CN211582816U - Remotely-controlled lighting bathroom mirror cabinet - Google Patents

Abstract

A remotely controllable mirror cabinet for a lighting bathroom can remotely control an LED lamp and an anti-fog film to work. The intelligent cabinet comprises a cabinet body, a cabinet door arranged on the cabinet body, a lens arranged on the surface of the cabinet door, an LED lamp arranged in the cabinet door, an LED driver, a microcontroller integrated with a wireless connection function, and an anti-fog film arranged on the back of the lens; the input end of the LED driver and the first input end of the microcontroller are connected to the mains supply; the output end of the LED driver and the input end of the LED lamp are respectively and correspondingly connected with the second input end and the output end of the microcontroller, and the input end of the anti-fog film is connected with the first output end of the microcontroller; the lens is provided with a light-transmitting surface corresponding to the LED lamp; the top and the side surface of the top of the cabinet body are respectively provided with a groove for placing an LED driver and a microcontroller and a first opening for allowing the circuit of the input end of the LED driver and the microcontroller to pass through, the bottom surface of the groove is provided with a second opening for allowing the circuit of the output end of the microcontroller to pass through, and the back of the cabinet door is provided with a third opening for allowing the circuit of the input end of the LED lamp and the circuit of the anti-fog film to pass through and be connected with the LED driver; the top cover is arranged at the top of the cabinet body.

Description

Remotely-controlled lighting bathroom mirror cabinet

Technical Field

The utility model relates to a bathroom furniture technical field, concretely relates to but remote control's illumination bathroom mirror cabinet.

Background

The bathroom mirror cabinet is used as a necessity for bathroom decoration, plays an important role in a bathroom and has wide market demand. At present, bathroom mirror cabinets are various in type, and comprise a wood mirror cabinet, a stainless steel mirror cabinet, a PVC mirror cabinet and an aluminum alloy mirror cabinet. Except this, current bathroom mirror cabinet function difference possesses the LED lamp illumination function a bit, possesses bluetooth sound instant music a bit, has still set up the function of making a video recording a bit to some, etc..

However, the bathroom mirror cabinet with the illumination function generally has the disadvantages of complex overall structure, unreasonable wiring layout design and incapability of remotely controlling the work of the LED lamp and the anti-fog film.

It is seen that improvements and enhancements to the prior art are needed.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing prior art's weak point, the utility model aims to provide a but remote control's illumination bathroom mirror cabinet, the structure is retrencied, and circuit layout design benefit arranges the recess at cabinet body top in with electrical components such as LED driver, microcontroller, and circuit layout has the effect pleasing to the eye, that circuit layout is reasonable, the protection circuit in the recess, but also can realize remote control LED lamp, antifog membrane work, and it is more convenient to use.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a remotely controllable mirror cabinet for a lighting bathroom comprises a cabinet body, a cabinet door rotatably connected with the cabinet body, and lenses fixed on the surface of the cabinet door, wherein the mirror cabinet also comprises an LED lamp, an LED driver, a microcontroller integrated with a wireless connection function, and an anti-fog film arranged on the back of the lenses, wherein the LED lamp and the LED driver are arranged in the cabinet door; the input end of the LED driver and the first input end of the microcontroller are connected to a mains supply; the output end of the LED driver and the input end of the LED lamp are respectively and correspondingly connected to a second input end and a second output end of the microcontroller, and the input end of the anti-fog film is connected to the first output end of the microcontroller; the lens is provided with a light-transmitting surface corresponding to the LED lamp; the top of the cabinet body is provided with a groove suitable for placing an LED driver and a microcontroller; the side surface of the top of the cabinet body is provided with a first opening through which an input end circuit of the LED driver and the microcontroller can pass, the bottom surface of the groove is provided with a second opening through which an output end circuit of the microcontroller can pass, and the back surface of the cabinet door is provided with a third opening through which an input end circuit of the LED lamp and the anti-fog film can pass and is connected with the output end circuit of the LED driver; the top of the cabinet body is detachably connected with a top cover positioned above the groove.

In the remotely controllable lighting bathroom mirror cabinet, the cabinet body and the cabinet door are made of aluminum materials.

In the remotely controllable lighting bathroom mirror cabinet, the lenses are respectively arranged on the back and the front of the cabinet door; the third opening is formed above the lens positioned on the back face of the cabinet door.

In the remotely-controlled lighting bathroom mirror cabinet, the second output end of the microcontroller is further connected with a touch switch which is respectively used for controlling the on-off of the LED lamp, the brightness of the LED lamp, the color temperature of the LED lamp and the working of the anti-fog film, and the touch switch is arranged on the surface of the lens positioned on the front surface of the cabinet door.

In the remotely-controlled lighting bathroom mirror cabinet, the back of the cabinet door is provided with silica gel for collision prevention.

In the remotely-controlled illumination bathroom mirror cabinet, the light-transmitting surface is rectangular and vertically arranged and is respectively positioned on two sides of the surface of the lens.

In the remotely controllable lighting bathroom mirror cabinet, the microcontroller is an ESP32 controller.

But in remote control's illumination bathroom mirror cabinet, the cabinet body is inside to be equipped with the polylith and to put the thing board.

But remote control's illumination bathroom mirror cabinet in, the both ends of putting the thing board are the joint respectively and are had the joint piece, the internal portion of cabinet is equipped with a plurality of mounting holes that are suitable for joint piece male along direction of height correspondence.

Has the advantages that:

the utility model provides a but remote control's illumination bathroom mirror cabinet, the structure is retrencied, and circuit layout design benefit arranges the recess at cabinet body top with electrical components such as LED driver, microcontroller in, and circuit layout has the effect pleasing to the eye, that circuit layout is reasonable, protection circuit in the recess, but also can realize remote control LED lamp, antifog membrane work, and it is more convenient to use.

Drawings

Fig. 1 is the utility model provides an in the illumination bathroom mirror cabinet that can remote control, the schematic diagram that LED driver, LED lamp and antifog coating film are connected with microcontroller.

Fig. 2 is the utility model provides an in the but remote control's illumination bathroom mirror cabinet, the installation sketch map of LED driver, microcontroller, LED lamp and antifog coating film.

Fig. 3 is a perspective view of the remotely controllable mirror cabinet for an illumination bathroom provided by the present invention.

Fig. 4 is a perspective view of the cabinet body of the remotely controllable mirror cabinet for an illumination bathroom provided by the present invention.

Fig. 5 is a perspective view of the cabinet door in the remotely controllable mirror cabinet for an illumination bathroom provided by the present invention.

Fig. 6 is a cross-sectional view of the top plate of the cabinet body in the remotely controllable mirror cabinet for illumination bathroom provided by the present invention.

Fig. 7 is a schematic diagram of wiring between the cabinet body and the cabinet door in the remotely controllable lighting bathroom mirror cabinet.

Fig. 8 is a sectional view of the door of the remotely controllable mirror cabinet for an illumination bathroom.

Fig. 9 is a perspective view of the structure of the top plate of the cabinet door in the remotely controllable mirror cabinet for illumination bathroom provided by the present invention.

Detailed Description

The utility model provides a but remote control's illumination bathroom mirror cabinet, for making the utility model discloses a purpose, technical scheme and effect are clearer, make clear and definite, and it is right that the following refers to the attached drawing and the embodiment is lifted the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1, 2, 3 and 8, the utility model provides a remotely controllable mirror cabinet for a lighting bathroom, which comprises a cabinet body 1, a cabinet door 2 rotatably connected to the cabinet body 1 through a hinge, and a lens 27 fixed on the surface of the cabinet door 2. The mirror cabinet for the lighting bathroom further comprises an LED lamp 35, an LED driver 31, a microcontroller 32 integrated with a wireless connection function and an anti-fog film 36, wherein the LED lamp 35, the LED driver 31, the microcontroller 32 and the anti-fog film are arranged inside the cabinet door 2; the input end of the LED driver 31 and the first input end of the microcontroller 32 are connected to the mains supply (i.e. 220V ac); the output end of the LED driver 31 and the input end of the LED lamp 35 are respectively and correspondingly connected to the second input end and the second output end of the microcontroller 32, and the input end of the anti-fog film 36 is connected to the first output end of the microcontroller 32. The LED driver provides power for the LED lamp.

The microcontroller 32 is an ESP32 controller, is an ESP32-DevKitC development board provided with an ESP32-WROOM-32D module, is integrated with an ESP32-D0WD chip, and has the functions of Bluetooth and WiFi connection. Adopted this kind of microcontroller, the corresponding APP of usable cell-phone has established wireless connection through bluetooth connected mode or wiFi connected mode and the microcontroller of illumination bathroom mirror cabinet, and the control signal that the APP of the cell-phone of being convenient for was sent is received to the microcontroller, corresponds opening and close of control LED lamp, the colour temperature and the luminance of LED lamp according to user's control command to and the work of antifog coating.

Specifically, the LED driver and the LED lamp are connected to a 12V end of the microcontroller, 12V working voltage is provided for the two ends of the LED lamp, the microcontroller controls the LED lamp to be powered on and powered off, and the intensity of current is controlled. The LED lamp can be composed of two LED lamp beads (chips) with different color temperatures and mutually staggered distribution, wherein the LED lamp beads (chips) are respectively a 3000K color temperature lamp bead and a 5000K color temperature lamp bead, and the color temperature is adjusted by controlling the output conditions of the two LED lamp beads through a microcontroller. The input end of the anti-fog film and the commercial power are connected to the 220V end of the microcontroller, 220V working voltage is provided for the anti-fog film, and the microcontroller controls the on-off of the anti-fog film.

As shown in fig. 2, 3, 4, 5, 6, and 7, the lens 27 has a light-transmitting surface 21 corresponding to the LED lamp 35; the top of the cabinet body 1 is provided with a groove 11 suitable for placing an LED driver 31 and a microcontroller 32; a first opening (not marked in the figure) suitable for the LED driver 31 and the input end circuit 34 of the microcontroller 32 to pass through is formed in the side surface of the top of the cabinet body 1, a second opening 33 suitable for the output end circuit of the microcontroller 32 to pass through is formed in the bottom surface of the groove 11, and a third opening 23 suitable for the input end circuit of the LED lamp 35 and the anti-fog film 36 to pass through and be connected to the output circuit of the LED driver 31 is formed in the back surface of the cabinet door 2; the top of the cabinet body 1 is detachably connected with a top cover (not shown in the figure) above the groove 11. The top cover is provided with heat dissipation holes on the top surface thereof so as to facilitate heat dissipation of the LED driver 31 and the microcontroller 32.

As shown in fig. 5, the back of the cabinet door 2 is provided with a plurality of connecting holes 24 for installing hinges, and the other ends of the hinges are fixed on the inner side of the side plate of the cabinet body 1, so that the cabinet door can rotate relative to the cabinet body.

As shown in fig. 2, fig. 3, fig. 6, and fig. 7, the cabinet body 1 is formed by combining four aluminum plates, wherein the groove 11 is disposed on the top plate 15 of the cabinet body 1, then electrical components such as the LED driver 31, the microcontroller 32, and the like are completely disposed in the groove 11, and the circuits can be disposed in the groove, the input circuit 34 of the LED driver and the microcontroller is routed on the side plate of the cabinet body 1 and connected to the indoor socket, and the output circuit of the microcontroller passes through the second opening 33 formed in the top plate 15 and is connected to the LED lamp and the anti-fog film, and the top cover is mounted on the top plate 15 by bolts, completely covers the groove 11, and provides protection for the LED driver, the microcontroller, and the circuits.

By adopting the ingenious structural design, the bathroom mirror cabinet is more attractive, other aluminum structures are not required to be added, aluminum materials are not required to be widened, and the manufacturing cost is reduced.

The cabinet body 1 and the cabinet door 2 are made of aluminum materials, and have the advantages of corrosion resistance, mildew resistance, light weight, firm structure, safety and durability.

As shown in fig. 3, 5, 7 and 8, the lens 26 is disposed on the back surface of the cabinet door 2, and the lens 27 is disposed on the front surface of the cabinet door 2; the third opening 23 is arranged above a mirror 26 located at the back of the cabinet door 2. Wherein the cabinet door 2 is provided with a supporting block 261 for supporting the lens 26. The cabinet door is provided with two lenses, and the mirror function can be provided when the cabinet door is opened or closed.

As shown in fig. 2 and 8, the antifogging film 36 is provided inside the cabinet door 2 and on the back side of the lens 27. The antifogging film is also called as a heating film or a defenser. The antifogging film 36 is attached to the back of the lens 27, electricity is conducted, electric energy is efficiently converted into heat energy and conducted to the lens, the temperature of the lens surface rises, water vapor is prevented from being condensed on the lens surface, and the effects of preventing the fog from appearing on the lens and keeping the lens surface clear are achieved. Of course, the lens 26 may also be provided with an antifogging film.

As shown in fig. 1, 2, and 3, a second output end of the microcontroller 32 is further connected to a touch switch 22 for controlling on/off of the LED lamp, brightness of the LED lamp, color temperature of the LED lamp, and operation of the anti-fog film, respectively, where the touch switch is disposed on the surface of the lens 27 on the front surface of the cabinet door 2. In this embodiment, four touch switches are provided, and the four touch switches are touched respectively to turn on and turn off the LED lamp, adjust the brightness of the LED lamp, adjust the color temperature of the LED lamp, and control the on/off of the anti-fog film, thereby facilitating the touch control of a user. The touch switch is a capacitive touch sensor, and the ESP32 controller provides a module interface of the capacitive touch sensor, so that the touch switch is electrically connected with the microcontroller.

As shown in fig. 5, the back of the cabinet door 2 is provided with a silica gel 25 for collision avoidance. Adopt silence silica gel, can avoid the cabinet door 2 made by the aluminum product to collide with the cabinet body 1 directly and produce abnormal sound, even take place to warp for this bathroom mirror cabinet has the silence effect of closing the door. In the embodiment, the silicon gel 25 is disposed on the upper and lower sides of the back of the cabinet door 2 and on the side away from the hinge.

As shown in fig. 2 and 3, the light-transmitting surface 21 is rectangular and vertically disposed and located on two sides of the surface of the lens 27, and when the LED lamp works, the emitted light is emitted through the light-transmitting surface 21, so that the lens located on the outer side surface of the cabinet door has functions of looking at the mirror and illuminating at the same time. Correspondingly, the LED lamp (or called LED lamp strip) is vertically disposed inside the cabinet door 2, the two LED lamps are commonly connected to one connection terminal 351, and the connection end of the connection terminal is connected to the microcontroller.

As shown in fig. 4, a plurality of horizontally arranged storage plates 12 are disposed inside the cabinet 1. Specifically, the both ends of putting thing board 12 are the joint respectively and are had joint piece 14, the cabinet body 1 is inside to be equipped with a plurality of mounting holes 13 that are suitable for joint piece 14 male along the direction of height correspondence. Insert corresponding mounting hole 13 with joint piece 14 from the inside level of the cabinet body 1, then from top to bottom directly block the thing board and go into the joint piece 14 that is located cabinet body 1 both sides to the high position of thing board is put in the adjustment, and provides the supporting role by joint piece 14 to putting the thing board.

As shown in fig. 2, 3, 5, 7, 8 and 9, the LED lamp 35, the anti-fog film 36, etc. are disposed inside the cabinet door 2, i.e. between the lens 26 and the lens 27, and at the same time, the LED driver 31 and the microcontroller 32 are disposed in the recess 11 and completely covered by the top cover. The cabinet door 2 is also formed by splicing four aluminum plates, wherein the third opening 23 is formed in the back surface of the top plate 28 of the cabinet door 2 and is close to one side of the hinge, and the top plate 28 is provided with an opening 281 which is communicated with the third opening 23 and is suitable for the circuit of the LED lamp, the anti-fog film and the touch switch to pass through. The circuits sequentially pass through the opening 281, the third opening 23 and the second opening 33 and then are routed through the groove 11, so that electrical components such as an LED driver, a microcontroller and the like are effectively protected from being bitten by mice and the like.

To sum up, the utility model provides a but remote control's illumination bathroom mirror cabinet, the structure is retrencied, and circuit layout design benefit arranges the recess at cabinet body top with electrical components such as LED driver, microcontroller in, and circuit layout has pleasing to the eye, circuit layout is reasonable, the effect of protection circuit in the recess, but also can realize remote control LED lamp, antifog membrane work, and it is more convenient to use.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (9)

1. A remotely controllable mirror cabinet for a lighting bathroom comprises a cabinet body, a cabinet door rotatably connected with the cabinet body, and lenses fixed on the surface of the cabinet door, and is characterized by also comprising an LED lamp, an LED driver, a microcontroller integrated with a wireless connection function, and an anti-fog film arranged on the back of the lenses, wherein the LED lamp and the LED driver are arranged in the cabinet door; the input end of the LED driver and the first input end of the microcontroller are connected to a mains supply; the output end of the LED driver and the input end of the LED lamp are respectively and correspondingly connected to a second input end and a second output end of the microcontroller, and the input end of the anti-fog film is connected to the first output end of the microcontroller; the lens is provided with a light-transmitting surface corresponding to the LED lamp; the top of the cabinet body is provided with a groove suitable for placing an LED driver and a microcontroller; the side surface of the top of the cabinet body is provided with a first opening through which an input end circuit of the LED driver and the microcontroller can pass, the bottom surface of the groove is provided with a second opening through which an output end circuit of the microcontroller can pass, and the back surface of the cabinet door is provided with a third opening through which an input end circuit of the LED lamp and the anti-fog film can pass and is connected with the output end circuit of the LED driver; the top of the cabinet body is detachably connected with a top cover positioned above the groove.

2. The remotely controllable illuminated bathroom mirror cabinet of claim 1, wherein said cabinet body and cabinet door are made of aluminum.

3. The remotely controllable illuminated bathroom mirror cabinet of claim 1, wherein said mirror is provided on the back and front of the cabinet door, respectively; the third opening is formed above the lens positioned on the back face of the cabinet door.

4. The remotely controllable bathroom mirror cabinet according to claim 3, wherein the second output terminal of the microcontroller is further connected with a touch switch for controlling the on/off of the LED lamp, the brightness of the LED lamp, the color temperature of the LED lamp and the operation of the anti-fog film, and the touch switch is arranged on the surface of the lens on the front surface of the cabinet door.

5. The remotely controllable bathroom mirror cabinet with illumination according to claim 1, wherein the back of the cabinet door is provided with anti-collision silica gel.

6. The remotely controllable illuminated bathroom mirror cabinet of claim 1, wherein said light transmissive surface is rectangular, vertically disposed and on each side of the lens surface.

7. The remotely controllable illuminated bathroom mirror cabinet of claim 1, wherein said microcontroller is an ESP32 controller.

8. The remotely controllable illuminated bathroom mirror cabinet of claim 1, wherein a plurality of storage boards are disposed within the cabinet body.

9. The remotely controllable mirror cabinet for an illumination bathroom as claimed in claim 8, wherein the two ends of the object placing plate are respectively clamped with clamping blocks, and the cabinet body is correspondingly provided with a plurality of mounting holes along the height direction for the clamping blocks to be inserted into.

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