KR200261137Y1 - SCR Gate Trigger Circuit - Google Patents

Abstract

The present invention relates to an SCR gate trigger circuit, and the SCR gate trigger circuit according to the present invention triggers each of the SCR gates by switching a firing signal of a firing signal generator connected in series with a plurality of SCR gates and interoperating with an operation controller. And a plurality of diodes for controlling the half-wave phase of the power source synchronized with the secondary coil of the three phase welding power transformer, and connected in series with each phase of the cathode of each SCR and the secondary coil of the three phase welding power transformer. And a plurality of protection circuits composed of resistors and capacitors connected in parallel with each diode to block overcurrent or inrush current and overvoltage flowing to the SCR.

Therefore, there is an effect that the DC output voltage of the three-phase welding power supply transformer can be controlled by controlling the half-wave phase of the power synchronized with the secondary side of the three-phase welding power supply transformer.

Description

SCR Gate Trigger Circuit

The present invention relates to a silicon controlled rectifier (SCR) gate trigger circuit, in particular, a plurality of diodes connected in series with a plurality of SCR gates, and each of the SCRs. A three-phase welding power transformer connected to the anode and the protection circuit of each SCR by triggering the respective SCR gates through a plurality of protection circuits connected in series with a cathode of the plurality of resistors and capacitors connected in parallel with the diodes. An SCR gate trigger circuit for controlling the DC output voltage of the three-phase welding power transformer by controlling a half-wave phase synchronized to the secondary side of the.

In general, the voltage rectification circuit of a conventional three-phase transformer uses an AC / DC voltage generator using a three-phase bridge diode, which cuts off the inrush current generated at the moment when the rectified voltage is output and applies a trigger signal. To this end, a resistor is connected in series between the rectifier including the SCR and the capacitor, and a switching element connected in parallel with the resistor is used. However, the switching device is a passive device, and the inrush current is directly introduced into the power device due to a poor contact, so that the system may become unstable, and spark noise occurs at both ends of the switching device. In addition, since full-wave rectification is performed, the output DC voltage cannot be controlled, and thus, the DC voltage increases during rapid acceleration of the power device.

An object of the present invention for solving the above problems includes a plurality of diodes connected in series with a plurality of SCR gates, and resistors and capacitors connected in series with the cathodes of the respective SCRs and connected in parallel with the respective diodes. The DC output of the three-phase welding power transformer by triggering the respective SCR gates through a plurality of protection circuits to control the half-wave phase synchronized with the secondary side of the three-phase welding power transformer in conjunction with the cathode and the protection circuit of each SCR. An SCR gate trigger circuit for controlling a voltage is provided.

1 is a block diagram schematically showing a welder control apparatus in which an SCR gate trigger circuit according to the present invention is used.

2 is a circuit diagram illustrating an embodiment of an SCR gate trigger circuit according to the present invention.

※ Explanation of symbols for main parts of drawing

10: three-phase welding power transformer (secondary side) 20: operation control

30: call signal generator 40: rectification and phase control unit

45: SCR gate trigger circuit 50: DC reactor

60: DC voltage output unit 70: wire feeder

SCR gate trigger circuit according to the present invention for achieving the above object, the three-phase welding power supply by triggering the respective SCR gates by switching the firing signal of the firing signal generation unit connected in series with a plurality of SCR gates and interlocked with the operation control unit; A plurality of diodes for controlling the half-wave phase of the power supply synchronized with the secondary coil of the transformer, connected in series with each phase of the cathode of each SCR and the secondary coil of the three-phase welding power transformer, and in parallel with the respective diodes. And a plurality of protection circuits composed of resistors and capacitors connected to block the overcurrent or inrush current and the overvoltage flowing to each of the SCRs.

The protection circuit includes a first resistor and a first capacitor and the diode, the first resistor and a first capacitor connected in series with the cathode of each SCR and the secondary coil of the three-phase welding power transformer. It is preferable to include a second resistor and a second capacitor.

The anode of the SCR is preferably connected to the protection circuit and connected to the negative voltage terminal of the DC voltage output unit.

Hereinafter, a preferred embodiment of an SCR gate trigger circuit according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically illustrating a welder control apparatus in which an SCR gate trigger circuit according to the present invention is used. That is, as shown in the figure, the three-phase (U, V, W) AC power input to the primary-side welding power transformer passes through the secondary-side three-phase welding power transformer 10, the half-wave phase control signal from the operation control unit 20 The firing signal generator 30 receives the firing signal to the rectification and phase control unit 40 including the SCR and the SCR gate trigger circuit according to the present invention and is synchronized with the secondary three-phase welding power transformer 10. By controlling the half-wave phase of the power source, the DC voltage output to the DC voltage output unit 60 through the DC reactor 50 is controlled. In addition, the operation control unit 20 analyzes the current and voltage fed back from the rectification and phase control unit 40 and the DC reactor 50 and generates a half-wave phase control signal again to generate a firing signal generator 30. And a DC voltage level suitable for welding is applied to the torch interlocked with the wire supply unit 70 through the change of the current and the voltage.

The operation control unit 20 maintains the standby or operating state by the standby power supplied from the standby power supply unit 80, the firing signal generator 30 is synchronized from the secondary three-phase welding power transformer at turn-on Power on.

2 is a circuit diagram illustrating an embodiment of a rectification and phase control unit including an SCR and an SCR gate trigger circuit according to the present invention. As shown in the drawing, the SCR gate trigger circuit 45 according to the present invention includes a plurality of SCR gate trigger circuits. SCR (SCR1 ~ SCR6) is connected in series with the gate (G) to switch (on / off) the firing signal of the firing signal generating unit interlocked with the operation control unit to trigger the SCR gate (G) to the two-phase welding power transformer A plurality of diodes (D1 to D6) for controlling the half-wave phase of the power supply synchronized with the secondary coil, and the cathode (C) of the SCR (SCR1 to SCR6) and the secondary coil of the three-phase welding power transformer A first resistor R1 to R6 and the first capacitors C1 to C6 and the diodes D1 to D6, the first resistors R1 to R6 and the first capacitors C1 to C6 connected in parallel; Each of the above through two resistors R7 to R12 and a second capacitor C7 to C12 It consists of a plurality of protection circuits for blocking the overcurrent or inrush current and the overvoltage flowing to the SCR (SCR1 ~ SCR6).

The protection circuit connected to the cathodes C of each of the SCRs SCR1 to SCR6 is connected in series with each phase of the secondary coil of the three-phase welding power supply transformer and is connected to the anodes A of the SCRs SCR1 to SCR6. Half-wave phase with a negative voltage terminal connected to the DC reactors L1 and L2 connected to the secondary coil of the three-phase welding power transformer and the anode A of the SCRs SCR1 to SCR6. Control rectified power is output.

Hereinafter, the operation of the SCR gate trigger circuit according to the present invention will be described in detail with reference to the accompanying drawings.

First, when three-phase AC power is applied to the secondary-side three-phase welding power transformer 10 via the primary-side three-phase welding power transformer, the firing signal generator 30 calls the firing signal according to the phase control signal of the operation control unit 20. Generate a signal. When the diodes D1 to D6 of the SCR gate trigger circuit 45 according to the present invention are switched (on / off) by the firing signal to trigger the SCR (SCR1 to SCR6) gate G, the SCRs (SCR1 to The phase of each phase of each of the three-phase welding power transformer secondary coil 10 connected to the cathode C, the anode A and the protection circuits R1 to R12, C1 to C12 of SCR6 is half-wave rectified, and the three phase welding The three-phase power is stepped down through the DC reactor 50 connected to the secondary coil 10 of the power transformer to output the DC voltage rectified by the phase control to the DC voltage output unit 60. At this time, the operation controller 20 analyzes the current and voltage fed back and outputs a phase control signal to the firing signal generator 30 again, and the torch interlocked with the wire supply unit 70 through the change of the current and voltage. Apply a DC voltage level suitable for welding.

As described above, according to the exemplary embodiment of the present invention, the DC output voltage of the three-phase welding power transformer may be controlled by controlling the half-wave phase of the power synchronized with the secondary side of the three-phase welding power transformer.

As described above, according to the SCR gate trigger circuit according to the present invention, a plurality of diodes connected in series with a plurality of SCR gates, resistors connected in series with the cathodes of the respective SCRs and connected in parallel with the diodes, The three-phase welding by triggering the respective SCR gates through a plurality of protection circuits including capacitors to control the half-wave phase of the power synchronized to the secondary side of the three-phase welding power transformer in conjunction with the cathode and the protection circuit of each SCR. There is an effect that can control the DC output voltage of the power transformer.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended utility model claims. will be.

Claims (3)

Switching the firing signal of the firing signal generator connected in series with a plurality of SCR gates in conjunction with the operation control unit to trigger the respective SCR gates to control the half-wave phase of the power synchronized with the secondary coil of the three-phase welding power transformer A plurality of diodes; And Resistors and capacitors connected in series with the cathode of each SCR and each phase of the secondary coil of the three-phase welding power transformer and connected in parallel with each diode to block overcurrent or inrush current and overvoltage flowing to each SCR. A plurality of protection circuits; SCR gate trigger circuit comprising a. The method of claim 1, The protection circuit, A first resistor and a first capacitor connected in series with the cathode of each SCR and the secondary coil of the three-phase welding power transformer; And A second resistor and a second capacitor connected in parallel with the diode, the first resistor and the first capacitor; The SCR gate trigger circuit comprising a. The method of claim 1, And an anode of each of the SCRs is connected to the protection circuit and connected to a negative voltage terminal of a DC voltage output unit.