KR920008472B1 - Exposure lamp protecting circuits for copying machine - Google Patents

Abstract

No content.

Description

Exposure lamp protection circuit of copier

1 is a conventional circuit diagram.

2 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10: exposure lamp 20: exposure lamp protection means

100: exposure voltage control circuit 40: exposure lamp switching unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a copier, and more particularly, to an exposure lamp protection circuit capable of protecting an exposure lamp of a copier from overvoltage.

In general, the exposure lamp of the copier is a very important part having the function of irradiating light onto the original surface during the exposure process of radiation. If the exposure lamp of the copier receives an overvoltage due to a short circuit or a transformer short circuit during operation, the exposure lamp is destroyed and loses the function of radiation. Therefore, an exposure lamp protection circuit that protects the exposure lamp is urgently needed. .

1 is a conventional circuit diagram, in which a photocoupler PC1 is connected to an exposure voltage control circuit 100 that inputs a control signal from a control unit of a system and outputs a signal for controlling an exposure voltage to an output terminal Q. The surge protection capacitors C1 and C2 and the inductor L1 for absorbing back EMF are connected to the input terminals 1H and 2H, and are connected between the connection point a and the connection point e connected to the AC input terminal 1H. An exposure lamp 10 is connected, a power transformer T1 is connected between the connection point a and the connection point b, and the exposure lamp 10 is connected between the connection point e and the connection point f. Is connected to a triac Ta1 for driving a resistor, a resistor R1 and a zener diode ZD1-ZD2 are connected between the connection point f and the connection point b, and the triac Ta1 Capacitors C1 and C4 are connected between the anodes of the zener diode ZD1 and the photo A rectifying bridge diode BD1 is connected between the collector and emitter of the coupler PC1, and a gate trigger SB1 is connected between the bridge diode BD1 and the triac Ta1.

Referring to the above-described conventional operation based on the configuration of FIG. 1, when the exposure voltage control circuit 100 inputs the power-on signal of the main control unit through the input terminal 1A, the AC input terminals 1H and 2H. AC power is input through the input, and the input passes through the power transformer T1 to form a current path through the resistor R1 and the zener diodes ZD1 and D2, and at both ends of the zener diodes ZD1 and ZD2. A square shot occurs. In addition, the voltage induced on the secondary side n2 of the power supply T1 is input to the exposure voltage control circuit 100, and the exposure voltage control circuit 100 receives the input voltage and a reference voltage value set therein. Are compared and output to the output terminal (Q). Therefore, when the photocoupler PC1 connected to the output terminal Q is turned on to generate a ramp wave, the switching time of the gate trigger SB1 is adjusted by the ramp wave to drive the triac Tal. . When the gate signal of the triac Ta1 is turned on, the exposure lamp 10 is turned on. At this time, the triac Ta1 drives the exposure lamp 10 by chopping an input voltage.

However, the conventional circuit described above has a problem in that the exposure lamp is destroyed because an overvoltage is applied to the exposure lamp when a change in the power supply voltage or an abnormality in the power supply transformer occurs during the operation of the copier.

It is therefore an object of the present invention to provide an exposure lamp protection circuit which can protect the exposure lamp of the copier from overvoltage.

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

FIG. 2 is a circuit diagram according to the present invention, in addition to the configuration of FIG. 1 described above, an exposure for connecting the AC input terminal 1H and the exposure lamp 10 to protect the exposure lamp 10 from overvoltage. Exposure lamp switching unit for selectively switching the exposure lamp 10 is connected between the lamp protection means 20 and the connection point C of the exposure lamp protection means 20 and the exposure voltage control circuit 100. And the exposure lamp switching unit 30 includes a resistor connected between a transistor Q1 for selectively switching the exposure lamp protection means 20 and a base emitter of the transistor Q1. And a rectifying diode D1 and a charging capacitor C5 connected in series between the base of the transistor Q1 and the connection point C.

Hereinafter, the present invention will be described in detail with reference to FIG. 2 based on the above-described configuration. The exposure voltage control circuit 100 inputs an on / off signal of the copier control unit and a control signal for controlling the exposure lamp 10 through the signal input terminals 1A and 2A, and outputs the corresponding output to the output terminal Q. do.

On the other hand, the AC power input through the AC input terminals 1H and 2H forms a current path through the power transformer T1 to the resistor R1 and the zener diodes ZD1 and ZD2, and the zener diodes ZD1 and ZD2 Square waves occur at both ends of. The generated square wave is applied to the triac Ta1, where the photocoupler PC1 conducts by the output of the output terminal Q of the exposure voltage control circuit 100, so that the gate trigger SB1 is applied to the triac Ta1. It turns on (Ta1). Therefore, the triac Ta1 is conducted and the natural voltage induced at the secondary side n2 of the power supply transformer I1 is rectified by the capacitor C5 and the diode D1 of the exposure lamp switching unit 30. Accordingly, when the transistor Q1 is turned on, the relay, which is the exposure lamp protection means 20, is turned on to operate the exposure lamp protection means 20, the exposure lamp 10, the triac Ta1, and the indexer ( A current path is formed with L1). Therefore, the exposure lamp 10 is turned on.

Here, when an abnormal voltage is generated and a short circuit or a disconnection of the power supply T1 does not cause current to flow in the capacitor C5 and the diode D3 of the exposure lamp switching unit 30, the transistor Q1 is turned off. Therefore, the relay which is the exposure lamp protection means 20 is turned off. Therefore, at this time, the overvoltage is cut off to the exposure lamp 10 so that the exposure lamp 10 is protected.

Here, the capacitor C6 of the exposure lamp switch 30 is a charging capacitor for compensating the rectified current, and the resistor R2 is a discharge passage resistance.

As described above, the present invention has an advantage of providing an exposure lamp protection circuit to protect the exposure lamp from overvoltage.

Claims (3)

An exposure lamp protection circuit having an exposure lamp 10 and an exposure voltage control circuit 100, the exposure lamp 10 connected between an AC input terminal 1H and the exposure lamp 10 to protect the exposure lamp 10 from overvoltage. An exposure lamp switching unit for selectively switching the exposure lamp 10 connected between the exposure lamp protection means 20 and the connection point C of the exposure lamp protection means 20 and the exposure voltage control circuit 100. Exposure lamp protection circuit, characterized in that consisting of (30). The exposure lamp protection circuit according to claim 1, wherein the exposure lamp protection means (20) comprises a relay element. 2. A resistor according to claim 1, wherein the exposure lamp switching unit (30) is connected between a transistor (Q1) for selectively switching the exposure lamp protection means (20) and a base and an emitter of the transistor (Q1). (R2) and capacitor (C6), the exposure of the rectifier diode (D1) and the charging capacitor (C5) connected in series between the base of the transistor (Q1) and the connection point (C) in series. Lamp protection circuit.

Images