KR100502631B1 - Automatic control circuit for controling head lamp - Google Patents

Abstract

Disclosed is an automatic headlamp control circuit. The headlamp automatic control circuit of the present invention, the light sensing unit 200 for sensing the incident light, the high / low relay 400 is switched according to the turn on / off of the light sensing unit 200, high / The first relay 500 and the second relay 600 interlocked with the low relay 400 and the signals input from the light sensing unit 200, the first relay 500, and the second relay 600 are logic. Upward headlamp power supply for receiving a high level signal or a low level signal from the logical combination circuit 300 and the logic combination circuit 300 to operate, and energizing the upper head lamp 110 and the lower head lamp 120, respectively. And a switch 700 and a downward headlamp power supply switch 800. According to the present invention, the driver does not need to operate the dimmer switch every time, and by providing a logic element between the relay and the headlamp that is hardly affected by disturbances such as electromagnetic waves generated in a vehicle, the reliability and reliability of the headlamp lighting are ensured. Stability of the circuit, and the like.

Description

Automatic control circuit for headlamps

The present invention relates to an automatic headlamp control circuit, and more particularly, to configure an automatic control circuit connecting an optical sensing unit and a combinational logic circuit to automatically switch between an upper headlamp and a lower headlamp depending on whether light is sensed. It relates to a control circuit.

In general, various lamps are installed in a vehicle, and each lamp performs its own function, and a driver directly or indirectly operates the lighting operation of these lamps. Especially during night driving, headlamps are needed to illuminate the front, which is also configured to be operated by the driver. That is, by operating the dimmer switch for the upstream headlamps and the lower headlamps, a selection operation for securing a field of view is made. However, when the vehicle is operated while the upstream headlamp is turned on, it may cause a dangerous situation in which the opposite vehicle or the driver of the own vehicle cannot immediately identify the front by the glare phenomenon. In order to prevent such dangerous situation, the driver had to operate the dimmer switch from time to time.

Therefore, in order to eliminate such inconvenience, an automatic switching device in which a light sensing unit and a relay are connected has recently been introduced.

Then, the conventional head lamp automatic switching device will be described.

1 is a conventional head lamp control circuit diagram. As shown in FIG. 1, the conventional headlamp automatic switching device includes an optical sensor 10, a first relay 20, a second relay 30, an upstream headlamp 40, and a downward headlamp. 50). The optical sensor 10 detects a beam of an oncoming vehicle and configures a circuit to conduct a circuit when detected by the light of the upstream headlamp 40. The first relay 20 is a first induction coil 21 and a first induction coil 21 and a first induction coil 21 to cause a magnetic induction according to the conductivity of the optical sensor 10, the lower head is guided The lower head lamp switch 22 for turning on the lamp 50 and the first circuit connection switch 23 for turning on / off the current flowing in the upper head lamp 40 are included. Here, the upward headlamp switch 60 is provided so as to be switched to turn on the initial upward headlamp 40. The second relay 30 is induced by the second induction coil 31 and the second induction coil 31, which are electrically conductive in response to the on operation of the upstream headlamp switch 60 and cause a magnetic induction phenomenon. It consists of a second circuit connecting means 32 for lighting the upward headlamp (40). Here, power supply means 70, 71, 72 for applying power to the circuit portion are provided.

When the driver turns on the start switch in the vehicle in the state in which the headlamp automatic switching device is configured as described above, power is supplied to each part of the vehicle, thereby enabling the headlamp to be operated. At this time, when the upper headlamp switch 60 is initially operated, a voltage is induced in the second induction coil 31 to close the second connection switch 32 so that the voltage of the power supply means 70 is increased by the upward headlamp ( 40, the upstream headlamp is turned on (40). On the other hand, when the oncoming vehicle approaches the state in which the headlamp is turned on, the optical sensor 10 conducts, and when the optical sensor 10 conducts, the first induction coil 21 induces a voltage, which is immediately The first circuit connection switch 23 is turned off so that power is cut off from the power supply means 71 so that the upward headlamp 40 is turned off. At the same time, the downward headlamp switch 22 is brought into contact with the downward headlamp 50 to be turned on.

Then, when the oncoming vehicle passes through the vehicle, the photo sensor 10 stops the electric flow of the circuit again, so that the voltage is not induced to the first induction coil 21, and thus the downward headlamp switch 22 is returned to its original state. The downward lamp 50 is turned off by stopping the flow of current through the downward headlamp 50. At the same time, the first circuit connection switch 23 is contacted to induce a voltage to the upward headlamp 40, the upward headlamp 40 is turned on. Afterwards, when the oncoming vehicle turns on the downward headlamp, it is not detected by the light sensor, and thus the host vehicle maintains the upward headlamp.

However, in the headlamp automatic switching device, the first relay and the second relay are directly connected to the upper headlamp and the lower headlamp, respectively, and thus, the first relay and the second relay are affected by the electromagnetic waves and disturbances generated around the vehicle. In case of malfunction, headlamp control could not be achieved by the user. In addition, when the user's manual operation is not supported, there was a problem that the inconvenience of the head lamp could not be made.

Accordingly, an object of the present invention is to support the manual operation by the user for the upper head lamp and the lower head lamp to compensate for the above problems, and at the same time automatically the upper head lamp and the lower head lamp mutually depending on whether or not light sensing. The present invention provides a headlamp automatic control circuit that connects an optical sensing unit and a combinational logic circuit for switching and configures an automatic control circuit which minimizes the influence of disturbances such as electromagnetic waves.

The headlamp automatic control circuit of the present invention for achieving the object of the present invention, the light sensing unit for detecting the incident light intensity is turned on / off to output a high level signal and a low level signal; A high / low relay switched according to turn on / off of the light sensing unit; A first relay driven by a power supplied through a first power supply line when the switch of the high / low relay is closed to output a high level signal; A second relay driven by a power supplied through a second power supply line to output a high level signal when the high / low relay is switched open; A logic combination circuit for performing a logic operation on the high level signal and the low level signal inputted from the light sensing unit, the first relay, and the second relay; An upstream headlamp power supply switch configured to receive a high level signal or a low level signal from the logic combination circuit and energize the power supplied through the first power supply line; A downward headlamp power supply switch receiving a high level signal or a low level signal from the logic combination circuit and energizing the power supplied through the second power supply line; An upward headlamp connected to the upward headlamp power supply switch; And a downward headlamp connected to the downward headlamp power supply switch.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

2 is a view showing a position where the light sensing unit 200 of the present invention is installed. As shown in FIG. 2, a headlamp 100 provided with an upward headlamp and a downward headlamp is formed in front of a vehicle, and the light sensing unit 200 of the present invention has an upper front portion of an instrument panel. It is formed in. The light sensing unit 200 is preferably installed at a position where the driver can sense the degree of glare most accurately, and may be mounted at any position beyond the position installed in the present embodiment.

3 is an automatic headlamp control circuit diagram of the present invention. Referring to FIG. 3, the headlamp automatic control circuit of the present invention is largely divided into a headlamp 100, a light sensing unit 200, a logic combination circuit 300, a high / low relay 400, and a first relay 500. ), The second relay 600, the upper head lamp power supply switch 700, and the lower head lamp power supply switch 800.

The headlamp 100 is composed of an upward headlamp 110 and a downward headlamp 120.

The light sensing unit 200 includes a phototransistor PQ and a transistor Q. The light sensing unit 200 includes resistors R5 and R6 to be turned on / off according to the intensity of light coming from the vehicle, and the turn-on / turn-off threshold is adjusted according to the adjustment of the resistances R5 and R6. You can adjust the value. In addition, a resistor R3 is connected to the supply power supply Vcc and ground, an emitter terminal of the phototransistor PQ, and one end of the resistor R6, and a resistor R4 between the supply power supply Vcc and the resistor R5. Is connected, and a resistor R7 is connected between the supply voltage Vcc and the collector terminal of the transistor Q.

The high / low relay 400 is configured to switch the upper headlamp 110 and the lower headlamp 120 according to whether the light sensing unit 200 is driven. In addition, the resistors R1 and R2 are included.

The logic combination circuit 300 has a first terminal connected to a collector terminal of the transistor Q and an output terminal connected to an input terminal of a fourth logical multiplication gate T4 and an input terminal of a third negative gate S3. Negative gate S1; A switch SW2 of the second relay 600 is connected to the input terminal, and an input terminal of the first AND gate T1, an input terminal of the second AND gate T2, and a third AND gate T3 are connected to the output terminal. A second negative gate S2 to which an input terminal of the second terminal is connected; A third negative gate S3 connected to an output terminal of the first negative gate S1 and connected to an input terminal of a fifth logical multiplication gate T5 and an input terminal of a sixth logical AND gate T6 to an output terminal; The input terminal of the switch SW1 of the first relay 500 and the output terminal of the second negative gate S2 are connected, and the output terminal of the first logical product gate T1 connected to the input terminal of the fourth logical product gate T4. Wow; The input terminal of the switch SW1 of the first relay 500 and the output terminal of the second negative gate S2 are connected, and the output terminal of the second logical product gate T2 connected to the input terminal of the fifth logical product gate T5. Wow; The input terminal of the switch SW1 of the first relay 500 and the output terminal of the second negative gate S2 are connected, and the output terminal of the third logical product gate T3 connected to the input terminal of the sixth logical product gate T6. Wow; An output terminal of the first AND gate 1 and an output terminal of the first negative gate S1 are connected to an input terminal, and an output terminal of the fourth AND gate connected to an input terminal of the first AND gate U1; An output terminal of the second AND gate 3 and an output terminal of the third negative gate S3 are connected to an input terminal, and a fifth AND gate T5 connected to an input terminal of the second OR gate U2; An output terminal of the third AND gate 3 and an output terminal of the third negative gate S3 are connected to an input terminal thereof, and a sixth AND gate T6 connected to an input terminal of the second OR gate U2; An output terminal of the switch SW2 of the second relay 600 and an output terminal of the fourth logical product gate T4 is connected to the input terminal, and an output terminal of the first logical sum gate U1 connected to the downward headlamp power supply switch; The input terminal is connected to the output terminal of the fifth logical multiplication gate T5 and the output terminal of the sixth logical multiplication gate T6, and the output terminal includes a second logical sum gate U2 connected to an upstream headlamp power supply switch. .

The first relay 500 and the second relay 600 basically constitute the induction coils W1 and W2 and the switches SW1 and SW2, and are connected to the logic combination circuit 300, respectively.

The upward headlamp power supply switch 700 is provided between the upward headlamp 110 and the second logical sum gate U2 of the logic combination circuit 300, and the downward headlamp power supply switch 800 is a downward headlamp. It is provided between the 120 and the first logic sum gate U1 of the logic combination circuit 300.

The first relay 500 and the upstream headlamp power supply switch 700 are connected to a common power supply line P1, and the second relay 600 and the downlink headlamp power supply switch 800 are connected to each other. It is connected to the common power supply line P2.

The operation of the automatic headlamp control circuit of the present invention configured as described above will be described.

First, it is assumed that the driver is driving by turning on the upstream headlamp 110 after turning on the start switch in the vehicle. When the initial state is the upper head lamp 110 is turned on, the switch of the high / low relay 400 is turned on and connected. In addition, before light is sensed at the port transistor Q, a high level signal '1' is output from the collector terminal of the transistor Q to the first negative gates S1 and S1 of the logic combination circuit 300. Is entered. Then, the switch SW1 of the first relay 500 is turned on so that the high level signal '1' is input to the logic combination circuit 300. Of course, the switch SW2 of the second relay 600 remains turned off so that the low level signal '0' is input to the logic combination circuit 300.

As a result, a low level signal '0' is output from the first logic sum gate U1 by the operation of each logic element to maintain the state in which the downward headlamp power supply switch 800 is turned off. In the logic sum gate U2, a high level signal '1' is output to maintain the state in which the upstream headlamp power supply switch 700 is turned on, so that power is supplied to the upstream headlamp 110. ) Will stay lit.

At this time, when light enters the phototransistor PQ from the headlamp 100 of the oncoming vehicle, the phototransistor PQ is turned on to output the low level signal '0' from the transistor Q. The high / low relay 400 is turned off to open the switch. The low level signal '0' is input to the logic combination circuit 300. At the same time, the first relay 500 is turned off to output the low level signal '0', and the second relay 600 On, the high level signal '1' is output and input to the logic combination circuit 300.

Accordingly, the logic combination circuit 300 calculates the input high level signal '1' and the low level signal '0', and as a result, the high level signal '1' from the first logic sum gate U1. ) Is output, and the low level signal '0' is output from the second logic sum gate U2. Accordingly, the upstream headlamp power supply switch 700 is turned off, so that the power supply to the upstream headlamp 110 is stopped and the lighting of the upstream headlamp 110 is turned off. At the same time, the downward head lamp power supply switch 800 is turned on to supply power to the downward head lamp 120 so that the downward head lamp 120 is turned on.

On the other hand, when the oncoming vehicle becomes excessively owned and no light is incident on the phototransistor PQ, the phototransistor PQ is turned off to output a high level signal '1' from the transistor Q. At the same time, the high / low relay 400 is turned on so that the switch is closed. The high level signal '1' is input to the logic combination circuit 300, and at the same time, the first relay 500 is turned on to output the high level signal '1' and the second relay 600 When the signal is turned off, the low level signal '1' is output to the logic combination circuit 300. Thereafter, the upward headlamp 110 is turned on again, and the downward headlamp 120 is turned off. This process is repeated depending on whether light is incident on the phototransistor PQ.

As described above, the headlamp automatic control circuit according to the present invention automatically switches the upstream headlamp to the downhead headlamp when the oncoming vehicle is analyzed with the uphead lamp turned on, so that the driver does not operate the dimmer switch every time. Provides the convenience of not having to. In addition, by providing a logic element that is hardly affected by disturbances such as electromagnetic waves generated in a vehicle or the like between the relay and the headlamp, reliability in turning on the headlamp can be ensured. In addition, since only a small current is required to operate the logic device, power consumption may be reduced. The present invention is not limited to the above-described embodiment, and it will be apparent that many modifications are possible by those skilled in the art within the technical spirit of the present invention.

1 is a conventional head lamp control circuit diagram,

2 is a view showing a position where the light sensing unit of the present invention is installed,

3 is an automatic headlamp control circuit diagram of the present invention.

Explanation of symbols on the main parts of the drawings

100: headlamp 110: upward headlamp

120: downward headlamp 200: light sensing unit

300: logic combination circuit 400: high / low relay

500: first relay 600: second relay

700: upward headlamp power supply switch 800: downward headlamp power supply switch

PQ: Phototransistor Q: Transistor

W1, W2: Induction coil SW1, SW2: Switch

S1, S2, S3: negative gate U1, U2: logical sum gate

T1, T2, T3, T4, T5, T6: Logical gate

Claims (3)

A light sensing unit 200 which senses the incident light intensity and is turned on / off to output a high level signal and a low level signal; A high / low relay 400 switched according to the turn on / off of the light sensing unit 200; A first relay 500 driven by a power supplied through a first power supply line P1 when the switch of the high / low relay 400 is closed to output a high level signal; A second relay 600 which is driven by a power supplied through a second power supply line P2 when the high / low relay 400 is opened, and outputs a high level signal; A logic combination circuit 300 for performing a logic operation on the high level signal and the low level signal input from the light sensing unit 200, the first relay 500, and the second relay 600; An upward headlamp power supply switch 700 which receives a high level signal or a low level signal from the logic combination circuit 300 and energizes the power supplied through the first power supply line P1; A downward headlamp power supply switch 800 which receives a high level signal or a low level signal from the logic combination circuit 300 and energizes the power supplied through the second power supply line P2; An upward headlamp 110 connected to the upward headlamp power supply switch 700; And Down head lamp 120 connected to the down head lamp power supply switch 800 Head lamp automatic control circuit comprising a. The optical sensing unit 200 of claim 1, wherein the light sensing unit 200 includes phototransistors PQ turned on during light input and resistors R5 and R6 adjusted to be turned on / off according to the intensity of light input. Headlamp automatic control circuit, characterized in that made. According to claim 1, wherein the logic combination circuit 300, An input terminal connected to a collector terminal of the transistor Q, and an output terminal connected to an input terminal of a fourth logical multiplication gate T4 and an input terminal of a third negative gate S3; A switch SW2 of the second relay 600 is connected to the input terminal, and an input terminal of the first AND gate T1, an input terminal of the second AND gate T2, and a third AND gate T3 are connected to the output terminal. A second negative gate S2 to which an input terminal of the second terminal is connected; A third negative gate S3 connected to an output terminal of the first negative gate S1 and an input terminal of a fifth logical multiplication gate T5 and an input terminal of a sixth logical multiplication gate T6 to an output terminal; The input terminal of the switch SW1 of the first relay 500 and the output terminal of the second negative gate S2 are connected, and the output terminal of the first logical product gate T1 connected to the input terminal of the fourth logical product gate T4. ; The input terminal of the switch SW1 of the first relay 500 and the output terminal of the second negative gate S2 are connected, and the output terminal of the second logical product gate T2 connected to the input terminal of the fifth logical product gate T5. ; The input terminal of the switch SW1 of the first relay 500 and the output terminal of the second negative gate S2 are connected, and the output terminal of the third logical product gate T3 connected to the input terminal of the sixth logical product gate T6. ; An output terminal of the first AND gate S1 and an output terminal of the first negative gate S1 are connected to an input terminal thereof, and an output terminal of the first AND gate S1 is connected to an input terminal of the first OR gate U1; An output terminal of the second AND gate 3 and an output terminal of the third negative gate S3 are connected to an input terminal, and a fifth AND gate connected to an input terminal of the second OR gate U2; An output terminal of the third AND gate 3 and an output terminal of the third negative gate S3 are connected to an input terminal, and a sixth AND gate T6 connected to an input terminal of the second OR gate U2; An output terminal of the switch SW2 of the second relay 600 and an output terminal of the fourth logical multiplication gate T4 is connected to the input terminal, and an output terminal of the first logical sum gate U1 connected to the downward headlamp power supply switch; And An output terminal of the fifth logical multiplication gate T5 and an output terminal of the sixth logical multiplication gate T6 are connected to an input terminal, and a second logical sum gate U2 connected to an upstream headlamp power supply switch is connected to the output terminal. Head lamp automatic control circuit, characterized in that consisting of.