SU1397210A1 - Source of power supply for welding arc - Google Patents

Abstract

The invention relates to welding production and can be used to power a welding arc for automatic and manual welding. The goal is higher; the stability of the welding arc is reduced, the cost, weight and dimensions of the power source are reduced due to the separation of the charge circuit of capacitors of the multiplication circuit and the power supply circuit of the pilot arc. The power supply contains a power step-down transformer with a rigid external characteristic and a low no-load voltage and a rectifying unit. The latter contains the main rectifier and voltage multiplying circuit. Resistors limit the capacitor discharge current and provide a steeply dipping external characteristic of the power supply source of the pilot arc. When the multiplication circuit is turned off (the switch is in the open state), the output voltage will be pulsating, close in magnitude to the applied alternating voltage. 1 il.

Description

with so

The invention relates to welding production and can be used to power a welding arc for automatic and manual welding.

The purpose of the invention is to increase the arc stability, reduce cost, improve the weight and size of the source of combustion of the welding arc power.

The drawing shows the electrical circuit of the source.

The power source of the welding arc contains a power downgrade transformer 1 with a hard external characteristic and low no-load voltage and a bridge rectifier 2. The latter includes the main rectifier, consisting of diodes 3-6, and a circuit multiplying the voltage containing diodes 3 and 6-8 and capacitors 9 and 10. Resistors 11 and 12 limit the discharge current of the capacitors and produce a steeply dipped voltage characteristic of the pilot arc power source. When the multiplication circuit is off (switch 13 is in the open state), the output voltage will be pulsating close to the variable input voltage. With the included multiplication circuit (13 in the closed state) in the first half-period, through the diodes 3 and 7, the capacitor 9 is charged to a voltage equal to the amplitude value of the supplied alternating voltage. In the second floor, the period through diodes 8 and 6 is charged to the capacitor 10. Thus, after a time equal to the period, the voltage at the output of the rectifier unit 2 becomes equal to the double amplitude value of the supplied alternating voltage. Excite the arc by touching the electrode of the product. In this case, the charged capacitors 9 and 10 are discharged through resistors 11 and 12 and the contacts of the bipolar switch 13, providing a stand-by arc current. The capacitors are discharged only slightly. A short arc arc goes to the welding arc, which is provided by the main rectifier on diodes 3-6 with a high current. As the arc length increases, when the voltage in it exceeds the no-load voltage of the main rectifier, the arc changes to a low point, the current through which the voltage multiplier circuit 3 and b-10 provides. For different welding conditions and different environments in which welding takes place, resistors 11 and 12, which form a steeply falling characteristic, can be made variable.

In comparison with the known in the proposed device, the capacitors are always in the charged state and the excitation of the arc when it is accidentally activated is instantaneous. This achieves a high arc stability. Small voltage ripples on capacitors allow the use of electrolytic capacitors of smaller dimensions, mass, and cost. In the proposed scheme, the switch 13 operates at much lower currents, limited by resistors 11 and 12. In addition, the charge current of the capacitors through the switch does not leak, use a switch designed for a lower current.

Claims (1)

Invention Formula The power source of the welding arc, containing a bridge rectifier, whose input is connected to the secondary winding of a power step-down transformer and the output to the output of a power source, a two-pole switch and two capacitors, the first terminals of the capacitors connected to one of the ends of the secondary winding of the power step-down transformer, and The second terminals through a bipolar switch are connected respectively to the output of the rectifier, characterized in that, in order to increase the stability of the arc, reduce the cost and the source dimensions, the first and second diodes are inserted in it, in parallel with which resistors are connected through the contacts of a bipolar switch, the second output of one capacitor is connected to the anode of the first diode, the cathode of which is connected to the negative output of the rectifier, and the second output of the other capacitor connected to the cathode of the second diode, the anode of which is connected to the positive output of the rectifier. f o  about