 can be used for contents such as display time, temperature, humidity, function menu, on & off switch. In some embodiments, display assembly 45 may include a touch screen, and display assembly 45 is electrically connected to control assembly 30 to facilitate user control of the operational status of the internal components of cabinet 100 via touch screen and control assembly 30.

The cabinet 100 according to one embodiment of the present invention will be described in detail with reference to the accompanying drawings, it being understood that the following description is illustrative only and should not be construed as limiting the present invention.

As shown in fig. 1 to 5, a mirror cabinet 100 according to an embodiment of the present invention includes a cabinet body 10, a condensation and dehumidification assembly 20, a control assembly 30, a collector 31, a water storage container 32, a water level sensor 34, a humidity sensor 35, a temperature sensor, a first driving member 41, a second driving member 42, a detector 43, a trigger assembly 44, a display assembly 45, and a power supply assembly 46. The cabinet body 10 includes a cabinet body 11, a left door 12 and a right door 12, the cabinet body 11 includes an outer shell and an inner shell, the inner shell is disposed in the outer shell and connected to the outer shell through a fastener, and the door 12 is connected to the outer shell through a door shaft. The cabinet body 11 is provided with a heat dissipation channel 104, an installation cavity 102, a storage cavity 101 and a placement cavity 107, the left door body 12 is used for opening and closing the placement opening of the placement cavity 107, the right door body 12 is used for opening and sealing the placement opening of the storage cavity 101, the top wall of the cabinet body 11 is provided with an air inlet 105 and an air outlet 106, and the top wall of the storage cavity 101 is provided with a communication opening 103. The condensation and dehumidification assembly 20 includes a semiconductor chip 21, a condenser 22 and a heat sink 23, which are connected by fasteners.

The display module 45, the semiconductor chip 21, the humidity sensor 35, the water level sensor 34, the first driving member 41 and the second driving member 42 are electrically connected to the control module 30, and the detector 43 is electrically connected to the semiconductor chip 21. Also, the control unit 30 is electrically connected to the power supply unit 46 to supply power through the power supply unit 46, and the power supply unit 46 may be electrically connected to an external power source.

The articles to be dried are placed on the laminate 13 in the storage cavity 101, the right door body 12 is closed, the trigger piece 44 triggers the detector 43, the control assembly 30 controls the drying function to be started, and the semiconductor chip 21 is started to work. The heat dissipation end of the semiconductor chip 21 is connected with the radiator 23, the refrigerating end is connected with the condenser 22, the first driving part 41 is started to accelerate the heat dissipation of the radiator 23, the condenser 22 exchanges heat with the storage cavity 101 through a grid at the communication opening 103, the condenser 22 condenses and liquefies nearby humid air to form condensed water, and the condensed water drops into the collector 31 and flows into the water storage container 32 through the water receiving pipe 33. Meanwhile, the second driving piece 42 is started to promote air circulation inside the storage cavity 101, so that dry air around the condenser 22 is accelerated to be brought into the storage cavity 101, moist air in the storage cavity 101 is promoted to be discharged through the grille, and the drying rate is improved.

In the process of storing articles in the storage cavity 101, the humidity sensor 35 can detect the humidity in the storage cavity 101, and when the humidity in the storage cavity 101 is more than 55%, the drying function is controlled to normally operate; when the humidity in the storage cavity 101 is less than 45%, the drying function is controlled to stop running.

In addition, as shown in fig. 6, when processing the drying task, first, it is determined whether the system is powered on; judging whether the system has a fault or not when starting up; when the system is normal, judging whether the water storage container 32 reaches a preset water level, if the water storage container reaches the preset water level, controlling the drying function not to run, and sending out reminding information, and if the water storage container does not reach the preset water level, judging whether the right door body 12 is opened; if the right door body 12 is opened, the drying function is controlled not to be operated, and if the right door body 12 is closed, whether the humidity in the storage cavity 101 is greater than or equal to 55% is judged; and if the humidity is greater than or equal to 55%, controlling the drying function to normally operate, and controlling the drying function to stop operating until the humidity is less than or equal to 45%.

Other configurations and operations of the mirror cabinet 100 according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

In the description herein, references to the description of the terms "embodiment," "specific embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (16)

1. A mirror cabinet, comprising:

the cabinet body is provided with a storage cavity, an installation cavity and a communication port for communicating the installation cavity with the storage cavity;

and the condensation dehumidifying assembly is arranged in the mounting cavity and is used for reducing the air humidity in the mounting cavity.

2. The mirror cabinet of claim 1, wherein the condensing and dehumidifying assembly comprises:

a semiconductor chip having a cooling end;

the condenser is connected with the refrigerating end and used for condensing the water vapor in the mounting cavity.

3. The mirror cabinet of claim 2, further comprising:

and the collector is arranged on the lower side of the condenser and is used for collecting condensed water.

4. The mirror cabinet according to claim 3, wherein the condenser comprises a plurality of fins arranged in a transverse direction, each of the fins having a cross-sectional area that decreases vertically downward.

5. The mirror cabinet according to claim 3, wherein the cabinet body is further provided with a detachable water storage container, and the water storage container is communicated with the collector through a water receiving pipe.

6. The mirror cabinet according to claim 5, wherein the cabinet body is provided with a water level sensor for detecting the water level in the water storage container, and the semiconductor chip is electrically connected with the water level sensor to work according to the detection result of the water level sensor.

7. The mirror cabinet according to claim 1, wherein the cabinet body further has a heat dissipation channel communicating with the outside, the condensation dehumidification assembly includes:

a semiconductor chip having a heat dissipation end;

the radiator is connected with the radiating end of the semiconductor chip, and at least one part of the radiator is positioned in the radiating channel.

8. The mirror cabinet according to claim 7, wherein the cabinet body is provided with an air inlet and an air outlet which are communicated with the heat dissipation channel,

the air inlet and the air outlet are respectively arranged at two ends of the top wall of the cabinet body or at two ends of the side wall of the cabinet body.

9. The mirror cabinet of claim 7, wherein a first driving member is disposed in the cabinet body, and the first driving member is configured to drive air flow in the heat dissipation channel.

10. The mirror cabinet of claim 1, wherein a second driving member is disposed in the mounting cavity, and an outlet of the second driving member is communicated with the storage cavity to drive the gas in the storage cavity to flow.

11. The mirror cabinet of claim 10, wherein the second drive is disposed adjacent to the condensate moisture removal assembly.

12. The mirror cabinet of claim 10, wherein the outlet of the second driving member and the communication port are disposed on a same side wall of the storage chamber.

13. The mirror cabinet of claim 1, wherein the condensation dehumidification assembly is disposed adjacent the communication port.

14. The mirror cabinet according to claim 1, wherein the cabinet body comprises a cabinet body and a door body, the door body is arranged on the cabinet body and used for opening and closing the access opening of the storage cavity, and the door body is in sealing fit with the periphery of the access opening in a state that the door body closes the access opening.

15. The mirror cabinet according to claim 14, wherein one of the cabinet body and the door body is provided with a detector, and the other is provided with a trigger which triggers the detector when the door body closes the pick-and-place port,

the condensation and dehumidification assembly is electrically connected with the detector and is set to work for a preset time when the detector is triggered.

16. A mirror cabinet according to any one of claims 1-15, further comprising:

the detection end of the humidity sensor extends into the storage cavity;

the control assembly, humidity transducer with the condensation dehumidification subassembly respectively with the control assembly electricity is connected, the control assembly is used for when humidity transducer's testing result satisfies the preset condition control the work of condensation dehumidification subassembly.

Images