KR100811718B1 - Electronic reflection control mirror - Google Patents

Abstract

An electronic reflection control mirror is provided to prevent glare transmitted to a driver by controlling brightness of a plurality of LEDs(Light Emitting Diodes) installed on a diffusion plate according to an amount of light. An electronic reflection control mirror includes a flat panel-shaped glass(210), a frame(200), a diffusion plate(220), LEDs(250), a front sensor(230), a rear sensor(231), and a control unit(240). The frame supports the glass. The diffusion plate is installed on a rear side of the glass. The LEDs are installed on upper and lower parts of the diffusion plate to generate light corresponding to three primary colors of light. The front sensor senses the light irradiated on a front side of the glass. The rear sensor senses the light irradiated on a rear side of the glass. The control unit controls brightness of the LEDs by signals sensed by the front sensor and the rear sensor.

Description

Electronic reflection control mirror

1 is a cross-sectional view showing a conventional reflectance control mirror.

2 is a cross-sectional view showing a reflectance control mirror according to the present invention.

Figure 3 is a front view showing a diffuser plate of the reflectance control mirror according to the present invention.

Figure 4 is a plan view showing a reflectance control mirror in accordance with the present invention.

5 is a circuit diagram of a reflectance control mirror according to the present invention;

6 is a flowchart for explaining an operating state of the reflectance control mirror according to the present invention;

※ Explanation of symbols about main part of drawing ※

200: frame

201: blocking bracket

210: glass

220: diffuser plate

230: front sensor

231: rear sensor

240: control unit

250: LED

260: switch

The present invention relates to an electronic reflectivity control mirror, and more particularly, the three primary colors of light are generated according to the magnitude of the detected brightness by detecting the brightness of the rearview mirror by the headlights of the rear vehicle or the daytime sunlight during driving at night. The present invention relates to an electronic reflectivity control mirror with adjustable reflectivity to reduce the glare by adjusting the brightness of the LED lamp.

In general, a vehicle is provided with a room mirror on the ceiling of the vehicle body so that the driver can watch the front while driving and the rear at the same time, and a side mirror, which is a rear view mirror outside the front door, is installed outside the vehicle.

In addition, the headlights are installed as headlights to brighten the front and to secure the driver's vision when driving in a dark place or at night.

Therefore, when driving the vehicle at night, when the headlights of the vehicle that comes from the rear are reflected through the interior room mirror or the side mirror of the vehicle in front of the vehicle, the driver of the vehicle in front of the vehicle is obstructed the view, in particular, the rear vehicle to operate the high beam In this case, the driver of the vehicle ahead acts as a factor that disturbs safe driving with severe discomfort.

Therefore, some drivers manually prevent the glare by adjusting the angle of the room mirror to prevent glare from the rear vehicle.

On the other hand, in order to alleviate this inconvenience, a room mirror using ECM (Electro Chromic Mirror) technology has recently appeared to automatically adjust the reflectivity of the mirror surface to prevent glare.

The ECM room mirror refers to an electronic chrome dimming mirror, and the light reflectance is automatically adjusted (about 6 to 80%) on the mirror surface according to the ambient conditions when the vehicle is driving. The internal sensor automatically detects and prevents absorption and glare to secure a safe watch.

1 is a cross-sectional view showing a conventional reflectance control mirror.

As referred to herein, the reflectance adjusting member 110 is conventionally embedded between a pair of glasses 100, and the reflectance adjusting member 110 is prevented from leaking to the outside around the contact surface of the glass 100. Sealing member 120 is provided to.

The reflectance control member 110 is composed of two structures (cathode and anode) compound and a solvent, the electrons react to change the color when a voltage is applied.

In addition, the pair of glasses 100 are provided with terminals 130 for supplying power, respectively.

On the other hand, the selected position of the vehicle is provided with a sensor 140 for sensing the light irradiated to the vehicle, the terminal 130 and the control unit 150 is powered by the detection signal of the sensor 140 and It is connected.

Therefore, when the light of the headlamp of the vehicle running behind the vehicle or the sun light during the daytime driving is sensed by the sensor 140, the detection signal is transmitted to the controller 150, and the control unit 150 receiving the signal receives a terminal. The control signal is generated so that power is supplied to the 130.

When power is supplied to the terminal 130, the electrons of the reflectance control member 110 charged between the pair of glasses 100 react to change the color to blue.

When the color of the reflectance control member 110 is changed, the reflectance of the glass 100 is adjusted to prevent glare caused by light or sun light of the headlamp of the rear vehicle.

However, such a conventional electronic reflectivity control mirror has a problem that the reflectance control member 110 filled between the glass 100 is composed of a solvent, so that the compound is separated and the color change rate is reduced during long-term use.

In addition, in the related art, the sealing member 120 installed on the contact surface of the glass 100 is damaged so that the reflectance adjusting member 110 does not leak during long-term use, so that the reflectance adjusting member 110 leaks.

In addition, the conventional reflectance control mirror has a limit in preventing glare because the light is changed to a single color (blue).

The present invention has been invented to solve the above problems, the object is to install an LED that generates three primary colors of light in the rear of the mirror installed in the vehicle, and adjust the brightness of the LED to the driver through the mirror The present invention provides an electronic reflectivity control mirror that can minimize glare caused by irradiated light.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

The electronic reflectance control mirror of the present invention is provided with a flat glass, a frame for supporting the glass, a diffuser plate provided at the rear of the glass, and the upper and lower portions of the diffuser plate so that light corresponding to the three primary colors of light is generated. Control unit for controlling the brightness of the LED by the LED, the front sensor for detecting the light irradiated to the front of the glass, the rear sensor for detecting the light irradiated to the rear of the glass and the detection signals of the front sensor and the rear sensor It was to include.

Referring to the present invention having such characteristics in detail as follows.

2 is a cross-sectional view showing a reflectance control mirror according to the present invention, Figure 3 is a front view showing a diffuser plate of the reflectance control mirror according to the present invention, Figure 4 is a plan view showing a reflectance control mirror according to the present invention, Figure 5 6 is a circuit diagram illustrating a reflectance control mirror according to the present invention, and FIG. 6 is a flowchart illustrating an operating state of the reflectance control mirror according to the present invention.

As referred to herein, the present invention provides a plate-shaped glass 210, and the circumferential surface of the glass 210 is supported by the frame 200.

On the other hand, the diffusion plate 220 is provided on the rear of the glass 210, the diffusion plate 220 is formed in an arc shape toward the center of the front portion and both ends toward the rear.

In addition, a plurality of LEDs 250 are installed on the upper and lower portions of the diffusion plate 220, and the LEDs 250 correspond to three primary colors of light (red: red, green: green, blue: blue). This is what happens each.

And, the front of the glass 210 is provided with a front sensor 230 for detecting the light irradiated to the front of the glass 210, the rear of the glass 210 is irradiated to the rear of the glass 210 The rear sensor 231 for detecting light is installed.

The lower portion of the frame 200 is provided with a blocking bracket 201 for preventing the light emitted from the front sensor 230 and the rear sensor 231 is scattered.

The rear surface of the frame 200 is provided with a control unit 240 for adjusting the brightness of the LED 250 by the detection signal of the front sensor 230 and the rear sensor 231.

On the other hand, a switch 260 for operating the control unit 240 is installed below the frame 200.

In the circuit of the present invention, a power supply and a ground are connected to the control unit 240, and the front sensor 230 and the rear sensor 230 are connected to the control unit 240, respectively.

In addition, the control unit 240 is connected to the LED 250 installed on the upper / lower portion of the diffusion plate 220.

Referring to the present invention configured as described in detail as follows.

First, when not using the electronic reflectivity adjustment mirror of the present invention is to place the switch 260 installed in the lower portion of the frame 200 in the off state.

When the switch 260 is positioned in the OFF state as described above, the front sensor 230, the rear sensor 231, and the control unit 240 do not operate, and the glass 210 is used as a conventional mirror.

On the other hand, when the switch 260 is placed in the on state, the front sensor 230, the rear sensor 231 and the control unit 240 is operated.

At this time, the light or the sun light generated by the headlight of the trailing vehicle is detected by the front sensor 230, the light generated by the headlight of the vehicle traveling in the opposite direction is detected by the rear sensor 231.

At this time, the scattering of the light irradiated to the front sensor 230 and the rear sensor 231 by the blocking bracket 201 installed in the lower portion of the frame 200 is prevented.

When the front sensor 230 or the rear sensor 231 detects light, the detection signal is transmitted to the controller 240.

The control unit 240 is to prevent the glare transmitted to the driver by adjusting the brightness of the plurality of LEDs 250 installed in the diffusion plate 220 according to the amount of light.

At this time, the color of the light represented through the glass 210 is changed according to the brightness of the LED that the three primary colors of the light is generated, the color of the light by the position of the color control lever 270 selected by the driver, The amount of light irradiated onto the glass 210 is changed, and various colors are expressed by a combination of brightness of light generated from the LED.

As described above, the present invention provides an LED which generates three primary colors of light at the rear of the mirror installed in the vehicle, and adjusts the brightness of the LED to prevent glare caused by light irradiated to the driver through the mirror. There is.

Claims (5)

Flat glass 210, the frame 200 for supporting the glass 210, the diffusion plate 220 provided in the rear of the glass 210, and diffused to generate light corresponding to the three primary colors of light LED 250 installed on the upper and lower portions of the plate 220, a front sensor 230 for detecting the light irradiated to the front of the glass 210, and detects the light irradiated to the rear of the glass 210 And a control unit 240 for adjusting the brightness of the LEDs 250 according to the rear sensor 231 and the detection signals of the front sensor 230 and the rear sensor 231. The electronic reflectivity adjustment mirror of claim 1, wherein a switch (260) for operating the control unit (240) is further provided below the frame (200). The electronic reflectivity adjustment mirror of claim 1, wherein the diffuser plate 220 is formed in an arc shape in which a center part faces forward and both ends face backward. The electronic reflectance of claim 1, wherein a blocking bracket 201 is further provided below the frame 200 to prevent scattering of light emitted from the front sensor 230 and the rear sensor 231. Adjustable mirror. The electronic reflectivity adjustment mirror of claim 1, wherein the control unit (240) is further provided with a color adjustment lever (270) for selecting a color represented by a combination of light generated from the LED (250).

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