KR20090009465A - Led lamp floodlight quantity control device and the method which uses the variable glass - Google Patents

Abstract

A light emitting diode lamp light distribution control device and a method are provided to adjust the voltage value supplying to the smart glass in which the permeability changes is controlled. A controller(100) generates the current value corresponding to the voltage value by analyzing an operation signal of a light emitting diode lamp(110). The light emitting diode lamp is turned on by the current value generated from controller. A smart glass driving part(130) outputs the voltage value corresponding to the current value generated from the controller. The permeability of smart glass(120) is changed by the voltage value generated from the smart glass driving part. A lens(150) induces the light generated from the light emitting diode lamp.

Description

LED lamp floodlight quantity control device and the method which uses the variable glass}

The present invention relates to an LED lamp light distribution control device and method using smart glass, and more particularly, by installing a smart glass in which the transmittance is changed by the voltage value on the front of the LED lamp installed in the vehicle of the light generated from the LED lamp The present invention relates to an LED lamp light distribution control device and method using smart glass that can adjust the irradiation amount.

Generally, tail lights and brake lights are installed at the front and rear of the vehicle to display the position and driving direction of the vehicle. Recently, high brightness LED lamps have been widely used to improve visibility and extend the life of tail lights and brake lights. .

The LED lamp is a light amount is controlled by the supplied current value, and supplies a constant constant current using a PWM (Pulse Width Modulation) circuit for modulating the pulse width.

However, these PWM circuits are expensive, so recently, PWM circuits are eliminated and resistors are used to control the current.

As described above, a technique of easily controlling the amount of light generated from the LED lamp, that is, light distribution by controlling the current with a resistor, has been widely used.

In other words, when the LED lamp is operated as a tail light, a low current value (about 4 mA) is supplied, and when the LED lamp is operated as a brake light, a high current value (about 40 mA) is supplied to remove the light distribution of the LED lamp.

However, as described above, the light distribution control method using a resistor can reduce the cost compared to the method using a PWM circuit, but when the current of the vehicle is not constant when the current is controlled by the resistance, the current value changes. There is a problem that the brightness value of the LED lamp is changed.

In addition, conventionally, since the light generated from the LED lamp is directly irradiated to the outside, there is a problem such as obstructing the vision of the following vehicle driver due to glare.

The present invention has been made to solve the above problems, the object is to adjust the voltage value supplied to the smart glass by installing a smart glass whose transmittance is changed in accordance with the voltage value in front of the LED lamp, The present invention provides an LED lamp light distribution control apparatus and method using smart glass that can control light distribution.

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

The LED lamp light distribution control device using the smart glass of the present invention analyzes the LED lamp operation signal and generates a current value corresponding to the voltage value corresponding to the operation signal, and the LED is turned on by the current value generated in the controller It includes a lamp, a smart glass driver for outputting a voltage value corresponding to the current value generated by the control unit, the transmittance is changed by the voltage value generated in the smart glass driver, and includes a smart glass installed on the front of the LED lamp It was done.

In addition, the LED lamp light distribution control method using the smart glass of the present invention analyzes the operation signal of the LED lamp to generate a current value corresponding to the operation signal, and receives the current value generated in the first step LED A second step of turning on a lamp, a third step of receiving a current value generated in the first step and generating a voltage value corresponding to a change in the current value, and supplying a voltage value generated in the third step Including the fourth step of changing the transmittance of the smart glass.

The present invention has a unique effect of maintaining a constant brightness of the light generated by the LED lamp because the transmittance of the smart glass is changed by receiving a voltage value corresponding to the change amount when the current value to turn on the LED lamp is changed. .

When described with reference to the accompanying drawings showing the present invention.

1 is a block diagram showing an LED lamp light distribution control apparatus according to the present invention, Figure 2 is a flow chart for explaining the LED lamp light distribution control method according to the present invention, Figure 3 is a voltage when the LED lamp operation according to the present invention Figure 4 is a graph showing the value and the current value, Figure 4 is a graph showing the transmittance by the voltage supplied to the smart glass according to the present invention.

As referred to herein, the housing 140 is installed at the front and rear of the vehicle, and the LED lamp 110 is installed inside the housing 140.

On the other hand, the smart glass 120 is installed in the interior of the housing 140 so that the transmittance is changed by the voltage value supplied to the front of the LED lamp 110.

In addition, a lens 150 for inducing light generated from the LED lamp 110 is installed on the surface of the housing 140.

In addition, the LED lamp 110 is electrically connected to the control unit 100 for operating the LED lamp 110, the control unit 100 is a resistor to turn on the LED lamp 110 with a tail light or a brake light. The current is controlled.

Meanwhile, the smart glass 120 is connected to the smart glass driver 130, but the smart glass driver 130 generates a voltage value corresponding to a change in the current value generated by the controller 100.

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

First, when an operation signal for lighting the LED lamp 110 with a tail light or a brake light is generated, the control unit 100 receives the operation signal.

At this time, the control unit 100 generates a current value corresponding to the operation signal by using a resistor, and the signal is as shown in FIG. 3.

The LED lamp 110 supplied with the current value is turned on by a tail light or a brake light.

Meanwhile, the current value is supplied to the LED lamp 110 and to the smart glass driver 130 at the same time.

As such, the smart glass driver 130 that receives the current value generates a voltage value corresponding to the current value according to a set value, and the voltage value is supplied to the smart glass 120. ) Transmittance is changed.

At this time, the transmittance of the smart glass 120 according to the voltage value is as shown in FIG.

That is, when the power is cut off to the smart glass 120, the opaque state is maintained, and the transparency is changed according to the voltage value of the power supply.

The voltage value generated by the smart glass driver 130 is changed when the current value supplied to the smart glass driver 130, that is, the brightness of the LED lamp 110 is changed, and the transmittance of the smart glass 120 is changed. Since the brightness of the LED lamp 110 is irradiated to the outside of the vehicle is kept constant.

1 is a block diagram showing an LED lamp light distribution control apparatus according to the present invention.

2 is a flow chart for explaining the LED lamp light distribution control method according to the present invention.

Figure 3 is a graph showing the voltage value and the current value when the LED lamp operation in accordance with the present invention.

Figure 4 is a graph showing the transmittance by the voltage supplied to the smart glass according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: control unit

110: LED lamp

120: smart glass

130: smart glass drive unit

140: housing

150 lens

Claims (3)

The control unit 100 for analyzing the operation signal of the LED lamp 110 to generate a current value corresponding to the voltage value corresponding to the operation signal, and the LED lamp 110 that is turned on by the current value generated by the control unit 100. ), A smart glass driver 130 for outputting a voltage value corresponding to a current value generated by the controller 100, and a smart glass whose transmittance is changed by a voltage value generated by the smart glass driver 130. 120) LED lamp light distribution control device using a smart glass, characterized in that it comprises a. The method according to claim 1, LED lamp light distribution control device using a smart glass, characterized in that the current value generated by the control unit 100 is controlled by a resistance. A first step of analyzing the operation signal of the LED lamp to generate a current value corresponding to the operation signal; a second step of receiving a current value generated in the first step to turn on the LED lamp; and the first step And a fourth step of receiving a current value generated from and generating a voltage value corresponding to the change of the current value, and a fourth step of changing the transmittance of the smart glass by receiving the voltage value generated in the third step. LED lamp light distribution control method using smart glass.

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