RU2680373C1 - Three phase reactor transformer - Google Patents

Abstract

FIELD: power engineering.SUBSTANCE: invention relates to the electric power industry. Phase diagram of the reactor-transformer contains one network 4 and two control 5, 6 windings located on the U-shaped core. First winding is located on the yoke, and the control ones – on the rods. Used in conjunction with thyristor keys.EFFECT: simplified design and increased efficiency.1 cl, 2 dwg

Description

The invention relates to the field of electric power.

The well-known reactor-transformer / 1 /, contains in each phase a U-shaped magnetic circuit with two separated rods on one side and one rod on the other, one rod of two made with a gap, rods connected by horizontal yokes, network windings and control, the latter is connected to thyristor keys. The need to use filters of higher harmonics is its disadvantage.

The closest in essence - the prototype of the invention is a single-phase / 2 / reactor-transformer containing two control windings in phase and three rods with network windings placed on them, the rods are connected by upper and lower yokes, forming a triangular prism, control windings are designed to connect in two groups are a star and a triangle and connections to thyristor keys. The disadvantage of this source is the relatively complexity due to the concentric arrangement of the windings on the rods. Higher consumption of copper winding wire is required, which also increases losses.

The technical problem /, solved in the proposal is to simplify and improve efficiency.

The technical problem is solved due to the fact that the control windings are placed on different upper and lower yokes. Additionally, a second one with an air gap is installed parallel to each yoke.

In FIG. 1 and 2 are diagrams of a single-phase reactor transformer, which contains a U-shaped magnetic circuit composed of vertical solid rods 1 connected by yokes 2 and 3. On the rods 1 there is a network winding 4, and on yokes 2, 3 - control windings 5 and 6, which are connected to thyristor keys (not shown in the drawing). In FIG. 2 is available from the second rod 7. It is made with air (and) clearance (s). The transformer reactor is designed for controlled consumption of excess reactive power from the network. To this end, in a known manner (phase, latitudinal modulation) using thyristors (triacs) / 1, 2 /), the currents flowing through the windings of 5.6 are regulated. For this, the windings 5, 6 are connected to triac keys, which are not shown in the drawings. These windings 5.6 perform the role of voltage and inductance transformation, providing its increased value. The transformer reactor operates in an adjustable short circuit mode. The increase in inductance is facilitated by the presence of two jerks 1 and 2 (Fig. 2). The positive effect of increasing the leakage inductance of the windings is provided due to the diversity of the windings of the network 4 and control 5, 6.

Information sources:

1. RF patent for utility model No. 123598, cl. H02J 3/18, September 7, 2012.

2. RF patent for utility model No. 124077, cl. H02J 3/18.

Claims (2)

1. A three-phase reactor-transformer, containing two control windings in phase and three rods with network windings located on them, the rods are connected by upper and lower yokes, forming a triangular prism, control windings designed to connect star and delta connections to different groups and connections to thyristor keys, characterized in that the control windings are located on different - upper and lower yokes, so that the upper windings are connected in one group and the lower ones in another. 2. A three-phase reactor-transformer according to claim 1, characterized in that a second one with an air gap is installed parallel to each yoke.

Images