SU647788A1 - Transformer device for regulating phase shift of mains voltages - Google Patents

Description

3 marriages both in load mode and idle mode. The closest to the proposed invention is the device described in 1. The main disadvantage of this device is the change in the value of the output voltage in the process of adjusting the phase shift. The purpose of the present invention is to eliminate this drawback, as well as to expand the range of adjustment of the phase shift. This goal is achieved due to the fact that in a transformer device for regulating the phase shift of a voltage network consisting of two three-phase two-winding transformers, one of which is equipped with an adjusting winding and a switching mechanism under load, the primary and secondary windings of each phase of the first transformer are connected in series and according to, their ends are connected in a star, to the beginning of the primary winding of each phase of the first transformer, the end of the secondary winding of the subsequent phase of the second is connected the second transformer is connected to the beginning of the secondary winding of each phase of the first transformer, the end of the second | winding of the previous phase of the second transformer, and parallel to the primary winding of each phase of the first transformer, the control winding of the same phase of the second transformer is connected via a switching mechanism under load. In order to reduce the resistance introduced by the device into the load circuit, it is equipped with an additional switching mechanism under load, and the winding of each phase of the first transformer is made with taps, with an additional switching mechanism under load connected to the connection point of the windings of the first transformer and to the specified tap-off. . I and 2 are schematic diagrams of the connection of the device windings. The following notation is used in the diagram: 1,2.- indices denoting primary and secondary windings; P - index, ded. starting regulator windings; D, .ch- indices related to the first and second transformers; A, B, C-indices, designating belonging to one of the phases; P is a moving contact of the shift mechanism under load. The letters H and K denote the beginning and end of the winding, the letter W - the device windings, U - the applied 1p, U-output voltages,. The supply voltages Od, UB, Uc are applied to the beginning of the primary windings of the second transformer W, ajk, WIOB,, Wtaf. Output voltages Ui, UB. The OS is removed from the beginning of the secondary WaaA.

Claims (3)

4 WaaB. Waac second transformer. With the position of the moving contacts P of the switching mechanism under load at the beginnings of the primary windings, Wijgg, W,; c the voltage applied to these windings is practically zero and the phase shift angle e between the supply and output voltages is also zero. When the contacts are moved, the voltage applied to the primary windings of transformer D increases and the angle in this also increases and reaches its maximum value with the control winding turned on. Thus, the range of adjustment of the phase shift W is determined by the magnitude of the transformation ratio,. In particular, gfi Ko -, Qm 60 °. In order to keep the output voltage constant while idling, it is necessary that the transformer ratio a be connected to the transformer ratio Kg Wap / Wj of the transformer D by the following ratio:. K "Kfl +1. When the device operates in load mode, the load current flows through the secondary windings of the transformer D. At the same time, at b 0 °, the resistance and inductive dissipation resistance of the transformer secondary winding ft are turned on in the load circuit. In order to reduce the resistance introduced by the device into the load circuit in the zero phase shift mode, it is proposed to perform a secondary winding with taps and short-circuit it using an additional switching mechanism under load. A diagram of the device with the addition described above is shown in FIG. 2. Thus, the device under consideration allows to adjust the phase shift angle between the input and output voltages, while maintaining the same value of the output voltage; provides an increase in the range of adjustment of the phase shift angle rio compared with known devices. The formula of the image is I. A transformer device for regulating the phase shift of the network voltage, consisting of two three-phase two-winding transformers, one of which is equipped with a control winding and a switching mechanism under load, characterized in that, in order to maintain the output voltage and expansion of the phase shift control range, the primary and secondary windings of each phase of the first transformer are connected in series and according to, their tails are connected in a star, by the beginning of the primary Each phase of the first transformer is connected to the end of the primary winding of the next phase of the second transformer, the secondary winding of the previous phase of the second transformer is connected to the beginning of the secondary winding of each 5th phase of the first transformer, and parallel to the primary winding of each phase of the first transformer load control winding of the same phase of the second transformer. 2. A device according to claim I, characterized in that. in order to reduce the resistance introduced by the device and the load circuit. 15, it is equipped with an additional switching mechanism under load, and the winding of each phase of the first transformer is made with taps, with additional The C11 load transfer mechanism is connected to the connection point of the winding of the first transformer and to the specified taps. Sources of information taken into account in examination I, Krayz A. G., Domantovsky 3. G., Loznnitsa TS. Transformer for transverse voltage regulation of the 750/330 kV autotransformer, “Electricity) No. 8, 975. 2. Patent of Germany No. 2034638, - 21. 53/02, 1973. 3. Voevodin I. D., Korenevsky G. I. and others. The creation of power transformers 750 eV In Sat. Long-distance transmission 750 kV ed. A.M. Nekrasova and S.S. Roar on, part 2 Equipment, substation, “Energie M., 1975.