RU2321133C1 - Balancing three-phased to one-phased voltage transformer - Google Patents

Abstract

FIELD: electric engineering, possible use for powering various equipment.

SUBSTANCE: the balancing three-phased to one-phased transformer of alternating voltage contains input and output contacts, to which a transformer is connected which has primary windings in all three phases and two secondary windings in phases A and C. Primary windings are connected in a "zigzag". Windings of phases A and B, B and C, and also C and A are connected respectively. Secondary windings in phases A and C are coupled oppositely and are connected to output contacts.

EFFECT: reduction of stabilized power and asymmetry of primary currents and voltages.

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Description

The invention relates to electrical engineering and can be used in power circuits of various equipment.

A known balancing device that feeds a single-phase load containing a three-phase transformer, a rectifier-inverter system [1]. Disadvantage: great difficulty.

A device is known for balancing a three-phase network when supplying a single-phase load, containing a three-phase transformer [2]. The disadvantage is the complexity due to the presence of three windings at the output, and a significant asymmetry of the primary currents.

Closest to the proposed one is a three-phase AC transformer containing input and output terminals to which the transformer is connected, primary windings in all three phases and two secondary windings in phases A and C. Disadvantage: high installed power of transformer equipment and significant asymmetry of primary currents and phase stresses [3].

The purpose of the invention is to reduce the installed capacity of transformer equipment and to reduce the asymmetry coefficient of primary currents and phase voltages.

This goal is achieved in that the primary windings of three-phase transformers are connected in a zigzag circuit, and the windings of phases A and B, B and C, C and A are connected, and the secondary windings of phases A and C are turned on and connected to the output terminals.

Thus, the claimed device meets the criteria of the invention of "novelty."

Comparison of the claimed technical solution not only with the prototype, but also with other technical solutions in this technical field did not reveal signs that distinguish the claimed technical solution from the prototype, which allows us to conclude that the technical solution meets the criterion of "significant differences"

Figure 1 shows a diagram of a device.

The balancing three-phase single-phase AC transformer contains input terminals A1, B1, C1 and output terminals A2 and C2, a three-phase single-phase transformer 1 having primary windings included in a zigzag circuit, 2 and 3, and windings of phase 2 A are connected winding 3 phases B, windings 2 phases B with windings 3 phases C and windings 2 phases C with windings 3 phases A. Secondary windings of phases A and C are turned on and connected to terminals A2 and C2.

Figure 2 shows a diagram of a balancing three-phase-single-phase transformer when working in autotransformer mode.

Symmetric three-phase single-phase transformer operates as follows. When supplied from the mains supply or from an autonomous source, for example, a three-phase alternating voltage diesel generator, to primary windings 2, 3 included in the zigzag, the single-phase output voltage is removed from the opposite windings of phases A and C. The value of this voltage is determined by the transformation ratio of the transformer 1. Due to this inclusion of the primary windings 2 and 3, when counter-windings 2 and 3 of phases A and B, B and C and C and A are turned on in the zigzag, and the output voltage is removed from phases A and C, the asymmetry of the primary currents and voltage m is minimal.

The technical and economic efficiency of the proposed technical solution lies in the fact that from a three-phase supply network or from an autonomous source of three-phase voltage, for example, a diesel generator with asymmetry of input sense up to 20%, one-phase power up to 80% of the power of the supply network can be obtained (autonomous diesel generator).

Information sources

1. A. p. USSR No. 1372473, M, C, H02J 3/26 H02M 5/32 1985.

2. G.N. Petrov. Electric cars. Part 1, "Energy", Moscow, 1974, p. 143, Fig. 2-152.

3. G.N. Petrov Electric machines. Part 1, "Energy", Moscow, 1974, p. 145, Fig. 2-157.

Claims (1)

Balancing three-phase single-phase AC transformer containing input and output terminals, to which a transformer is connected having primary windings in all three phases and two secondary windings in phases A and C, characterized in that, in order to reduce the installed power and reduce the asymmetry coefficient primary currents and phase voltages, the primary windings are connected in a "zigzag", and the windings of phases A and B, B and C, C and A are connected, and the secondary windings in phases A and C are turned on and connected to the output terminals.

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