SU505539A1 - Three phase rectifier for resistance welding machines - Google Patents

Description

one

The invention relates to the field of welding and can be used in contact welding machines with rectification of current in the secondary circuit.

A three-phase rectifier for resistance welding machines is known, the content of a three-phase transformer with primary windings connected through triangular controlled valves, the peaks of which are connected to the supply network, and the secondary windings connected in a star, with one ends of the secondary windings forming a point, its potential, while others are connected through uncontrolled gates.

The purpose of the invention is the increase in reliability and efficiency of rectifier.

For this, in the proposed rectifier, an additional winding is placed on each active core of the transformer, connected in series and in accordance with the primary winding of one of the other rods.

The drawing shows a circuit diagram of the proposed rectifier. It consists of a three-phase magnetic circuit 1, on each of the three active rods of which there are but two primary windings 2 and 3, which are not electrically interconnected and connected in pairs. The winding 2 of one rod is connected in accordance with the winding 3 of the other rod, the winding 2 of the other rod is consistent with the winding 3 of the third rod, and the winding 2 of the third rod is consistent with the winding 3 of the first rod. The system of three windings thus formed is connected via controlled gates 4 in a triangle, to the vertices of which the supply network is supplied. On each of the three active rods of the magnetic circuit 1, there is one secondary winding 5, which are connected in a star. The free end of each of the windings 5 is connected to one of the electrodes of the uncontrolled valves 6, the other electrodes of these

valves are connected to a common point. The rectified voltage is removed from common points of the secondary windings 5 and uncontrolled valves 6. Phasing of the windings is performed so that if the cathode of the controlled valves 4

is connected to the beginnings of the primary windings 2 (3), then the ends of the secondary windings 5 are connected to a common point, and the anodes of the uncontrolled valves 6 are connected to the beginnings of these windings.

The operation of the circuit is as follows.

When the rectifier is connected to the network, one of the adjustable valves 4 opens, to which the maximum positive voltage and a trigger pulse are applied. Herewith, thanks to the consistent connection of the windings 2 and 3 connected to the valve 4 and the network, a unidirectional magnetic flux is created in the two active rods of the magnetic circuit I, which in the secondary windings 5 located on these rods induces equal and coincident in phase emf opening two of the three uncontrolled valves 6. The third uncontrolled valve 6 will be closed, since negative electromotive force is currently attached to it. After 120 electrical degrees, the controlled valve 4, supplying the other pair of coherently-connected windings 2 and 3, is applied to the cathode with a positive supply voltage, and it is unlocked with a control pulse. The previously open control valve will close. This group of windings 2 and 3 in the active rods of the windings on which they are located will create a unidirectional flow, inducing in the secondary windings 5 of the EMF transformer, opening two uncontrolled valves. In this case, one of the two previously operated uncontrolled valves 6 will close, and the other is still open and will conduct welding current in parallel with the third valve. After 120 electrical degrees, the process repeats, and a control valve 4 is opened, supplying the third group of windings 2 PI 3, two uncontrolled valves.

Thus, the proposed three-phase rectifier circuit provides simultaneous creation of a unidirectional flow, which in the two secondary windings 5 simultaneously induces the same emf, so that two uncontrollable valves 6 open simultaneously on the secondary side of the transformer and pass the welding current in parallel, therefore the duration of the passage of current through them is increased to 240 electrical degrees at half amnlitud welding current.

This mode of operation of uncontrolled gates allows increasing their loading with average

current compared to valves passing the total current for 120 electrical degrees, and the rated power of the secondary windings decreases by 1.41 times while maintaining the calculated primary power, i.e., the total rated power of the transformer is reduced by 17%.

All this reduces the size, weight and total cost of the resistance welding machine.

Claims (1)

Invention Formula Three-phase rectifier for resistance welding machines, containing a three-phase transformer with primary windings connected through controlled triangle gates, the tops of which are connected to the mains supply wires and secondary windings connected in a star, with one ends of the secondary windings forming a point of common potential, and the others are connected through uncontrolled valves, characterized in that, in order to increase the reliability and efficiency of the rectifier, on each active transformer rod is placed additional A coil connected in series and according to the primary winding of one of the other rods.