RU2625101C1 - Device for testing transformers and reactors - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: in case of switching from a three-phase mode to a single-phase mode, the secondary winding of the output single-phase transformers are converted into a parallel junction.

EFFECT: reduced energy losses, improved voltage shape.

1 dwg

Description

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

The well-known [1] circuit of a device for a similar purpose, containing a frequency converter, connected by an output to three single-phase transformer windings connected to a star. The disadvantage of this device is its great complexity, due to the need to use a six-phase converter.

The closest in technical essence and the achieved results is [2] a device for testing transformers and reactors, containing a frequency converter, output connected to three single-phase transformer windings connected to the star by primary windings, and to the secondary windings of which is connected a three-phase-single-phase mode switch, unit -contact of which is connected to the frequency converter. The disadvantage of this device is manifested in the relatively large energy losses due to the presence of third and multiple harmonics, since the transformers are connected on both sides by a star. The shape of the output voltage is also deteriorating.

The technical result of the proposal is to reduce electricity losses, improve the shape of the voltage.

The technical result is achieved due to the fact that the secondary windings of the transformers are connected in an open triangle, two unconnected outputs of two secondary windings of the transformer are connected to the central terminals of the switch, and the same lateral outputs of these switches are connected together and are the output of the three-phase mode, and the other two inverse outputs of the switches cross connected to the inverse terminals of these two secondary windings.

The drawing shows a diagram of the device, where it is indicated: 1 - frequency converter (IF) - three phases, 2, 3, 4 - three primary windings of single-phase transformers, 5, 6, 7 - their secondary windings, 8, 9, 10, 11 - contacts of the three-phase single-phase mode switch, 12 - its block contact.

The device operates as follows. In the state shown in the drawing, a three-phase mode is carried out. The inverter 1 generates three-phase voltages, which from the windings 2, 3, 4 are transformed into secondary windings 5, 6, 7, connected by a triangle. Such a connection improves the shape of the output voltage, eliminating multiple harmonics from it. The output voltage is supplied for testing transformer and reactor equipment (not shown). To switch to single-phase mode, the contacts 8, 9 of the switch are opened, and 10, 11 are closed. Three windings 5, 6, 7 are connected in parallel. Thus, the circuit implements the principle of a collapsing (folding) triangle of transformer windings. Block contact 12 gives the command to put the inverter 1 into single-phase mode. In this case, the output of the inverter 1 to the non-switching phase (6) operates out of phase with the other two phases. Thus, the device very easily provides a transition from one mode to another.

Information sources

1. Patent for utility model of the Russian Federation No. 142928, cl. G01R 31/12, June 17, 2013

2. Patent for utility model of the Russian Federation No. 119544, class. Н02М 5/451, Н02М 5, December 4, 2012

Claims (1)

A device for testing transformers and reactors, containing a frequency converter (IF), connected to the output of three single-phase transformer windings connected to a star by primary windings, and to the secondary windings of which a three-phase single-phase mode switch is connected, the contact block of which is connected to the IF, characterized in that the secondary windings of the transformers are connected in an open triangle, two unconnected terminals of two secondary windings of the transformer are connected to the central terminals switch la, and the same name lateral conclusions of these switches are connected together to output the three-phase mode, while the other two cross-inverted output switches connected to the inverted terminals of the two secondary windings.

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