KR100347103B1 - Relay Protection Method used Triac - Google Patents

Abstract

The present invention relates to a triac, and more particularly, to a relay protection method using a triac, which can minimize the burnout of a relay contact terminal because the triac is controlled by a relay off operation. In the present invention, when the power supply to the load is cut off, the triac connected in parallel with the relay is first driven to form a shunt through which a current can flow, and then the relay operation is performed. Therefore, in the present invention, it is possible to protect the relay by minimizing the spark generated in the contact terminal of the relay to prevent burnout of the contact terminal.

Description

Relay Protection Method used Triac

The present invention relates to a method for protecting a relay using a triac, and more particularly, to a method for protecting a relay using a triac to protect a relay because a flame generated at a contact terminal of a relay is minimized by using a triac during a relay off operation. It is about.

A microwave oven is a cooking device for cooking food, and irradiates microwaves of several GHz to food to be cooked, and cooks food using frictional heat generated when molecules of food are vibrated.

Microwave ovens consist of devices that use high voltages, such as heaters that generate heat or magnetrons that generate microwaves, as well as devices that use low voltages, such as microprocessors or light-emitting diodes that indicate their operating status.

The control unit of the microwave oven controls the operation of the microwave oven by controlling the input and interruption of the driving power using a relay or a switch.

Next, a relay protection method using a triac according to the prior art will be described with reference to FIG. 1.

As shown in FIG. 1, the circuit diagram according to the prior art is composed of a power supply P1, a load L1, a triac T1, a relay R1, and a control unit C1.

The power source P1 is applied from the outside and used as an operation source of each component of the microwave oven, and is connected to the load L1 as shown in FIG. 1.

In addition, the triac T1 and the relay R1 are connected in parallel with the load L1.

The triac T1 is a three-terminal switching element that conducts both ends when a constant current is supplied to the gate terminal. The triac T1 is connected to the control unit C1 to receive a signal, and both terminals are connected to the relay R1. It is connected in parallel so that current can flow.

As shown in FIG. 1, the triac T1 functions as a shunt capable of dividing and supplying a current flowing in a load with the relay R1.

The relay R1 includes a coil terminal and a contact terminal, the triac T1 and the contact terminal are connected in parallel, and the coil terminal is connected to the controller C1.

When the control unit C1 supplies a signal to the coil terminal, the coil terminal operates by driving a contact terminal.

As described above, the triac and the relay operate by a signal of a controller to connect power to the load.

The following describes the operation of FIG. 1 according to the prior art.

When the user supplies a signal using an external input device (not shown) included in the microwave to use the microwave, the control unit C1 detects an input signal and supplies the power P1 to drive the load. It is determined that the overload L1 should be closed.

The controller C1 first supplies an operation signal to the gate terminal to drive the triac T1 connected to the load L1 so that the triac T1 conducts.

After the triac T1 is turned on, the control unit C1 supplies an operation signal to the coil terminal of the relay R1 to operate the relay R1 so that the contact point of the relay R1 is turned on ( ON) status.

The reason for performing the above operation step is to prevent the contact from being damaged by an initial inrush current generated at the contact of the relay R1 through which the high voltage power flows when the ON operation is performed only to the relay R1. It is to.

After the relay R1 is driven, the control unit C1 stops the gate signal so that the triac T1 is no longer driven.

When the user stops using the input device after using the microwave oven, the controller C1 detects a signal and determines that the power supplied to the load L1 should be cut off.

The control unit C1 stops the supply of the signal applied to the coil terminal of the relay R1 so that the relay R1 is turned off.

The load L1 and the power supply P1 are open-circuited so that the power supply P1 is no longer supplied and the driving of the load is stopped, and the operation of the microwave oven is terminated.

As described above, in order to cut off the power supplied to the load, only the relay operates to cut off the power supplied to the load.

Accordingly, when the relay is turned off, sparks are generated by the current flowing through the contact terminals while the contact terminals of the relay are opened, and the contact terminals are damaged or the contacts are fused to malfunction.

In addition, in the case of using the relay for a long time in the operation method according to the prior art, the state of the relay contact terminal is poor, the life is shortened, there is a problem that the reliability is low.

Accordingly, an object of the present invention is to provide a method for protecting a relay using a triac, which can protect a relay since a flame generated at a contact point is minimized using a triac during a relay off operation.

1 is a circuit diagram according to the prior art,

2 is a signal waveform diagram of a control unit during a relay off operation according to the present invention;

3 is a flowchart illustrating a relay protection operation according to the present invention.

Explanation of symbols on the main parts of the drawings

T1: Triac P1: Power

R1: relay C1: control part

L1: load

S1: Triac Gate Terminal Signal

S2: Relay Coil Terminal Signal

S3: Relay contact terminal signal

Relay protection method using a triac according to the present invention for achieving the above object comprises a first step of sending a signal to the gate terminal of the triac connected in parallel with the relay when the power supply is supplied to the load; Stopping the signal supplied to the relay coil terminal during the triac operation; And a third step of stopping signal supply to the gate terminal of the triac after a predetermined time.

Hereinafter, a relay protection method using a triac according to the present invention will be described with reference to the accompanying drawings.

The circuit configuration of the present invention is configured similarly to the circuit configuration of Fig. 1 according to the prior art.

Like the prior art, the present invention also drives the power supply P1, the load L1, the triac T1, the relay R1, and the control unit C1 as shown in FIG.

The following describes the operation of the present invention.

When a user operates using an input device to use a microwave oven, the controller C1 senses an input signal and determines that the power P1 should be supplied to the load L1 to drive the microwave oven. .

The controller C1 first supplies a signal to a gate terminal to drive the triac T1 to conduct the triac T1 so that the power source P1 forms a closed circuit with the load L1 so that a current is generated. Let it flow

In addition, the controller C1 sends a signal to the coil terminal of the relay R1 so that the relay R1 is turned on so that a current flows in the load L1 through a contact of the relay R1.

When the relay R1 is turned on, the controller C1 determines that power is supplied to the load L1, and the triac T1 does not need to be driven anymore, so that the signal supplied to the gate terminal is supplied. Stop.

Therefore, since the input power is supplied and operated to the load L1 only through the relay R1, the user can perform a desired dish.

When the user operates the input device to stop driving the microwave after the cooking operation is completed, the control unit C1 detects a signal of the input device and cuts off power supply to the load L1. To judge.

The controller C1 supplies and drives a signal to the gate terminal to drive the triac T1 that is in an off state.

The triac T1 is turned on to supply current to the load L1, and the controller C1 stops the signal supplied to the coil terminal to turn off the relay R1.

Therefore, the contact terminal of the relay (R1) is turned off, the current flowing through the relay contact terminal is maintained in the flow state through the triac (T1), so spark occurs at the contact terminal of the relay (R1) You will not.

When the off operation of the relay R1 is completed, the controller C1 stops the signal supplied to the gate terminal to prevent the triac T1 from conducting.

Therefore, power is not supplied to the load L1, and the driving of the microwave oven is terminated.

Next, the signal waveform of the controller in the relay off operation according to the present invention will be described with reference to FIG.

FIG. 2 illustrates a waveform of a signal supplied to the relay R1 and the triac T1 by the controller C1 to cut off power supplied to the load.

The signal S1 of FIG. 2 shows a waveform of a signal supplied to the gate terminal of the triac T1 to drive the triac T1.

As shown in the signal S1, the control unit C1 supplies a signal to the gate terminal of the triac T1 only for a predetermined time so that the triac T1 remains on for only the predetermined time.

The signal S2 is a shape of a signal waveform supplied to the coil terminal of the relay R1 and shows that the signal in the on state is maintained while being turned off as shown in FIG. 2.

Therefore, the power supplied to the coil terminal is cut off due to the signal S2, so that the contact terminal of the relay R1 is turned off.

As shown in FIG. 2, when the control unit C1 stops a signal to the coil terminal of the relay R1 and cuts off the power supplied to the load L1, and drives the triac T1. It can be seen that the timing of supplying the signal to the gate terminal is the same.

The signal S3 shows the time taken for the contact terminal of the relay R1 to operate from the first on state to the off state by the signal of S2 and the state of the contact point.

The contact terminal of the relay R1 is mechanically configured so that the relay terminal does not immediately operate when a signal such as S2 is applied to the coil terminal of the relay R1, and a slight relay release time occurs.

That is, after the signal S2 is supplied to the coil terminal of the relay R1, it takes some time until the contact terminal of the relay R1 having a mechanical configuration is completely turned off.

As shown in FIG. 2, when the relay delay time of the signal S3 does not exceed the triac T1 on period of the signal S1, the flame generated at the contact terminal of the relay R1 is supplied to the load L1. The voltage can be cut off safely.

The following describes a relay protection method using a triac with the flow chart of FIG. 3 according to the present invention.

The tenth step is a step of determining whether to stop supplying power to the load L1.

That is, when it is determined that the controller C1 does not need to supply the power P1 to the load L1 anymore, the process proceeds to step 11 and the controller C1 must continue to supply power to the load L1. If so, the flow proceeds to step 20.

The eleventh step is a step for preventing sparks from occurring in the contact terminal during the relay-off operation. The control unit C1 supplies a signal to the gate terminal to drive the triac T1.

Next, the thirteenth step is to stop the signal of the controller C1 supplied to the coil terminal of the relay R1 to stop the operation of the relay R1 that is in the on state, and then proceeds to the fifteenth step.

In the fifteenth step, after the signal supplied to the coil terminal of the relay R1 is stopped in the thirteenth step, the contact operation time taken until the contact terminal of the relay R1 is completely turned off from the circuit in conjunction with the coil terminal. This is a step of determining whether enough has elapsed.

When the relay R1 contact operation time preset in the fifteenth step has elapsed, the process proceeds to the seventeenth step. do.

In the seventeenth step, since the contact terminal of the relay R1 is turned off, the supply of the gate signal is stopped to stop the driving of the triac T1. It waits for it to end

In the present invention, when the relay R1 is turned off, the triac T1 is pre-driven to form a shunt so that the current flowing through the relay R1 branches and flows to the triac T1 to thereby flow in the relay R1. Prevents burnout of contacts due to sparks.

As described above, the present invention is characterized in that during the relay off operation to cut off the current flowing to the load, the off operation of the relay is performed prior to driving the triac.

Therefore, the present invention reduces the spark generated at the relay contact during the relay-off operation, thereby reducing the burnout of the contact terminal to extend the life of the relay, and improve the operation reliability of the relay.

Claims (1)

In a relay connected to the load to supply current: A first step of supplying a signal to a gate terminal of a triac connected in parallel with a relay when a power supply to a load is cut off; A second step of stopping a signal supplied to the relay coil terminal after the triac operation; And a third step of stopping a signal supplied to the gate terminal of the triac after a predetermined time.