SU1278142A1 - Arc-welding apparatus - Google Patents

Abstract

This invention relates to welding arc power sources. The purpose of the invention is to expand the operational capabilities of the device by changing the amplitudes of the pulses I of currents of different polarities. The arc welder comprises an alternating voltage source, an inductive energy storage device, two thyristors and a control unit. Two sections of the inductive drive and two thyristors form a bridge circuit. When the thyristors are switched on in series, positive and negative current pulses are generated in the load. By varying the switching times of the thyristors, it is possible to regulate the magnitude of the current in the arc gap and the ratio of the pulse durations of the currents of the direct and inverse polarities. By changing the ratio of the inductances of the accumulator sections, it is possible to change the ratio of the amplitudes of the pulses of different fields p (LOST. 2 Il. C

Description

This invention relates to welding arc power sources.

The aim of the invention is to expand the operational capabilities of the device by varying the amplitudes of the pulses of currents of different polarities.

Fig. 1 is a schematic diagram of the proposed device for arc welding; Fig. 2 shows graphs of currents through an arc gap AND section of an inductive accumulator, as well as the voltage of a source of alternating voltage. The device for arc welding (Fig. 1) contains a source of 1 alternating voltage, two sections 2 and 3 in, a dual energy accumulator, first and second thyristors 4 and 5, a control unit b connected to the control electrodes of thyristors 4 and 5 , arc gap 7, successively connected with a variable voltage source 1 in the first diagonal of the bridge circuit, in two opposite arms of which the first and second thyristors 4 and 5 are included, in two other arms of which sections 2 and 3 are included, and the second diagonal is closed overlapping .ko jumper 8. Pa fi .2 -curve 9 - graph of voltage source 1 j alternating voltage curve 10 - graph of the current through the arc gap 7 j curve 11 of the current schedule through the section 3; curve 12 is a plot of current cutters section 2. Device for arc welding (FIG. 1) works as follows. In the steady state, the arc is excited, currents flow through sections 2 and 3, the direction of which is shown in Fig. 1 by arrows. At time t, (Fig. 2) with a positive half-voltage (the polarity is shown in Fig. 1 without parentheses) of the source. 1 the thyristor 5 is turned on by the control unit. The thyristor 4 is then in the off state, because it is applied to it through the open thyristor 5 with voltage in the opposite direction. The current of section 3 flows along the circuit 3-7-1-5--3 , forming through the arc gap 7 positive current impulse. And the current of section 2 is closed in a circuit 2-5-8-2., Section 3 is charged at the same time, and at time t2 its energy becomes maximum. After measuring the sign of voltage source 1

Claims (1)

Energy recovers from section 3 to source 1 and the current in it decreases. At time t, corresponding to the negative half-wave voltage of source 1, the control unit 6 turns on the thyristor 4. The thyristor 5 is then turned off by the reverse voltage of the source 1 through the switched-on thyristor 4, the current of section 2 is closed around the circuit 2-1-7-4-2 , and the current section 3 - on the circuit 3-4-8-3. At the same time, the current through the arc gap 7 abruptly changes the opposite step: the negative current pulse is formed in the arc. Section 2 is charged from source 1 and the current in it increases, and section 3 is discharged, as its energy dissipates on the active resistances of the circuit 3-4-4-8-3. However, due to their smallness, its current varies slightly compared to with an interval of 1: 2 - t, recovery. At time t nap-; The source 1 becomes positive again, which leads to the discharge of section 2 and the recovery of its energy into source 1 ,. At time tg-, with a positive half-wave voltage of source 1, the circuit returns to its initial state, unit 6 turns on thyristor 5 and then the processes in the proposed arc welding device occur similarly. Changing the moments t ,, t, tg- turn on thyristors 4 and 5, the magnitude of the current in the arc gap and the ratio of the pulse durations of the forward and reverse polarity currents can be adjusted, and the ratio of the amplitudes of the impulses can be changed by changing the ratio of the inductances of sections 2 and 3, for example pulses of various polarities. In comparison with the known, the proposed device provides the possibility of changing the amplitudes of the pulses of currents of different polarities, which expands its operational capabilities. In addition, in the proposed device there are less thyristors and in the switched on state there is only one, which causes less energy losses and in it and allows reducing the y power of the driving signals. Since the cathodes of the thyristors are connected, there is no need for galvanic isolation of the control channels of the thyristors, which simplifies the control unit. An arc welding device comprising an alternating voltage source, an inductive energy storage device, first and second thyristors, a control unit connected to the control electrodes of the thyristors, an arc gap connected in series with the alternating voltage source to the first diagonal of the bridge circuit in the two opposite arms of which the first and second thyristors are included, characterized in that, in order to expand the operational capabilities by changing the amplitudes of the current pulses p zlichnyh polarities in the two other arm of the bridge circuit section includes an inductive energy accumulator, and the second diagonal 10 is short-circuited.