KR910006818Y1 - Controlling apparatus for automobiles lights - Google Patents

Abstract

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Description

Headlight control device

1 is a circuit diagram of the headlight automatic control device according to the present invention.

2 is a waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: car battery 3: headlight

4: small light 5: indoor light

4: headlight switch 7: indoor light switch

8,9 Relay 12 Monostable Multivibrator

The present invention relates to a headlight control device for a vehicle. In particular, when the car stops for a predetermined time at a place such as a traffic light during a night driving of the vehicle, the headlight is turned off, and when starting again after stopping, the headlight does not need to be operated separately. A headlight automatic control device for a vehicle for automatically turning on.

Conventional techniques for controlling the headlights of a vehicle include, for example, detecting external lighting conditions at night and at night to automatically operate the headlights, or to operate the headlights according to the brake and clutch operating conditions of the vehicle, In the neutral position, the headlights were turned off or the sensor was mounted on the speedometer so that if the speedometer's indicator became zero, the sensor would detect it and activate the headlights.

However, the external lighting detection method is operated only when the lighting conditions of day and night are detected. Since the detection criteria are inaccurate during cloudy weather or at sunrise or sunset, there are many defects in operation. It is very difficult to attach the detection element to the brake and the clutch, and the headlight cannot be controlled in case of abnormality in the electrical wiring for the detection element. Frequently, its practicality fell.

In addition, the neutral position detection method of the transmission gear requires that the driver must position the gear in neutral when the vehicle is stopped. Therefore, when the vehicle stops temporarily at a place such as a traffic light, instead of putting the gear in the neutral position depending on the driver, Is located in the first stage and the clutch and brake pedals may be stepped on, which was not an effective headlight control system. In addition, the control method by the speedometer may be an improvement than the above technique, but if the speedometer indicators are broken, the headlight is always large, or only by manual operation.

Accordingly, the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a vehicle headlight automatic control device capable of easily and automatically controlling the headlight while still using the parts produced inside the vehicle as it is.

In order to achieve the above object, the present invention provides a vehicle having a headlight switch for turning on / off a headlight, an indoor light switch controlling an indoor light, and an electronic speed sensor for generating a predetermined pulse for measuring the speed of the vehicle. When the headlight switch of the vehicle is turned on and the indoor light switch is operated once, the vehicle generates voltage input means for continuously generating a predetermined voltage, and the pulse signal generated by the electronic speed sensor which is enabled by the above voltage as an input. Control signal generating means and a first control signal or a second control signal for generating a first control signal when the speed is greater than zero (that is, when driving) and a second control signal when the speed of the vehicle is zero. When the first control signal is input with the input as the input, the headlights are turned on and the second control signal is inputted. If there is a by eoteul composed headlamp control means for turning off the headlights.

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

FIG. 1 is a circuit diagram of the automatic control device for an automobile headlight according to the present invention. As shown in FIG. 1, power supplied from the vehicle battery 1 is applied to the voltage regulator 2 and stepped down to a predetermined voltage. At the output terminal A of the voltage regulator 2, a voltage for operating the head light 3 and the small light 4 is output, and at the output terminal B of the voltage regulator 2, The voltage for operating the indoor light 5 of is output.

First, a case where the device shown in FIG. 1 is automatically operated during night driving will be described. In automatic operation, the driver places the headlight switch 6 to H / L and the indoor light switch 7 to the contact pull, and the voltage output from the output terminal A of the voltage regulator 2 The signal (commonly referred to as Ignition Voltage) is applied to the relays 8 and 9 via the contact point H / L of the switch 6. In addition, as the indoor light switch 7 is positioned at the contact pull, a signal output from the output terminal B of the regulator 2 is supplied to the indoor light 5 so that the indoor light 5 is turned on and the relay 8 is turned on. Current flows through the coil L ₁ and the relay contact S _A S _B is turned on so that the diode 10 conducts.

As the relay contact (S _A S _B ) is turned on, the power supply via the contact (H / L) of the headlight switch 6 is connected to the power of the monostable multivibrator 12 through the contact S _A and the resistor 11. It is applied to the terminal Vcc. Here, the zener diode 13 is for maintaining the voltage passing through the resistor 11 at a predetermined level (for example, 6.2V), and the capacitor 14 is for removing noise included in the power supply voltage.

On the other hand, as the vehicle travels, a pulse signal (see also second (a)) generated from the electronic speed sensor of the vehicle is applied to the cathode of the diode 15. At this time, the diode 15 is turned off when the signal of FIG. 2 (a) is high and turned on when the signal of FIG. 2 (a) is low.

Therefore, since the diode 15 is turned on / off by the pulse signal CP generated by the electronic speed sensor, the voltage signal passing through the resistor 16 is applied to the clock terminal CLK of the monostable multivibrator 12. do. Here, the signal waveform input to the clock terminal CLK of the single safety multivibrator 12 becomes similar to the second (a), and the monostable multivibrator 12 has its output stage when a clock pulse is applied. Outputs the low signal through the ) Will output the high signal.

In other words, as the clock signal is generated due to driving of the vehicle, the output stage of the monostable multivibrator 12 ( In this case, a low signal is generated. In this case, the signal in the case of the resistor 17 is not sufficient to turn on the transistor 18, so that the transistor 18 is turned off and the transistor 19 is turned off accordingly. .

As the transistor 19 is turned off, no current flows in the coil L ₂ of the relay 9 so that the relay contact S _C is positioned in the OFF state shown in FIG. Accordingly, the relay 9 does not operate during normal driving, but the regulator (H / L) of the headlight switch 6 is applied to the headlight 3 so that the headlight 3 is turned on to illuminate the front of the vehicle.

When the driver wants to temporarily stop at a traffic light and a shelter when driving by such headlights, the driver presses a brake pedal (not shown) to stop the vehicle. When the vehicle is stopped, there is no pulse signal generated by the electronic speed sensor, so see also the second (a)) output stage of the short safety multivibrator 12 ( ), A high state signal such as (a) is generated and applied to the base of the transistor 18 via the resistor 17.

At this time, the transistor 18 is turned on with a high bias applied to its base, and accordingly the transistor 19 is also turned on so that a current flows in the coil L ₂ of the relay 9. As the current flows in the coil L ₂ , an electromagnetic force is generated, and the headlamp 3 in which the relay contact S _C is switched from the OFF state shown in FIG. 1 to the ON state is turned off. Thus, the headlights of the vehicle can be turned off automatically when waiting for a red signal at an intersection or pedestrian crossing.

On the other hand, when the driver turns on the accelerator pedal (not shown) to start the car because the traffic light turns green, a pulse signal CP is generated by the electronic speed sensor of the car. Output stage of the multivibrator 12 ), The low state signal as shown in FIG. 2 (a) is generated, so that the transistors 18 and 19 are turned off, and the contact S _C of the relay 9 is returned to the position shown in FIG. Therefore, the headlight 3 is turned on at the same time as the start of the vehicle.

As a result, in order to operate the apparatus shown in FIG. 1, when the driver places the headlight switch 6 at the contact point H / L and pulls the indoor light switch 7 once at the contact point, Since the monostable multivibrator 12 remains enabled, the headlight 3 can be automatically turned on or off depending on whether the electronic speed sensor clock signal CP is input (ie, driving / stopping of the vehicle). .

When the variable resistor 20 and the condenser 21 shown in FIG. 1 need to turn on the headlight for a predetermined time (for example, 1.5 to 2 seconds) when the vehicle is temporarily stopped at a place such as a traffic light. To prepare. Therefore, even when the vehicle is completely stopped while driving, the headlights are not immediately turned off, but remain on for 1.5 to 2 seconds. The diodes 22, 23 provided in the relays 8, 9 are reverse current prevention diodes.

On the other hand, in order to manually operate the apparatus shown in FIG. 1, the indoor light switch 7 is pushed forward to be positioned at the contact point, and the headlight switch 6 is turned off. / L). Then, the diode 10 is turned off because a high signal is applied to its cathode 10. Diode 10 is turned off when the relay (8) the coil (L ₂₎ with a power which, because current does not flow through the switch 6 will soon as applied to one end of the relay (9) the coil (L ₂₎ at the same time relay It is applied to the contact point (S _C).

However, since the relay 8 does not operate, the fortune Vcc is not applied to the monostable multivibrator 12 and the monostable multivibrator 12 is disabled, so that the transistors 18 and 19 are turned off. When the transistors 18 and 19 are off, the relay coil (L ₂₎ there is no current flow is the electric current does not flow, the relay coil (L ₂₎ Relay contact (S _C) is kept off (OFF) state . Therefore, the power passing through the contact (H / L) of the headlight switch 6 is applied to the headlight (3), the headlight (3) is to generate light forward.

The present invention operates as described above, when the headlight switch is turned on during the night driving of the car, and the indoor light switch is turned on, the headlight can be automatically turned on and off depending on the presence or absence of a pulse signal of the speedometer. In addition, the headlight can be operated manually, and it is very economical because there is no power consumed by the relay during normal driving in manual and automatic mode. In addition, the present invention can be easily mounted without changing the headlight switch, the indoor light switch and the electronic speed sensor in the current car is characterized by its interior cost is very low.

Claims (1)

In a vehicle having a headlight switch for turning on / off a headlight, an indoor light switch for controlling an indoor light, and a speedometer for measuring the speed of the vehicle, the headlight switch of the vehicle is turned on and a predetermined voltage is continuously applied when the indoor light switch is operated once. And a voltage generating means for generating a first control signal when the speed of the vehicle enabled by the voltage is generated by the speedometer is greater than zero and the speed of the vehicle is zero. The control signal generating means for generating the second control signal, and when the first control signal is input by the input of the first control signal or the second control signal, the headlight is turned on and the second control signal is turned on. Is input, the headlight of the vehicle, characterized in that the headlight control means for turning off the headlight Control unit.