SU888225A2 - Converting transformer - Google Patents

Description

The invention relates to the field of electrical engineering, in particular, to transformers for converter stations, direct-current transmission lines. According to the main auth. W BOS 15 is a known transformer transformer, which contains a tank, a single rod magnetic circuit, on which two winding units are installed one after the other along the rod. Each unit includes concentric located network and valve bomotki. The valve windings in the blocks are independent of each other, i.e. have no galvanic connection, are located on the outer center and are made of the same voltage class and have input from the ends. When using a known transformer in a converter station, one more transformer for another voltage class is required to increase the voltage class for each phase, which requires additional consumption of materials and production costs. The purpose of the invention is to reduce the weight and size parameters of a converter transformer. The goal is achieved by the fact that the valve winding sections are made of a different voltage class, while the lower voltage section is located on the inner side of the power winding concentration and has an input from the end, and the higher voltage section is on the outer side of the specified power winding concentrate and has an input to the middle. The proposed solution allows to obtain the required increase in the voltage class in one transformer, which ensures a reduction in the number of transformers to the converter station. FIG. 1 shows a diagram of a transformer; FIG. 2 is a diagram of a transformer in a three-phase group with converter bridges connected to it (scheme) The converter transformer contains a tank and a magnetic conductor (not shown), on the rod of which two blocks 1 (see figure 1) of windings are successively installed along the axis. Each of the blocks 1 has a network winding 2 (CO and COij) and sections 3 and 4 of the valve winding of the highest voltage (80) and the lowest voltage (BO /). Section 3 of the valve winding (60) is made with an input in the middle and is located outside the center of the power winding (CO), and in the three-phase group is connected into a star. Section k of the winding winding (80p) is made with the input at the end and is located on the inner side of the concentration of the power winding (COj), and in the three-phase group is connected in a triangle. Transformer operates as follows. The network windings 2, connected to AC power lines, feed a step-up or step-down transformer. The valve windings 3 supply electric power to successively connected converter bridges 5 (see Fig. 2) with different levels of insulation. The use of the invention reduces the cost of a three-phase group of a converter station, both by allowing it to fall (voltage class and power in one transformer, and by reducing the consumption of materials and transformer dimensions. The formula was invented: 1 A transformer transformer according to that, in order to reduce the weight and size parameters, the sections of the valve windings are made of different voltage class, while the lower voltage section is located on the inner side of the center and the network winding has input from the end, and the higher voltage section is from the outside of the specified network winding concentration and has input into the middle., Sources of information taken into account during the examination 1. USSR author's certificate No. T. H 01 F 31/00, 1978.

Claims (1)

Claim 15 Transformer Transformer ίπο Av.St. Ν '809415, characterized in that, in order to reduce weight and dimensions, the sections of the valve windings are made for different voltage classes, while the lower voltage section is located on the inside of the concentrate of the network winding and has an input from the end, and the higher voltage section from the outside of the specified concentrate network winding and has an input in the middle.