RU2763033C1 - Method for testing transformers and reactors - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering and is used in transformer plants. For a small complexity, one converter (4) or (5) is used, connected to the test buses (2) by means of a switch (6) or (7), and to the network by means of a switch (8) or (9) by a command from the control unit (16). For complex dynamic testing, such as the use of resonance on buses (2), testing with a tap changer (load tap changing), one converter (4) or (5) is used in the active mode, wherein switches (6, 7) and (8) or (9) are activated. The second converter (5) or (4) is therein in the passive mode. Activation of the second converter is blocked due to the cross-activation of the auxiliary contacts (12, 13). The converters are made according to the rectifier-capacitor-voltage inverter configuration. During the above types of testing, large current surges may occur in the load, passing through the diodes of the inverter and leading to an excessive increase in the voltage on the capacitors, potentially leading to damage therein. But the presence of a second converter connected by the output in parallel reduces the amount of overvoltage by 2 times.

EFFECT: developed method for testing transformers and reactors.

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Description

The proposal relates to electrical engineering and is used in transformer plants.

A widely known control method - patent for a useful model of the Russian Federation No. 119544 consists in connecting a load to the output of one converter, which reduces reliability in case of partial failures. This is a disadvantage of the method.

The closest in fact is the patent for a useful model of the Russian Federation No. 142928, a method for testing transformers or reactors consisting in connecting them to the inputs of two frequency converters, connecting one converter to the input to the network and supplying the test voltage. However, this method requires synchronizing the operation of converters and balancing the loads between them, which complicates both the equipment and control.

The technical result achieved in the proposed invention is to improve reliability and simplify. The technical result is achieved due to the fact that they block the input of inclusion in the network of the second converter and the supply of its control.

In the drawing, FIG. 1 shows a diagram for implementing the method. It contains: 1 - mains buses, 2 - test buses, 3 - tested object (transformer or reactor), 4, 5 - rectifier-inverter converters of mains alternating voltage into alternating voltage, adjustable in frequency and value, 6, 7 - output switches and 8, 9 - input switches with control coils 10, 11, provided with auxiliary contacts 12 and 13, control contacts 14, 15 of the control unit 16. The method is carried out as follows. For static tests requiring little complexity, one converter 4 or 5 is used, which is connected to test buses 2 by switch 6 (or 7), and to the network 8 (or 9) by a command from the control unit 16. For complex dynamic tests, which are the use of resonance on buses 2, tests with a tap changer (OLTC) use one converter 4 (or 5) in the active mode - turn on 6, 7 and 8 (or 9). In this case, the second converter 5 (or 4) is in passive mode. That is, the switching on of the second converter is blocked due to the cross connection of the terminal block 12, 13. In addition, control pulses are not applied (blocked) to the second converter. The converters 4, 5 are made according to the known circuit of FIG. 2, where 17, 18 - input and output transformers, rectifier 19 - capacitor 21 - voltage inverter 20. With these types of dynamic tests in load 3, large current surges can occur passing through the diodes of the inverter and leading to an excessive increase in voltage across the capacitors, which may cause damage. But the presence of a second converter connected by the output, in parallel, reduces the magnitude of this overvoltage by 2 times, since the capacitance of the capacitors, which receive the load current surges 3, is increased, which increases reliability. That is, the second converter increases the damping capacity of the installation, because on the load side it is used as a diode bridge, to the poles of which a capacitor is connected. In this case, it is not required to carry out complex measures to ensure the parallel operation of converters.

Claims (1)

A method for testing transformers or reactors, which consists in connecting them to test buses connected through the corresponding output switches to the corresponding frequency converters, the inputs of which are connected to the mains buses through the corresponding switches, characterized in that the control coils of the input switches are equipped with auxiliary contacts, while for tests use one of the frequency converters in active mode, and the switching on of the second converter, which is in passive mode, is blocked due to the cross switching of the auxiliary contacts.

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