CN117570419A - Bathroom mirror LED control system capable of switching use modes - Google Patents

Abstract

The invention relates to the technical field of bathroom mirrors, in particular to a bathroom mirror LED control system capable of switching use modes, which comprises a mirror, a mirror frame, a light source, a first light-transmitting plate, a second light-transmitting plate, a first light guide component, a second light guide component, an inductor component and a controller, wherein the mirror frame is arranged on the outer side of the mirror, a luminous chamber is arranged in the mirror frame, the light source is arranged in the luminous chamber, the first light-transmitting plate is arranged on the front surface of the mirror frame, and the second light-transmitting plate is arranged on the circumferential outer side of the mirror frame; the first light guide assembly rotates to be arranged in the luminous chamber, the second light guide assembly stretches out and draws back to be arranged in the luminous chamber, the outer left side of the mirror frame is an area A, the right side of the mirror frame is an area B, the outer right side of the mirror frame is an area C, whether the area A, the area B and the area C are occupied or not is detected through the sensor assembly, the controller controls the light source, the first light guide assembly and the second light guide assembly to work, therefore the irradiation angle of the light source is changed, the environment illumination mode is realized to provide supplementary illumination for a bathroom, or the character illumination mode better highlights the details of the face, and the finishing appearance is facilitated.

Description

Bathroom mirror LED control system capable of switching use modes

Technical Field

The invention relates to the technical field of bathroom mirrors, in particular to a bathroom mirror LED control system capable of switching use modes.

Background

Bathroom mirror is a common mirror in bathroom, mainly used for toilet and arrangement appearance. Some bathroom mirrors are also provided with illuminating lamps, so that supplementary illumination can be provided when the bathroom is insufficient in light, the face details can be better highlighted, and the bathroom mirror is convenient for tidying and holding.

However, the lighting lamp of the conventional bathroom mirror is generally fixedly installed in or outside the mirror frame, and the irradiation angle cannot be adjusted only by changing the intensity of the light, so that the use is inconvenient, and therefore, the improvement is necessary.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a bathroom mirror LED control system capable of switching use modes, wherein the outer left side of a mirror frame is set to be an area A, the right front of the mirror frame is set to be an area B, and the outer right side of the mirror frame is set to be an area C, and an inductor assembly is used for detecting whether people exist in the area A, the area B and the area C. The controller is fixed in the picture frame and is electrically connected with the light source, the first light guide assembly, the second light guide assembly and the inductor assembly, the controller is connected with an external power supply, whether the A area, the B area and the C area are occupied or not is detected through the inductor assembly, the controller controls the light source, the first light guide assembly and the second light guide assembly to conduct electricity and work, therefore the irradiation angle of the light source is changed, the environment illumination mode is realized to provide supplementary illumination for a bathroom, or the character illumination mode is used for better highlighting the details of the face, the appearance is convenient to arrange, and the two modes are switched.

In order to achieve the above purpose, the bathroom mirror LED control system capable of switching the use modes comprises a mirror, a mirror frame, a light source, a first light-transmitting plate, a second light-transmitting plate, a first light guide component, a second light guide component, an inductor component and a controller;

the mirror frame is arranged on the outer side of the mirror, a light-emitting chamber is arranged in the mirror frame, the light source is arranged in the light-emitting chamber, the first light-transmitting plate is arranged on the front surface of the mirror frame, and the second light-transmitting plate is arranged on the outer side of the periphery of the mirror frame;

the first light guide component is rotatably arranged in the light-emitting chamber and positioned at one side of the light source, which is close to the mirror, and the maximum rotation angle of the first light guide component is R; the second light guide component is arranged in the light-emitting chamber in a telescopic way and is positioned on one side of the light source, which is close to the second light-transmitting plate, and the maximum telescopic stroke of the second light guide component is S;

the outer left side of the mirror frame is an area A, the right front is an area B and the outer right side is an area C, and the sensor assembly is used for detecting whether people exist in the area A, the area B and the area C; the controller is fixed in the mirror frame and is electrically connected with the light source, the first light guide assembly, the second light guide assembly and the sensor assembly;

in an initial state, the first light guide component is propped against the inner wall of the light-emitting chamber, which is close to one side of the mirror, the second light guide component does not extend into the light-emitting chamber, the sensor component detects that people exist in the area A or the area C, the controller controls the light source to be electrified to work to emit light, and the light irradiates the bathroom through the first light-transmitting plate and the second light-transmitting plate; if the sensor component detects that no person exists in the area A or the area C, the controller controls the light source to be turned off after timing for 5 seconds, and the bathroom mirror has an environment illumination mode and a person illumination mode;

ambient lighting mode: when the sensor component detects that a person enters the C area from the A area or that a person enters the A area from the C area, the controller controls the first light guide component to rotate R, and the first light guide component rotates towards the direction of the light source and partially shields the first light-transmitting plate;

character illumination mode: when the sensor assembly detects that a person enters the B area from the A area or that a person enters the B area from the C area, the controller controls the second light guide assembly to extend out of the S, and the second light guide assembly partially shields the first light-transmitting plate and completely shields the second light-transmitting plate.

Preferably, the first light-transmitting plate is vertically arranged on the inner wall of one side of the light-emitting chamber, which is close to the mirror, and the length of the first light-transmitting plate is larger than that of the light-emitting chamber, one end of the second light-transmitting plate is connected with the mirror frame, and the other end of the second light-transmitting plate is connected with the first light-transmitting plate.

Preferably, the first light guide assembly comprises a rigid light guide plate and a first driver, the rigid light guide plate is rotationally connected with the inner wall of the light emitting chamber, the first driver drives the rigid light guide plate to rotate, and a first reflecting surface is arranged at one end of the rigid light guide plate, facing the light source.

Preferably, the mirror frame is also provided with a driving chamber, and the driving chamber is adjacent to the luminous chamber and is communicated with the luminous chamber;

the second light guide assembly comprises a guide rail, an elastic light guide plate and a second driver, wherein the guide rail is arranged in the driving chamber and extends towards the light emitting chamber, and the second driver is arranged in the driving chamber and drives the elastic light guide plate to slide along the guide rail.

Preferably, the guide rail comprises an L-shaped guide part and a C-shaped extension part communicated with the L-shaped guide part, the L-shaped guide part is fixed in the driving chamber, the C-shaped extension part is fixed in the light emitting chamber, and the C-shaped extension part extends towards the light source;

the elastic light guide plate is provided with a second reflecting surface towards one end of the light source.

Preferably, the inductor assembly comprises a first inductor, a second inductor and a third inductor, wherein the first inductor is arranged on the left side of the top of the mirror frame, the second inductor is arranged in the middle of the top of the mirror frame, the third inductor is arranged on the right side of the top of the mirror frame, and the detection range of the first inductor, the second inductor and the third inductor is in a fan shape.

Preferably, a demisting box is further arranged on the outer side of the lower portion of the mirror frame, and comprises a box body, a fan and a heater;

the box body comprises an air inlet cavity, an air outlet cavity and a water collecting cavity which are communicated with each other and are sequentially arranged from outside to inside, the water collecting cavity is clung to the surface of the mirror frame, the water collecting cavity is provided with a water inlet and a water outlet, and water drops on the surface of the mirror enter the water collecting cavity along the water inlet and are discharged from the water outlet;

an air inlet is formed in the outer side of the air inlet cavity, an air guide opening is formed between the air inlet cavity and the air outlet cavity, an air outlet is formed in the air outlet cavity, a fan and a heater are arranged in the air inlet cavity, external air is led into the air inlet cavity from the air inlet by the fan, the external air is heated by the heater to become hot air, the hot air enters the air outlet cavity from the air guide opening, and the hot air is blown to the surface of the mirror from the air outlet, so that mist on the surface of the mirror is blown dry.

Preferably, the top of the air inlet cavity is provided with an inclined top plate, and the width of the inclined top plate is larger than that of the air inlet cavity;

one end of the water inlet, which faces the mirror, is provided with a water guide bevel edge;

an air deflector is arranged in the air outlet cavity, and a water guide gap communicated with the water collecting cavity is arranged between the air deflector and the inner wall of the air outlet cavity.

Preferably, the fan is arranged on one side of the air inlet cavity close to the air inlet, the heater is arranged on one side of the air inlet cavity close to the air guide opening, the air guide opening is an air guide grid, the air guide opening protrudes towards the air inlet cavity, and an anti-drip inclined edge is arranged above the air guide opening.

Preferably, a water baffle is arranged between the air guide opening and the bottom of the box body, one end of the air guide plate is connected with the water baffle, a leak hole is formed in one end, close to the water baffle, of the air guide plate, the air guide plate is communicated with the water collecting cavity through the leak hole, and the air guide plate is C-shaped and is bent towards the air guide opening.

The invention has the beneficial effects that: the invention sets the outer left side of the glasses frame as an area A, the right front as an area B and the outer right as an area C, and the sensor component is used for detecting whether people exist in the area A, the area B and the area C. The controller is fixed in the picture frame and is electrically connected with the light source, the first light guide assembly, the second light guide assembly and the inductor assembly, the controller is connected with an external power supply, whether the A area, the B area and the C area are occupied or not is detected through the inductor assembly, the controller controls the light source, the first light guide assembly and the second light guide assembly to conduct electricity and work, therefore the irradiation angle of the light source is changed, the environment illumination mode is realized to provide supplementary illumination for a bathroom, or the character illumination mode is used for better highlighting the details of the face, the appearance is convenient to arrange, and the two modes are switched.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic cross-sectional view of the light-emitting chamber and the partial driving chamber of the present invention.

FIG. 3 is a schematic cross-sectional view of the ambient lighting mode of the present invention.

Fig. 4 is a schematic cross-sectional view of the illumination pattern of the character of the present invention.

FIG. 5 is a schematic cross-sectional view of a demister cartridge of the present invention.

The reference numerals include:

1. a mirror; 2. a frame; 21. a light-emitting chamber; 22. a driving chamber; 3. a light source; 4. a first light-transmitting plate; 5. a second light-transmitting plate; 6. a first light guide assembly; 61. a rigid light guide plate; 611. a first reflective surface; 62. a first driver; 7. a second light guide assembly; 71. a guide rail; 711. an L-shaped guide part; 712. a C-shaped extension; 72. an elastic light guide plate; 721. a second reflective surface; 73. a second driver; 8. an inductor assembly; 81. a first inductor; 82. a second inductor; 83. a third inductor; 9. a defogging box; 91. a case body; 901. an inclined top plate; 911. an air inlet cavity; 9111. an air inlet; 9112. an air guide port; 9113. drip-proof bevel edge; 912. an air outlet cavity; 9121. an air outlet; 913. a water collecting cavity; 9131. a water inlet; 9132. a water outlet; 9133. a water guiding bevel edge; 92. a fan; 93. a heater; 94. an air deflector; 941. a water guiding gap; 942. a leak hole; 95. and a water baffle.

Detailed Description

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

As shown in fig. 1 to 2, the bathroom mirror LED control system capable of switching the use modes of the present invention includes a mirror 1, a mirror frame 2, a light source 3, a first light-transmitting plate 4, a second light-transmitting plate 5, a first light-guiding component 6, a second light-guiding component 7, an inductor component 8 and a controller, wherein the light source 3 is an LED light bar or an LED light panel, the inductor component 8 is a photoelectric inductor, and the controller is a programmable controller.

The mirror frame 2 is provided outside the mirror 1, a light-emitting chamber 21 is provided in the mirror frame 2, and the light source 3 is provided in the light-emitting chamber 21. The first light-transmitting plate 4 is arranged on the front surface of the mirror frame 2, the second light-transmitting plate 5 is arranged on the circumferential outer side of the mirror frame 2, the luminous chamber 21 is sealed by the first light-transmitting plate 4 and the second light-transmitting plate 5, and the light source 3 illuminates a bathroom through the first light-transmitting plate 4 and the second light-transmitting plate 5.

The first light guide assembly 6 is rotatably arranged in the light emitting chamber 21 and positioned on one side of the light source 3 close to the mirror 1, and the maximum rotation angle of the first light guide assembly 6 is R. The second light guiding component 7 is telescopically arranged in the light emitting chamber 21 and is positioned at one side of the light source 3 close to the second light transmitting plate 5, and the maximum telescopic travel of the second light guiding component 7 is S.

The outer left side of the mirror frame 2 is a zone A, the right front is a zone B and the outer right side is a zone C, and the sensor assembly 8 is used for detecting whether people exist in the zone A, the zone B and the zone C. The controller is fixed in the picture frame 2 and is electrically connected with the light source 3, the first light guide component 6, the second light guide component 7 and the sensor component 8, the controller is connected with an external power supply, whether the area A, the area B and the area C are occupied or not is detected through the sensor component 8, the controller controls the light source 3, the first light guide component 6 and the second light guide component 7 to conduct electricity and work, so that the irradiation angle of the light source 3 is changed, the environment illumination mode is realized to provide supplementary illumination for a bathroom, or the character illumination mode better highlights the details of the face, the appearance is convenient to sort, and the two modes are switched.

In the initial state, the first light guide component 6 is abutted against the inner wall of the light-emitting chamber 21, which is close to one side of the mirror 1, and the second light guide component 7 does not extend into the light-emitting chamber 21; when the sensor assembly 8 detects that people exist in the area A or the area C, the controller controls the light source 3 to be electrified to work to emit light, and the light irradiates the bathroom through the first light-transmitting plate 4 and the second light-transmitting plate 5. If the sensor assembly 8 detects that no person is in zone A or zone C, the controller controls the light source 3 to be turned off after timing for 5 seconds.

As shown in fig. 3, ambient lighting mode: when the inductor component 8 detects that a person enters the C area from the A area or that a person enters the A area from the C area, the controller controls the first light guide component 6 to rotate R, the first light guide component 6 rotates towards the light source 3 and partially shields the first light-transmitting plate 4 to be in an environment illumination mode, so that the part of the first light-transmitting plate 4, which is close to one end of the mirror 1, is shielded, light emitted by the light source 3 is reflected by the first light guide component 6 and is changed to the outside, the light is mainly irradiated from the second light-transmitting plate 5, and the small part is irradiated from the first light-transmitting plate 4 to the outside, so that the light emits light towards the periphery of the outer side of the bathroom mirror, and the supplementary illumination is realized.

As shown in fig. 4, the person illumination mode: when the inductor component 8 detects that a person enters the B area from the A area or that a person enters the B area from the C area, the controller controls the second light guide component 7 to extend out of the S, the second light guide component 7 shields the first light-transmitting plate 4 partially and shields the second light-transmitting plate 5 completely to be in a person illumination mode, so that the part of the first light-transmitting plate 4, which is close to one side of the second light-transmitting plate 5, is shielded completely, the second light-transmitting plate 5 shields completely, light emitted by the light source 3 is reflected by the second light guide component 7 and is changed to outside, and the light irradiates outwards mainly from the part of the first light-transmitting plate 4, which is close to one end of the mirror 1, and the light irradiates mainly to the front of the bathroom mirror, so that the face details of the person, which is in front of the bathroom mirror, are better highlighted, are convenient for arranging and holding.

In actual use, the sensor assembly 8 detects that a person enters the region C from the region A or that a person enters the region A from the region C, the controller controls the first light guide assembly 6 to rotate R, the first light guide assembly 6 rotates towards the direction of the light source 3 and shields at least half of the area of the first light-transmitting plate 4, the light emitted by the light source 3 is reflected by the first light guide assembly 6 and changed to the outside, the light mainly irradiates from the second light-transmitting plate 5, and the small part irradiates outwards from the most half of the area of one side of the first light-transmitting plate 4, which is close to the second light-transmitting plate 5, so that the brightness of the second light-transmitting plate 5 is higher than that of the first light-transmitting plate 4.

The sensor assembly 8 detects that a person enters the area B from the area A or that a person enters the area B from the area C, the controller controls the second light guide assembly 7 to extend out of the area S, the second light guide assembly 7 shields the first light-transmitting plate 4 to less than 1 part of the area 3 and completely shields the second light-transmitting plate 5, and light is enabled to be obliquely irradiated on the face of the person outwards from at least 2 parts of the first light-transmitting plate 4, which are close to one side of the mirror 1, of the part 3.

In other embodiments, the sensor assembly 8 may detect that a person enters the B area from the a area or that a person enters the B area from the C area, and the controller controls the second light guiding assembly 7 to extend sx 0.8, so that a gap is formed between the second light guiding assembly 7 and the first light transmitting plate 4, and part of the light irradiates outwards from the second light transmitting plate 5 through the gap, so that the brightness of the first light transmitting plate 4 is higher than that of the second light transmitting plate 5.

The first light-transmitting plate 4 of this embodiment is vertically disposed on the inner wall of the light-emitting chamber 21 near one side of the mirror 1, the length of the first light-transmitting plate 4 is greater than that of the light-emitting chamber 21, one end of the second light-transmitting plate 5 is connected with the mirror frame 2, the other end of the second light-transmitting plate 5 is connected with the first light-transmitting plate 4, the first light-transmitting plate 4 is vertical to the mirror frame 2, and the second light-transmitting plate 5 is inclined and protrudes from the mirror frame 2.

The first light guide assembly 6 of the present embodiment includes a rigid light guide plate 61 and a first driver 62, wherein the rigid light guide plate 61 is made of a hard material, and the first driver 62 is a steering engine. The rigid light guide plate 61 is rotatably connected with the inner wall of the light-emitting chamber 21, and the first driver 62 is in transmission connection with the rigid light guide plate 61, so that the first driver 62 drives the rigid light guide plate 61 to rotate, and the first light guide assembly 6 is rotated. The rigid light guide plate 61 is provided with a first reflecting surface 611 towards one end of the light source 3, and the light is reflected by the first reflecting surface 611, so that the irradiation direction of the light emitted by the light source 3 is changed, and the first light guide assembly 6 can rotate towards the direction of the light source 3 and partially shield the first light-transmitting plate 4 to be switched into an ambient lighting mode.

The mirror frame 2 of the present embodiment is further provided with a driving chamber 22, and the driving chamber 22 is adjacent to the light emitting chamber 21 and communicates with the light emitting chamber 21, specifically, the driving chamber 22 is provided at the rear end of the mirror frame 2, and is connected to the bathroom wall through the driving chamber 22. The first driver 62 is fixed to the driving chamber 22 and drives the rigid light guide plate 61 to rotate.

The second light guide assembly 7 includes a guide rail 71, an elastic light guide plate 72, and a second driver 73, in order not to block the light of the light source 3, the guide rail 71 is made of transparent material that transmits light, the elastic light guide plate 72 is made of elastic material, the second driver 73 is a screw sliding table or an air cylinder, and the second driver 73 is connected to one end of the elastic light guide plate 72. The guide rail 71 is disposed in the driving chamber 22 and extends toward the light emitting chamber 21, and the second driver 73 is disposed in the driving chamber 22 and drives the elastic light guide plate 72 to slide along the guide rail 71, so that the second light guide assembly 7 is telescopically disposed in the light emitting chamber 21.

The guide rail 71 of the present embodiment includes an L-shaped guide portion 711 and a C-shaped extension portion 712 connected to the L-shaped guide portion 711, the L-shaped guide portion 711 is fixed to the driving chamber 22, the C-shaped extension portion 712 is fixed to the light emitting chamber 21, and the C-shaped extension portion 712 extends toward the light source 3, so that when the elastic light guide plate 72 slides along the guide rail 71 to the maximum expansion and contraction stroke S, the second light guide assembly 7 partially shields the first light-transmitting plate 4 and completely shields the second light-transmitting plate 5, thereby switching the present invention to the person lighting mode.

The end of the elastic light guide plate 72 facing the light source 3 is provided with a second reflecting surface 721, and the light is reflected by the elastic light guide plate 72, so that the irradiation direction of the light emitted by the light source 3 is changed.

The inductor assembly 8 of this embodiment includes a first inductor 81, a second inductor 82 and a third inductor 83, the first inductor 81 is disposed on the left side of the top of the mirror frame 2, the second inductor 82 is disposed in the middle of the top of the mirror frame 2, the third inductor 83 is disposed on the right side of the top of the mirror frame 2, and the detection ranges of the first inductor 81, the second inductor 82 and the third inductor 83 are fan-shaped, so that the inductor assembly 8 can conveniently detect whether the A area, the B area and the C area are occupied.

Specifically, the first sensor 81, the second sensor 82 and the third sensor 83 are preferably infrared sensors, and the sensing mode of the sensor assembly 8 is as follows: when a person passes in front of the mirror 1, i.e. from zone a to zone C or from zone C to zone a as described above, the sensor assembly 8 senses that the person has only a moving movement, and no rotating movement, while maintaining the ambient lighting mode; if a person walks to the mirror 1 for use, i.e. from zone a to zone B or from zone B to zone a, the person must rotate in this situation, i.e. the sensing area assembly 8 senses the rotation of the person's posture, thereby allowing the invention to switch to the person illumination mode.

The lower outside of the mirror frame 2 of this embodiment is also provided with a defogging box 9, the defogging box 9 includes a box body 91, a fan 92 and a heater 93, and the heater 93 is a PTC heater.

The box body 91 comprises an air inlet cavity 911, an air outlet cavity 912 and a water collecting cavity 913 which are communicated with each other and are sequentially arranged from outside to inside, the water collecting cavity 913 is clung to the surface of the mirror frame 2, the water collecting cavity 913 is provided with a water inlet 9131 and a water outlet 9132, when the demisting box 9 is powered off or stops working, water drops on the surface of the mirror 1 enter the water collecting cavity 913 along the water inlet 9131 and are discharged from the water outlet 9132, and the water drops on the surface of the mirror 1 are reduced to enter the air outlet cavity 912.

An air inlet 9111 is formed in the outer side of the air inlet cavity 911, an air guide port 9112 is formed between the air inlet cavity 911 and the air outlet cavity 912, an air outlet 9121 is formed in the air outlet cavity 912, a fan 92 and a heater 93 are arranged in the air inlet cavity 911, external air is led into the air inlet cavity 911 from the air inlet 9111 by the fan 92, the external air is heated by the heater 93 to become hot air, the hot air enters the air outlet cavity 912 from the air guide port 9112, and the hot air is blown to the surface of the mirror 1 from the air outlet 9121, so that mist on the surface of the mirror 1 is blown dry.

The top of the air inlet cavity 911 in this embodiment is provided with an inclined top plate 901, and the width of the inclined top plate 901 is greater than that of the air inlet cavity 911, so that the inclined top plate 901 is covered above the air inlet 9111, and water drops are reduced from the air inlet 9111 to enter the air inlet cavity 911.

The water inlet 9131 is provided with a water guiding inclined edge 9133 at an end facing the mirror 1, and water drops on the surface of the mirror 1 are guided into the water inlet 9131 by the water guiding inclined edge 9133.

An air deflector 94 is arranged in the air outlet chamber 912, and hot air is guided to blow from the air outlet 9121 to the surface of the mirror 1 by the air deflector 94. A water guide gap 941 communicated with the water collecting cavity 913 is arranged between the air deflector 94 and the inner wall of the air outlet cavity 912, and when water drops on the surface of the mirror 1 enter the inner wall of the air outlet cavity 912, the water drops can enter the water collecting cavity 913 from the water guide gap 941.

The fan 92 of the present embodiment is disposed on a side of the air inlet cavity 911 near the air inlet 9111, and the heater 93 is disposed on a side of the air inlet cavity 911 near the air guide 9112, so that external air is introduced into the air inlet cavity 911 from the air inlet 9111 by the fan 92, and the external air is heated by the heater 93 to become hot air, which enters the air outlet cavity 912 from the air guide 9112. The air guide port 9112 is an air guide grid, and the air guide port 9112 protrudes toward the air inlet cavity 911. The drip-proof bevel 9113 is provided above the air guide port 9112, and the drip-proof bevel 9113 extends obliquely downward toward the air guide plate 94, and when water drops on the surface of the mirror 1 enter the inner wall of the air outlet chamber 912, the water drops are guided to flow onto the air guide plate 94 by the drip-proof bevel 9113, so that the water drops are prevented from entering the air guide port 9112.

A water baffle 95 is disposed between the air guide port 9112 and the bottom of the box 91 in this embodiment, and water drops in the air guide plate 94 are blocked from entering the air guide port 9112 by the water baffle 95. One end of the air deflector 94 is connected with the water deflector 95, a leak 942 is formed at one end of the air deflector 94 close to the water deflector 95, and the air deflector 94 is communicated with the water collecting cavity 913 through the leak 942, so that water drops in the air deflector 94 can enter the water collecting cavity 913. The air deflector 94 is C-shaped and is curved toward the air guide 9112, so that the air deflector 94 guides hot air to blow from the air outlet 9121 to the surface of the mirror 1.

The foregoing is merely exemplary of the present invention, and those skilled in the art should not be considered as limiting the invention, since modifications may be made in the specific embodiments and application scope of the invention in light of the teachings of the present invention.

Claims (10)

1. A bathroom mirror LED control system capable of switching use modes is characterized in that: the light source comprises a mirror (1), a mirror frame (2), a light source (3), a first light-transmitting plate (4), a second light-transmitting plate (5), a first light guide assembly (6), a second light guide assembly (7), an inductor assembly (8) and a controller;

the mirror comprises a mirror frame (2) arranged on the outer side of the mirror (1), a light-emitting chamber (21) is arranged in the mirror frame (2), a light source (3) is arranged in the light-emitting chamber (21), a first light-transmitting plate (4) is arranged on the front side of the mirror frame (2), and a second light-transmitting plate (5) is arranged on the outer side of the periphery of the mirror frame (2);

the first light guide component (6) is rotatably arranged in the luminous chamber (21) and positioned at one side of the light source (3) close to the mirror (1), and the maximum rotation angle of the first light guide component (6) is R; the second light guide component (7) is arranged in the light-emitting chamber (21) in a telescopic way and is positioned on one side of the light source (3) close to the second light-transmitting plate (5), and the maximum telescopic stroke of the second light guide component (7) is S;

the outer left side of the mirror frame (2) is an area A, the right front is an area B and the outer right side is an area C, and the sensor assembly (8) is used for detecting whether people exist in the area A, the area B and the area C; the controller is fixed in the mirror frame (2) and is electrically connected with the light source (3), the first light guide assembly (6), the second light guide assembly (7) and the sensor assembly (8);

in an initial state, the first light guide component (6) is propped against the inner wall of the light-emitting chamber (21) close to one side of the mirror (1), the second light guide component (7) does not extend into the light-emitting chamber (21), the sensor component (8) detects that people exist in the area A or the area C, the controller controls the light source (3) to be electrified to work so as to emit light, and the light irradiates a bathroom through the first light-transmitting plate (4) and the second light-transmitting plate (5); if the sensor assembly (8) detects that no person exists in the area A or the area C, the controller controls the light source (3) to be turned off after timing for 5 seconds, and the bathroom mirror has an environment illumination mode and a person illumination mode;

ambient lighting mode: when the inductor component (8) detects that a person enters the C area from the A area or that a person enters the A area from the C area, the controller controls the first light guide component (6) to rotate R, and the first light guide component (6) rotates towards the direction of the light source (3) and partially shields the first light-transmitting plate (4);

character illumination mode: when the inductor component (8) detects that a person enters the B area from the A area or that a person enters the B area from the C area, the controller controls the second light guide component (7) to extend out of the S, and the second light guide component (7) partially shields the first light-transmitting plate (4) and completely shields the second light-transmitting plate (5).

2. A bathroom mirror LED control system switchable between modes of use according to claim 1, wherein: the first light-transmitting plate (4) is vertically arranged on the inner wall of the light-emitting chamber (21) close to one side of the mirror (1), the length of the first light-transmitting plate (4) is larger than that of the light-emitting chamber (21), one end of the second light-transmitting plate (5) is connected with the mirror frame (2), and the other end of the second light-transmitting plate (5) is connected with the first light-transmitting plate (4).

3. A bathroom mirror LED control system switchable between modes of use according to claim 1, wherein: the first light guide assembly (6) comprises a rigid light guide plate (61) and a first driver (62), the rigid light guide plate (61) is rotationally connected with the inner wall of the light-emitting chamber (21), the first driver (62) drives the rigid light guide plate (61) to rotate, and a first reflecting surface (611) is arranged at one end, facing the light source (3), of the rigid light guide plate (61).

4. A bathroom mirror LED control system switchable between modes of use according to claim 1, wherein: the mirror frame (2) is also provided with a driving chamber (22), and the driving chamber (22) is adjacent to the luminous chamber (21) and is communicated with the luminous chamber (21);

the second light guide assembly (7) comprises a guide rail (71), an elastic light guide plate (72) and a second driver (73), wherein the guide rail (71) is arranged in the driving chamber (22) and extends towards the light emitting chamber (21), and the second driver (73) is arranged in the driving chamber (22) and drives the elastic light guide plate (72) to slide along the guide rail (71).

5. The bathroom mirror LED control system capable of switching use modes according to claim 4, wherein: the guide rail (71) comprises an L-shaped guide part (711) and a C-shaped extension part (712) communicated with the L-shaped guide part (711), the L-shaped guide part (711) is fixed in the driving chamber (22), the C-shaped extension part (712) is fixed in the light emitting chamber (21), and the C-shaped extension part (712) extends towards the light source (3);

a second reflecting surface (721) is arranged at one end of the elastic light guide plate (72) facing the light source (3).

6. A bathroom mirror LED control system switchable between modes of use according to claim 1, wherein: the inductor assembly (8) comprises a first inductor (81), a second inductor (82) and a third inductor (83), wherein the first inductor (81) is arranged on the left side of the top of the mirror frame (2), the second inductor (82) is arranged in the middle of the top of the mirror frame (2), the third inductor (83) is arranged on the right side of the top of the mirror frame (2), and the detection ranges of the first inductor (81), the second inductor (82) and the third inductor (83) are fan-shaped.

7. A bathroom mirror LED control system switchable between modes of use according to claim 1, wherein: the outer side of the lower part of the mirror frame (2) is also provided with a demisting box (9), and the demisting box (9) comprises a box body (91), a fan (92) and a heater (93);

the box body (91) comprises an air inlet cavity (911), an air outlet cavity (912) and a water collecting cavity (913) which are communicated with each other and are sequentially arranged from outside to inside, the water collecting cavity (913) is clung to the surface of the mirror frame (2), the water collecting cavity (913) is provided with a water inlet (9131) and a water outlet (9132), and water drops on the surface of the mirror (1) enter the water collecting cavity (913) along the water inlet (9131) and are discharged from the water outlet (9132);

an air inlet (9111) is formed in the outer side of the air inlet cavity (911), an air guide opening (9112) is formed between the air inlet cavity (911) and the air outlet cavity (912), an air outlet (9121) is formed in the air outlet cavity (912), a fan (92) and a heater (93) are arranged in the air inlet cavity (911), external air is introduced into the air inlet cavity (911) from the air inlet (9111) through the fan (92), the external air is heated by the heater (93) to become hot air, the hot air enters the air outlet cavity (912) from the air guide opening (9112), and the hot air is blown to the surface of the mirror (1) from the air outlet (9121), so that mist on the surface of the mirror (1) is blown dry.

8. A bathroom mirror LED control system switchable between modes of use according to claim 7, wherein: the top of the air inlet cavity (911) is provided with an inclined top plate (901), and the width of the inclined top plate (901) is larger than that of the air inlet cavity (911);

one end of the water inlet (9131) facing the mirror (1) is provided with a water guide bevel edge (9133);

an air deflector (94) is arranged in the air outlet cavity (912), and a water guide gap (941) communicated with the water collecting cavity (913) is arranged between the air deflector (94) and the inner wall of the air outlet cavity (912).

9. A bathroom mirror LED control system switchable between modes of use according to claim 7, wherein: the fan (92) is arranged on one side of the air inlet cavity (911) close to the air inlet (9111), the heater (93) is arranged on one side of the air inlet cavity (911) close to the air guide opening (9112), the air guide opening (9112) is an air guide grid, the air guide opening (9112) protrudes towards the air inlet cavity (911) to be arranged, and an anti-drip inclined edge (9113) is arranged above the air guide opening (9112).

10. A bathroom mirror LED control system switchable between modes of use according to claim 8, wherein: be provided with breakwater (95) between air guide opening (9112) and box body (91) bottom, the one end and the breakwater (95) of aviation baffle (94) are connected, and the one end that aviation baffle (94) is close to breakwater (95) is provided with leak (942), and aviation baffle (94) are through leak (942) and water collection chamber (913) intercommunication, and aviation baffle (94) are C and crooked towards air guide opening (9112) direction.