RU92971U1 - LIGHT MIRROR - Google Patents

Abstract

 A backlit mirror, comprising a glass fixed to the base with a mirror coating deposited on its rear surface, wherein at least one window is formed in the mirror coating for transmitting light from at least one light source located on the back of the glass, characterized in that at least one light source is located near at least one window for transmitting light, and on the base there is a control unit connected to at least one light source, made in the form of a photosensor that creates a non-contact sensitivity region in front of the mirror, as well as a microcontroller that allows you to implement an algorithm to turn on and turn off the light, and an electronic key that switches the power supply of the light source, while the output of the photosensor is connected to the input of the microcontroller, and the output of the microcontroller is connected to the input an electronic key, the control unit being connected to light-emitting and light-receiving elements, the optical axes of which are turned towards the glass and intersect at a given point behind the glass, while small windows are formed in the mirror coating opposite the light-emitting and light-receiving elements, in addition, an LED indicator connected to the control unit can be installed between the light-emitting and light-receiving elements to indicate the sensitive area, and opposite the LED indicator in the mirror coating a small window can be formed, in addition, the base is made in the form of a frame structure.

Description

The utility model relates to furniture, in particular, mirror designs equipped with lighting fixtures, and can be used in rooms with high humidity.

Known analogue 1 is a bathroom mirror, containing a base in the form of a plate, on one side of which a rectangular glass is fixed with a mirror coating deposited on its back surface, a part of the surface of which is removed to form at least one area on the glass to pass light from a light source located on the back of the plate, in which a through hole or cutout is made opposite the portion on the glass for passing light to accommodate the indicated light source connected by wires with a switch located in the socket on the side of the plate, and it is equipped with a plate no wider than the width of the side of the plate and fixed on this side opposite the socket, with holes or cutouts made in this plate for mounting and fixing the switch and the external connection unit power supply, the contact part of which is located in the socket, which is made open and closed with a flat cover on the back of the plate, and edging plates are fixed on the end surfaces of the plate us. (RF patent №84140, IPC G02В 5/08, publication date: 06/27/2009)

Known analogue 2 is a bathroom mirror, containing a base in the form of a plate, on one side of which a rectangular glass is fixed with a mirror coating deposited on its back surface, a part of the surface of which is removed to form at least one area on the glass to pass light from a light source located on the back side of the plate, in which, through the section on the glass for passing light, a through hole or cutout is made to accommodate the indicated light source connected by wires a switch installed in the socket made in the plate on its lateral side, wherein said wires are placed in a groove made in the plate on the glass placement side, edging plates are fixed on the end surfaces of the plate, the socket on the side of the plate is arranged to be placed next to switch of the unit for connecting to an external power source, and the through hole or cut-out for accommodating the light source in it is closed by a lid or plate. (RF patent No. 83903, IPC A47K 1/02; G02B 5/08 publication date: 06/27/2009)

The closest in technical essence and the achieved effect is a bathroom mirror containing glass with a mirror coating deposited on its back surface, which is fixed to the base, while a layer of mirror coating is removed from the back of the glass to pass light from the light source located on the back side the base opposite the hole in it, which coincides with the part of the matte surface, on the side of the base there is a socket for accommodating the light source power switch, and a groove has been made to accommodate electrical wires connecting the light source to the switch. (RF patent No. 70006, IPC G02B 5/08, publication date: 01/10/2008).

A disadvantage of the known technical solutions is that when they are used in rooms with high humidity, the user often has to turn on the light source by touching the circuit breaker with wet hands, and with poor-quality insulation of the circuit breaker, such a touch does not exclude the exposure of a person to electric current, which can cause fatal cases ..

The task to which the claimed technical solution is directed is to create a mirror equipped with a light source and a proximity switch, safe for the health of the user when using the mirror in rooms with high humidity.

The technical result consists in increasing the usability of a backlit mirror.

The technical result is achieved in that a backlit mirror containing glass fixed on the base with a mirror coating deposited on its back surface, wherein at least one window is formed in the mirror coating for transmitting light from at least one light source located on the back side of the glass, has at least one light source located near at least one window for transmitting light, and on the base is installed connected to at least one light source that control unit, made in the form of a photosensor that creates a non-contact sensitivity region in front of the mirror, as well as a microcontroller that allows you to implement an algorithm for turning on and automatically turn off the light, and an electronic key that switches the power supply to the light source, while the output of the photosensor is connected to the input of the microcontroller, and the output of the microcontroller is connected to the input with the input of the electronic key, and the control unit is connected to the light-emitting and light-receiving elements, optical and which face the glass and intersect at a given point behind the glass, while small windows are formed in the mirror coating opposite the light-emitting and light-receiving elements, in addition, an LED indicator connected to the control unit can be installed between the light-emitting and light-receiving elements to indicate the sensitive area, and in the mirror coating opposite the LED indicator a small window can be formed, in addition, the base is made in the form of a frame structure.

The claimed utility model is illustrated by drawings, where:

figure 1 - mirror with backlight, front view;

figure 2 - backlit mirror, rear view;

figure 3 is a backlit mirror, a side view schematically showing the relative position of the control unit and the glass

The claimed technical solution can be implemented in the construction of a backlit mirror, including glass 1, mirror coating 2, base 3, windows 4, light sources 5, a photosensor 6, a light emitting element 7, a first small window 8, a light receiving element 9, and a second small window 10, LED 11, the third small window 12.

The backlit mirror is arranged as follows.

The claimed illuminated mirror consists of glass 1 with a mirror coating 2 applied on its rear surface and fixed to the base 3. At least one window 4 is formed on the rear surface of the mirror coating 2 for transmitting light from at least one light source 5, located on the back of the glass 1 near the window 4. The base 3 is preferably made in the form of a frame structure, this design allows you to arrange the light sources 5 in the desired order. On the basis of 3, a control unit is installed, made in the form of a photosensor 6, for example, a diffuse-type photosensor of the infrared light range combined with a controller and an electronic key, while the output of the photo sensor 6 is connected to a light source 5. The light-emitting element 7, the light-receiving element 9, and the LED indicator 11 is connected to the photosensor 6 and facing toward the glass 1, the optical axis of the light-emitting element 7 and the light-receiving element 9 intersect at a given point behind the glass 1. In this case, the LED indicator torus 11 is disposed between the light-emitting element 7 and the light receiving element 9 to indicate the sensitive area therebetween. In order for the infrared signal to pass freely through the mirror, a first small window 8 is formed opposite the light-emitting element 7 in the mirror coating 2, a second small window 10 is formed opposite the light-receiving element 9, and a third small window 12 is formed opposite the LED indicator 11.

The photosensor 6 by means of the light emitting element 7 provides a light location of the space by pulses of invisible infrared light, while the light receiving element 9 is a receiver of light pulses diffusely reflected from the object (for example, palm of the hand). The area of space opposite the first, second and third small windows 10, 11 and 12, in which the photosensor 6 is able to register an object, is the sensitivity area of the photo of the sensor 6, this area is indicated by LED indicator 11. The microcontroller (not shown in Figs. 1-3) a given algorithm, guided by the state of the photosensor 6, closes or opens an electronic key (not shown in Fig.1-3), turning on or off the electrical power supplied to the light source 5. The algorithm for turning on and off the light can be set as desired NIJ consumer.

The claimed mirror with backlight works as follows.

If there is no object in the sensitivity area (for example, the palm of the hand), the light pulses of the light-emitting element 7 passing through the transparent first small window 8 do not diffuse diffuse and do not return through the transparent second small window 10 to the light-receiving element 9. The microcontroller holds the electronic key in open state and power is not supplied to the light source 5, the LED indicator 11 emits light through the third small window 12. When entering into the sensitivity area of any object (n example, palms of the hands) the light pulses of the light-emitting element 7 passing through the transparent first small window 8 are diffused by the object and returned through the transparent second small window 10 to the light-receiving element 9. By the signal of the light-receiving element 9, the microcontroller closes the electronic key and the power is supplied to the light source 5, the LED 11 stops emitting light through the third small window 12.

The electronic key is kept closed for a predetermined time interval, for example, 5 minutes, then it opens and turns off the power to the light source 5.

When a subject is re-introduced into the sensitivity area (for example, the palm of the hand) before the specified time interval has elapsed, the electronic key switches to the open state and the power supply of the light source 5 is turned off, the LED indicator 11 turns on.

The proposed utility model makes it safe for the health of the user to use a mirror with illumination in rooms with high humidity.

Claims (1)

A backlit mirror, comprising a glass fixed to the base with a mirror coating deposited on its rear surface, wherein at least one window is formed in the mirror coating for transmitting light from at least one light source located on the back of the glass, characterized in that at least one light source is located near at least one window for transmitting light, and on the base there is a control unit connected to at least one light source, made in the form of a photosensor that creates a non-contact sensitivity region in front of the mirror, as well as a microcontroller that allows you to implement an algorithm to turn on and turn off the light, and an electronic key that switches the power supply of the light source, while the output of the photosensor is connected to the input of the microcontroller, and the output of the microcontroller is connected to the input an electronic key, the control unit being connected to light-emitting and light-receiving elements, the optical axes of which are turned towards the glass and intersect at a given point behind the glass, while small windows are formed in the mirror coating opposite the light-emitting and light-receiving elements, in addition, an LED indicator connected to the control unit can be installed between the light-emitting and light-receiving elements to indicate the sensitive area, and opposite the LED indicator in the mirror coating a small window can be formed, in addition, the base is made in the form of a frame structure.