SU119637A1 - The method of automatic control of welding electric inverters - Google Patents

Description

-. The known methods of automatic control in parallel, the welding electromechanical converters are based on the use of a current relay system that switches on and off individual converters depending on the consumed load. The proposed method is more perfect, as it provides an increase in power factor and the elimination of inrush currents when the inverters are turned on again. This is achieved as a result of the fact that the inverters, after switching off the lix, rotate with the aid of low power auxiliary electric motors. The drawing shows a schematic diagram of a device that allows automatic control of electric welding welding converters according to the proposed method. The electromotive welding bus converters /, 2 and 5 are turned on for parallel operation and are disconnected from the DC and AC networks automatically depending on the load through the system of current relays and contactors. When any inverter is disconnected, it does not stop, but continues to idle with the help of a low-power electric motor 4. Therefore, the converter is always prepared to receive the load, and when it is switched on again, there are no large starting currents. Transferring the rotation of the converter to a low-power motor when it is idling also contributes to an increase in the power factor of the installation. The auxiliary electric motor 4 feeds through the normally closed contacts of the contactor 5 supplying the converter main motor. Therefore, when turning on the engine converter. additional motor 4 loses power, and vice versa, when the inverter motor is turned off, it automatically turns on. The speed of lying is kept constant.

No. 119637-2 -

In order to reduce the power of the auxiliary motor, a normally open blocking contact of the line contactor 5 is turned on in the winding circuit of the 6th exciter day 7, which opens this circuit when the converter is turned off.

The proposed device operates as follows.

When the load increases above the value that npeo6pa30BaTevib / can provide, a current relay 8 is turned on, which closes its contact in the coil circuit of the linear contactor 5 of the converter 2. When the contactor 5 is turned on, the inverter motor 2 is connected to the | Net, and the additional motor that rotates it without load is 4 is disconnected from the network. At the same time, normally open contact contacts of contactor 5 close the circuit of the excitation winding 6 of generator 7 of converter 2 and power is supplied to the ground; weat relay 9. In its contact 9 it switches on the circuit of the solenoid coil of the automaton 10, which connects the load to converter 2. switching takes place in the same order and the corresponding relays connect converter 3.

When the load decreases below a certain value, the minimum relay 11 opens its contact in the circuit of the contactor 5 of the converter 2 and the latter is disconnected from the network. At the same time, it loses the power supply to the coil of the zero relay 12 of the automaton 10 and it disconnects the load from the generator, 7 converters.

The normally closed contact contacts of the contactor 5 turn on an additional electric motor 4, maintaining the normal rotation speed of the converter.

Besides the relays 8 and //, the reverse current relay 13 is also included in the load circuit of the converter. In the proposed control method, the number of parallel-acting converters is limited by the sensitivity and accuracy of the minimum relay //. With conventional relays, increasing the number of transducers above six set points, the relays closely approach each other and their adjustment is difficult.

Subject invention

The method of automatic control of welding electric machine converters when operating in parallel using a current relay system for switching on and off individual converters depending on the consumed load, characterized in that, in order to increase the power factor and eliminate starting currents upon repeated switching on, the converters after turning them off rotated with auxiliary low-power auxiliary motors.

Committee for Inventions and Discoveries at the Council of Ministers of the USSR

Editor L. A. BlatovaGr. 91, 98

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