SU1094075A1 - Three-phase converter transformer with twofold variation of secondary voltage - Google Patents

Abstract

THREE PHASE converter transformer C double change in the secondary voltage, comprising a core magnet system, setevuyuti two valve coil, with the fingers starts and ends of winding phases of valve windings are connected to the inputs of the transformer, characterized in that, in order to improve weight and dimensions and easy operation of the transformer by reducing the number of inputs, the beginning of the first valve winding of the first phase is connected to the end of the second valve winding of the third phase, the end of the second winding and the first phase is coupled with the start of the second phase of the first coil, the second coil end connected to the second phase with the start of the third phase of the first winding, and the joints are connected to the inputs of translational sformatora.

Description

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The invention relates to electrical engineering, in particular, to transformers with discretely controlled secondary voltage, for example, for supplying windings of experimental physical installations or electric drive circuits when it is necessary to change the connection circuit of the installation elements from series to parallel. A limestone three-phase converter transformer with a double change in the secondary voltage, containing a valve winding made of two identical parts, each part being divided into several sections connected in series and diverted from each section. Voltage regulation is accomplished by connecting the tap of the parts together. The greatest number of turns on the secondary side is achieved when the parts of the valve winding are connected in series, and the smallest - with a parallel connection of scientific research institutes. This transformer provides a two-fold change in the secondary voltage at a small voltage level of the control stage C1 3. rhythm performance and lower level of reliability caused by the need for a switching device in it and double underutilization of the valve 06 coil, due to the fact that almost the whole range of permissible current value control gate is determined by the winding series-connected sections, while the parallel-connected sections are not only half the rated d ki LOAD. The closest to the proposed technical essence and the achieved result is a three-phase converter transformer with a double voltage change, containing a rod magnetic system, two valve windings are also connected, while in each of the windings of different phases the windings are not electrically interconnected, and the taps of the beginnings and ends of the windings of the phases of the valve windings are electrically connected to the inputs of the transformer. Such a transformer is significantly more reliable in operation, since has no built pereklyuchak Oleg Zhegoyev ustroystvaG23, however, a well-known transformer has enough good weight and size parameters, as well as the operation of the inconvenience caused by the large number of Entering Gate windings. A particularly large influence of the number of inputs on the weight and dimensions and usability is manifested in transformers designed for pulsed load conditions. The selection of the leads in such transformers is made from the conditions of their electrodynamic resistance during sudden emergency short circuits. Since the currents in these modes, dp power transformers can reach a million amperes, instead of one input, you have to put several, for example two or three, which leads to the impossibility of placing the inputs in one place, for example, on a tank. The location of the inputs at the same time on the side walls of the tank leads to a significant deterioration in weight and size indicators and inconvenience when reconnecting the inputs during operation. The chain of the invention is to improve the weight and size and ease of operation of the transformer by reducing the number of its inputs. This goal is achieved by the fact that in a three-phase converter transformer with a double variation of the secondary voltage, containing a rod magnetic system, a network and two valve windings, while the taps of the beginnings and ends of the windings of the phases of the valve windings are connected to the transformer leads, the beginning of the first valve winding of the first phase is connected with the end of the second valve winding of the third phase, the end of the second winding of the first phase is connected to the beginning of the first winding of the second phase, the end of the second winding of the second phase is connected to the beginning scrap first coil and the third phase of the joints are connected to inputs of the transformer. The drawing shows a converter transformer. The proposed transformer may be in a tank or casing I. Rod magnetic system 2 contains rods 3-5, with respectively network and valve windings located on them ka fai 6.7 and 8-10, and 11-13, and 14. Windings of different phases 7,10,13 one valve winding as well as the windings of different phases 8,11,14 of the second valve winding are not interconnected, and the outlets of the beginnings and ends of the windings of the phases of the valve windings are electrically connected to the inputs of the transformer 15-23. The beginning of the windings of the phases 7,10,13 of one valve winding is electrically connected to the ends of the windings of phases 8,11,14 of another valve winding, and the end of the winding of phase 8 located on the rod 3 is connected to the beginning of the winding of phase 10, is located on the rod 4, and the end of the phase I winding located on the rod 4 is connected to the beginning of the phase 13 winding located on the rod 5. The maximum secondary voltage 20 or on the inputs a, b, c can be achieved by connecting the a2 bjH Y input , c and Z, while the valve windings are interconnected in series. Parallel connection of the valve windings is obtained at PT1PNP1L l - h - monuments ai, b, c when connecting the inputs a, Z and a, b, hj, q y, and When using a transformer zo in the power supply system It is often necessary for pilot plants to change the voltage of a transformer short circuit with its voltage unchanged at XX. 5 754 With a difference in the arrangement of the valve windings relative to the network, there are several connection diagrams of the inputs, which allow, at a constant secondary voltage, to obtain different voltages of the transformer short circuit. For example, if the valve windings are located on opposite sides of the network winding with circuits that provide a minimum of secondary voltage compared to the previously considered circuit, the transformer short-circuit voltage of the transformer is 1.5–1.8 times greater (- removal of voltage from inputs x, Eur Z), 2.2-3.0 times (a, b, when removing voltage from inputs a,., B, c) 5-7 times (,, - c when removing voltage from inputs a , b, c). There is also a connection circuit for intakes, providing maximum voltage at an increased short-circuit voltage (; d., When removing voltage from inputs a, b, c). ; : The invention allows a 25% reduction in the number of bushings of the valve windings compared to a known transformer, a reduction in the number of jumpers required to change the connection circuit of the bushings during transformer operation.

Claims (1)

A THREE-PHASE TRANSFORMER TRANSFORMER WITH TWO-SECONDARY VOLTAGE CHANGE containing a rod magnetic system, a network of two valve windings, while the taps of the ends and ends of the phase windings of the valve windings are connected to the transformer inputs, which is characterized by the fact that the performance is improved by the fact that reducing the number of entries, the beginning of the first valve winding of the first phase is connected to the end of the second valve winding of the third phase, the end of the second winding of the first of the first phase is connected to the beginning of the first winding of the second phase, the end of the second winding of the second phase is connected to the beginning of the first winding of the third phase, and the connection points are connected to the inputs of the transformer.