SU817862A1 - Phase shifting device - Google Patents

Description

(54) DEVICE FOR SHIFT PHASE

The invention relates to electrical engineering, in particular to transformer construction, and can be used in transformers for phase shifting of a three-phase voltage system supplied to a rectifying installation consisting of 2 parallel converters. A transformer device for adjusting the phase shift is known, which contains primary, secondary and control windings with taps and a switching mechanism under load with taps, with the end of the primary winding of one of the phases connected to the end of the secondary winding of the other phase, and the common point of the adjustment winding is attached to their common point third phase 1. Such a device, providing a phase shift, has increased dimensions and typical power due to the presence of an adjusting winding, and the phase shift control the device is carried out only in one direction, either towards the set-back or side of advance in respect to the mains voltage. The closest to the proposed technical essence and the achieved result is a device for phase shift, containing two transformers, each of which the primary and secondary windings are interconnected according to the "zigzag" scheme, providing a three-phase voltage system at the output in the direction of lagging or side of the advance with respect to the three-phase voltage system at the input of the transformer. This embodiment allows to simplify the design of the device by eliminating the adjusting winding 2 In addition, the device has the disadvantage that the angle of phase shift is provided only in one direction: either in the direction of lagging or in the direction of advance with respect to the supply network. The purpose of the invention is to increase the efficiency of the device. The goal is achieved by the fact that in a phase shifter containing at least one three-phase transformer, the primary and secondary windings of which are interconnected according to the zigzag scheme, the secondary winding of the transformer is made of two sections, the output of the beginning of the first section and the output the end

the second section is interconnected and connected to the output of the beginning of the primary winding of the same phase, and the terminals of the end of the first and the beginning of the second section are intended for connecting the load.

FIG. 1 shows the connection diagram of the device windings; in fig. 2 - vector diagrams of voltages of this transformer.

The transformer contains a primary winding 1 having a delta connection circuit and a secondary winding consisting of two sections 2 and 3, with the beginnings a, b, c of section 3 and the ends X, Y, Z of sections 2 are connected with the beginnings C, A, B primary winding scheme "zigzag.

Terminals A, B, C are connected to the mains, terminals a, b, c to the converter 4, and terminals X, y, Z to the converter 5.

On the vector diagram (see Fig. 2) two shear angles are combined; the angle to the lagging side (b 0) and the angle to the leading side (6; EI) of the proposed transformer in such a way that the sum of the angles is equal to the shear angle required to obtain the multiphase mode.

In this case, the ratio of turns of the primary winding 1 to the secondary winding consisting of sections 2 and 3 is determined by the shear angle only in the direction of lagging or leading, and not the total shear angle, i.e.

AND/. - VC / ,. / J7

where is the 5-angle shift in one direction.

When performing the phase shifting device according to the invention, the consumption of active and structural materials is reduced by 20% by doubling the unit pass power of the transformer

and losses by 30%, the overall dimensions and cost of transformer equipment in multiphase systems are reduced by 20%, and the number of transformers in a rectifying installation is reduced.

Claims (2)

Invention Formula A phase shifting device containing at least one three-phase transformer, the primary and secondary windings of which are connected to each other according to the "zigzane" scheme, characterized in that, in order to increase the efficiency of the device, the secondary winding of the transformer is made of two sections, the output of the beginning of the first section and the output of the end of the second section are interconnected and connected to the output of the beginning of the primary winding of the same phase, and the conclusions of the end of the first and the beginning of the second section are used to connect the load. Sources of information taken into account during the examination 1. USSR author's certificate No. 606186, cl. H 02 J 3/46, 1978. ° 2. Schilling Walter. Stromvertfeilung in Schwenk transformatoren “Elektrotechn.Z 1975, B 27, N 7, p. 153-155. ha and