KR0166453B1 - Headlamp control unit - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automobile, and more particularly, to an automatic headlight automatic control device capable of automatically controlling the brightness and lighting / lighting out of an automobile headlight according to an automobile speed and an amount of ambient light.

The headlight automatic control device of the present invention includes a power supply source for supplying power to the lamp by a power switch operation; A lamp control signal generator configured to turn off or turn on the lamp according to the detected speed of the vehicle and the amount of ambient light, and to generate a lamp control signal for adjusting the illumination of the lamp; A lamp on / off unit for turning off and turning on the lamp in response to the lamp control signal; And an illuminance control unit that adjusts illuminance of the lamp in response to the lamp control signal, so that the headlight can be automatically controlled according to the speed of the vehicle and the amount of ambient light. There is no need to do this, and it eliminates the risk of an accident due to the control action.

Description

Headlight automatic control

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automobile, and more particularly, to an automatic headlight automatic control device capable of automatically controlling the brightness and lighting / lighting out of an automobile headlight according to an automobile speed and an amount of ambient light.

In general, when the surrounding environment becomes dark while the vehicle is running, the headlights of the car are turned on.When the road is crowded due to the signal waiting state or the increase of vehicles, the headlights are turned off so that the headlights are turned off so as not to obstruct the driver of the vehicle ahead. Should be.

FIG. 1 is a schematic diagram of a conventional vehicle headlight control apparatus, and indicates that power supplied from a battery B + is transmitted to a lamp L in response to a driver's operation of a switch SW.

This is because the driver controls the headlights by turning the switch on and off whenever necessary, so it is cumbersome to operate the switch frequently to control the headlights when the signal is waiting or when the vehicle is crowded. It is not possible to observe properly, which entails the risk of traffic accidents.

An object of the present invention is to automatically control the brightness of the vehicle headlights and lighting / off according to the vehicle speed and the amount of ambient light in order to solve the problem of continuously operating the switch for the headlight control as described above To provide a device.

Automatic headlight control device of the present invention for achieving the above object is a power supply for supplying power to the lamp by the power switch operation; A lamp control signal generator configured to turn off or turn on the lamp according to the detected speed of the vehicle and the amount of ambient light, and to generate a lamp control signal for adjusting the illumination of the lamp; A lamp on / off unit for turning off and turning on the lamp in response to the lamp control signal; And an illuminance control unit for adjusting illuminance of the lamp in response to the lamp control signal.

1 is a schematic view showing a conventional headlight control device.

Figure 2 is a circuit diagram showing an automatic headlight control device according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the present invention.

Figure 2 is a circuit diagram showing the automatic headlight control device according to the present invention, largely the power supply source 10, lamp (L), lamp control signal generator 20, lamp on / off unit 30 and the illumination control unit ( 40) Can be divided into blocks.

The lamp control signal generator 20 may include a frequency / voltage converter signal source for outputting a DC voltage converted according to the speed of a vehicle, and a light quantity response variable for outputting a converted signal in response to the amount of ambient light. Phase difference between the two signals by receiving the resistance element Cds, the output signal of the frequency / voltage converter signal source 2 and the signal according to the change of the light quantity sensitive variable resistance element Cds, respectively, to the non-inverting terminal and the inverting terminal. A first operational amplifier A1 for outputting a signal at a level proportional to the first operational amplifier A1, and a first transistor for switching the supply power of the power supply source 10 to ground in response to an output signal of the first operational amplifier A1; Q1), between a second resistor R2 connected between the first transistor Q1 and a first node NODE1, and an inverting terminal of the first node NODE1 and the first operational amplifier A1. Connected to the first resistor R1 and the first resistor R1 It consists of a variable resistor (RX1) coupled between.

The lamp on / off section 30 includes a reference voltage generator 22 having hysteresis characteristics. The first lamp control signal CON1 output from the first node NODE1 of the lamp control signal generator 20 and the signal supplied from the reference voltage generator 22 are input to the non-inverting terminal and the inverting terminal, respectively. A second operational amplifier A2 for outputting a signal at a level similar to a phase difference between the two signals, and a supply power supplied from the power supply source 10 to ground in response to an output signal of the second operational amplifier A2; A second transistor (Q2) for switching and a relay (X) is made in accordance with the switching operation of the second transistor (Q2) to supply the supply power to the lamp.

In the lamp lighting / lighting unit 30, the reference voltage generator 22 divides the reference voltage supply source B and the divided voltage resistors R3, R4, and R5 for dividing the supply power provided from the reference voltage supply source B. ) And a third transistor Q3 for decreasing the reference voltage level in response to the output signal of the second operational amplifier A2.

The illuminance control unit 40 includes a ripple remover 32 for removing a ripple signal of the second lamp control signal CON2 output from the lamp control signal generator 20, and the ripple remover 32. It is composed of a supply power control unit 34 to adjust the amount of supply power induced in the lamp (L) in response to the signal output through.

The ripple removing unit 32 of the illuminance control unit 40 is input to the non-inverting terminal through the sixth and seventh resistors R6 and R7 to which the output signal of the lamp control signal generator 20 is connected in series. A first capacitor C1 connected between a third operational amplifier A3 and a second node NODE2 between the sixth and seventh resistors R6 and R7 and an output terminal of the third operational amplifier A3. And a second capacitor C2 connected between the non-inverting terminal of the third operational amplifier A3 and ground, and an eighth resistor R8 for determining the potential of the third operational amplifier A3 inverting terminal. It consists of an integrator 32 configured. In addition, the supply power adjuster 34 switches a fourth transistor Q4 for switching the supply power passing through the lamp L in response to the output signal of the third operational amplifier A3, and the fourth transistor Q4. A Darlington pair 34 composed of a fifth transistor Q5 which switches the supply power source to the eighth resistor R8 in response to a signal passing through the reference signal.

In addition, when the power switch (SW) is turned on between the lamp (L) and the ground and the lamp (L) is turned off by the surrounding environment or the brightness of the lamp (L) is low so that the lamp (L) can be turned on manually. The forced lighting switch SW1 is further provided.

According to the above configuration, the first operational amplifier A1 depends on the DC voltage of the frequency / voltage converter A and the amount of light incident on the photosensitive variable resistance element Cds in the power switch SW on state. When the output of the () is determined, the first transistor (Q1) is switched by the output of the first operational amplifier (A1) so that a constant voltage in the first and second resistors (R1, R2) corresponding to the input voltage The voltages appearing on the first and second (R1, R2) resistors are respectively input to the second and third operational amplifiers A2 and A3.

Thus, the voltage of the first resistor R1 input to the non-inverting terminal of the second operational amplifier A2 is such that the constant voltage provided from the reference voltage supply source B is the third, fourth and fifth resistors R3 and R4. The third transistor Q3 is compared with the reference voltage input to the inverting terminal of the second operational amplifier A2, and is divided by R5, and the switching operation of the third transistor Q3 is performed. The relay X is made so that the lamp L is turned on / off. At this time, the switching operation of the second transistor Q2 lowers the level of the reference voltage input to the inverting terminal so that the reference voltage has hysteresis characteristics.

In addition, the voltage of the second resistor R2 input to the non-inverting terminal of the third operational amplifier A3 via the sixth and seventh resistors R6 and R7 is the sixth and seventh resistors R6 and R7, The ripple signal is removed at the low frequency signal by the first and second capacitors C1 and C2 and input to the non-inverting terminal of the third operational amplifier A3. The signal applied to the eighth resistor R8 through the Q4 and Q5 is input to the inverting terminal of the third operational amplifier A3 to increase or decrease the brightness of the head lamp or the like at a predetermined input signal, that is, at low speed.

In other words, when a signal having a predetermined speed or more is input and the DC voltage rises as described above, the headlight is turned on by driving the relay by the second operational amplifier A2, and the light is sensitive by using the photosensitive variable resistance element Cds. By varying the size of the resistor according to the amount of light, the brightness of the headlamp is adjusted by the voltage input to the third operational amplifier A3.

According to the present invention, since the headlight is automatically controlled according to the speed of the vehicle and the amount of ambient light as described above, the driver does not have to continuously operate the hand for controlling the headlight, and thus eliminates the risk of an accident due to the control operation.

Claims (9)

A power supply source supplying power to the lamp by a power switch operation; A lamp control signal generator for turning off / lighting the lamp according to the detected speed of the vehicle and the amount of ambient light, and generating a lamp control signal for adjusting the illuminance of the lamp; A lamp driver for turning off and turning on the lamp in response to the lamp control signal; A headlight automatic control device having an illuminance control unit for adjusting the illuminance of the lamp in response to the lamp control signal. The apparatus of claim 1, wherein the lamp control signal generator comprises: a frequency / voltage converter signal source configured to output a DC voltage converted according to a speed of a vehicle; A light quantity sensitive signal source for outputting a converted signal in response to the amount of ambient light; A first operational amplifier receiving the output signal of the frequency / voltage converter signal source and the signal according to the change of the light quantity sensitive variable resistance element, respectively, and outputting the signal at a level that is proportional to the phase difference between the two signals; ; First switching means for switching the supply power of the power supply to ground in response to an output signal of the first operational amplifier; And voltage dividing resistors for dividing the supply voltage supplied through the switching means. The automatic headlight automatic control device according to claim 2, wherein the light quantity sensitive signal source comprises a light quantity sensitive variable resistance element. The apparatus of claim 1, wherein the lamp lighting / lighting unit comprises: a reference voltage generator having hysteresis characteristics; A second operational amplifier receiving a lamp control signal output from the lamp control signal generator and a signal supplied from the reference voltage generator to a non-inverting terminal and an inverting terminal, respectively, and outputting a signal at a level that matches a phase difference between the two signals; Second switching means for switching the supply power supplied from the power supply source to ground in response to an output signal of the second operational amplifier; And a relay which is made in accordance with the switching operation of the second switching means to induce supply power to the lamp. 4. The apparatus of claim 3, wherein the reference voltage generator comprises: a reference voltage source; Voltage divider resistors for dividing supply power of the reference voltage source; And And a third switching means for lowering a reference voltage level in response to an output signal of the second operational amplifier. According to claim 1, wherein the illuminance control unit Ripple remover for removing the ripple signal of the lamp control signal output from the lamp control signal generator; And a supply power control unit configured to adjust an amount of supply power induced in the lamp in response to a signal output through the ripple removing unit. 6. The headlight automatic control device according to claim 5, wherein the ripple removing unit is formed of an integrator. 6. The headlight automatic control device according to claim 5, wherein the supply power control unit is configured of the darlington pair. The headlight automatic control apparatus according to claim 1, further comprising a forced lighting switch for manually turning on the lamp when the power switch is turned on and the lamp is turned off or the brightness of the lamp is low due to the surrounding environment.