KR19980016939A - Damage prevention circuit and method of relay device - Google Patents

Abstract

This method relates to a damage prevention circuit and method of a relay,

Conventionally, when noise is applied to the switching element during the operation of the relay, the relay is short-circuited by the arc (ARC) between the NC contact point and the NO point point of the relay at the time of on / off by repeating the on / off operation in a short time. As a result of the breakage of the circuit breaker (Circuit Braker) is a problem that occurs, according to the present invention, when a low signal is detected in the input port (P4) separately installed in the microprocessor, the relay is turned off for a predetermined time If the signal is detected again and the signal is a high signal, the relay can be operated to solve the noise caused by the relay breakage and the short circuit current caused by the noise. It is an invention that can be solved.

Description

Damage prevention circuit and method of relay device

The present invention relates to a circuit and method for preventing breakage of a relay device. More particularly, the relay is repeatedly operated in a short time due to noise, thereby preventing the relay from being fused by a short circuit current. The present invention relates to a damage prevention circuit and a method of a relay device.

In the conventional case, as shown in FIG. 3, in the method 1 in which the load C and the load D operate separately, the relay 1 RY11 is turned off, the load D is controlled while the triac TR11 is turned on and off, and the relay 2 In the case where the load C is controlled by turning (RY12) on and off, and the method 2 in which the load C and the load D are connected in series is operated, the relay 1 (RY11) is turned on (P1 HIGH) and the relay (RY12) is turned on. It is implemented as a method of controlling the load C and the load D by turning off (P3 LOW) and then turning on / off the triac (TR11). When the noise is applied to the base end of the transistor (Q11) during the operation, the transistor (Q11) ) Is short-circuited by the arc (ARC) between contact a and contact b of relay 1 (RY1) when it is turned on / off repeatedly in a short time. As a result, the user may be surprised by the damage of relay 1 and relay 2 as well as the loud noise generated during short circuit, Rocha was caused a problem that the operation of short-term (Circuit Braker).

Accordingly, the present invention has been made in view of the above-mentioned problems of the prior art, and a resistor R1 and a resistor R2 are connected in series between a collector end of a transistor connected to an input port of a microprocessor and one end of a relay device, and an intermediate thereof. The Zener diode is connected by drawing a line at, and the port P4 is connected to the end of the resistor R2. When the noise is loaded on the base of the transistor, the relay is connected through the port P4. It is an object of the present invention to provide a damage prevention circuit and a method of a relay device for controlling a relay in a manner of detecting a malfunction and temporarily turning off the main operation relay RY2.

As a technical feature of achieving the above object of the present invention, when a low signal is detected in a port P4 separately installed in a state in which the relay 2 (RY2) is turned on (operation mode), When the relay 2 (RY2) is turned off and is detected again and is a HIGH signal, a relay operation method for operating the relay 2 (RY2) is provided.

1 is a schematic circuit diagram of the present invention

Figure 2 is a flow chart (Flow Chart) for the overall device of the present invention

Figure 3 is a circuit diagram of the prior art

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

RY1, RY2 ..., relay P1-P4 ..., input port

TR1 ..., Triac R1, R2 ..., Resistance

ZD1 ..., Zener Diodes Q1, Q2 ..., Transistors

Hereinafter, the technical configuration for achieving the object of the present invention with reference to the accompanying drawings in detail.

1 is a schematic circuit diagram of the present invention, in which loads A and B are connected to relays RY1 and RY2, and transistors Q1 and Q2 which are switching elements at one end of each relay. Are each connected.

A resistor of parallel connection is connected to a base end of one side of the transistors Q1 and Q2, and input terminals P1 and P3 of the microprocessor are connected to their ends.

Meanwhile, a resistor R1 and a resistor R2 are connected in series between a collector end of the transistor Q1 connected to the input port P1 of the microprocessor and one end of the relay RY1, and a line is drawn out from the middle of the zener diode ( While connecting ZD1), the input of the microprocessor's input port (P4) is connected to the end of the resistor R1.

Here, reference numerals NC, NO, COM refer to the contacts of the relay.

2 is a flow chart of the overall apparatus of the present invention, the operation method 1 (ST1) or load A and load B is connected in series, operating at the same time, the load A and load B is operated separately After the operation method 2 is selected (ST2), when the operation method 2 is selected (Y), the relay RY1 and the triac TR1 are turned on and the relay 2 RY2 is turned off. (ST3)

When the operation method 1 is selected, the low signal of the input port P4 is detected, and if the low signal is Y (Y), the relay RY2 and the triac TR1 are turned off (ST4). When the detection signal of the input port P4 is not low (N), the relay RY2 and the triac TR1 are turned on, and the relay RY1 is turned off. To lose.

Referring to the operation and effect of the present invention configured as described above based on the embodiments in detail.

As shown in FIG. 1, when the operation method 1 is selected and operated by this, when noise is applied to the base terminal of the transistor Q1, the input port P4 of the microprocessor is turned on the moment the transistor Q1 is turned on. When the low signal is inputted and the low signal is read, the relay RY2 is turned off, and then the relay RY2 is continuously turned off before the predetermined time t1 elapses, and then the predetermined time elapses. When the low signal is not input through P4), normal operation is performed.

In the state where the predetermined time t1 has not elapsed, the controller continuously detects whether a low signal is input to the input port P4, and stores the time at which the low signal is input. After this elapses, it is determined whether the relay is operating.

As described above, the present invention can solve the noise caused by the relay breakage and short-circuit current caused by the noise, and it is an invention that can solve the problems of the prior art, which is inconvenient due to frequent operation of the circuit breaker.

Claims (2)

In implementing the damage prevention circuit of the relay device, The loads A and B are connected to the relay RY2 and the triac TR1 attached to the device, and the relays RY1 that connect and load the loads A and B in series or parallel are connected between the loads A and B. The transistors Q1 and Q2, which are switching elements, are respectively connected to one end of the relays RY1 and RY2, and a resistor of a parallel connection is connected to their base ends. Has a circuit to which input terminals P1 and P3 of the microprocessor are connected, Connect a resistor R1 and a resistor R2 in series between the collector terminal of the transistor Q1 connected to the input port P1 of the microprocessor and one end of the relay RY1, and draw a line in the middle thereof to draw the zener diode ZD1. And a connection of the input port (P4) of the microprocessor to the end of the resistor R1, so that the driving of the relay is turned on / off by the input signal thereof. In implementing the damage prevention method of the relay device, In operation of an electrical appliance in which at least two or more loads A and B are connected in series or in parallel by a relay, operation method 1 (ST1) in which load A and load B operate separately is performed in series. Selecting operation method 2 that is connected and operates simultaneously (ST2); When the operation signal 1 is selected and the detection signal of the input port P4 is low (Y), the relay RY2 and the triac TR1 are turned off (ST4), followed by the input port 1 (P1). If the signal of is not low (N), the relay RY2 and the triac TR1 are turned on, and the relay RY1 is turned off (ST5). In the above, when the operation method 2 is selected, the relay RY1 and the triac TR1 are turned on, and the relay 2 RY2 is turned off. How to prevent damage to the device.