SU1300575A1 - Three-phase transformer with phase control - Google Patents

Abstract

The invention relates to electric power industry and can be applied in controlled power lines. The purpose of the f? -C 3 14 of the invention is to reduce the consumption of materials, to reduce power losses and voltages. The device contains a three-rod magnetic system 1, on the rods of which a group of windings 2-7 and a group of windings 8-13 are uniformly placed. Three windings of each group are adjusting, and three are working, all the windings of the first group 2-7 have the same number of turns and are connected in series with each other. On each rod, each of the working windings 8-10 of the second group is connected at one end to the connection point of the working and adjusting windings of the first group 2-7, and the other end to the beginning of the adjusting winding of the second group. The advantage of the invention is provided by reducing the mass of the working windings, the number of turns of which is proportional to the difference in voltage of the connected power systems. 3 il. 1 (L; "- S in" 5 3 A "5 ate Fib.1 ate

Description

1130057

The invention relates to power engineering and can be used to regulate the power flows between power systems, as well as to control the power transmission modes of the transmissive transmission capacity.

The purpose of the invention is to reduce the consumption of materials, reduce the losses of power and voltage by decreasing 0 and the longitudinal active and lateral resistances.

FIG. 1 shows the arrangement of the windings on the rods of the magnetic system; in fig. 2 is a connection diagram of the windings; in fig. 3 - vector voltage chart,

The device contains a three-rod magnetic system with rods 1. 20 The magnetic system can be made in the form of three separate cores, an armor magnetic circuit, an armored-rod, three-core spatial symmetric. On a 25 N x 1 pin, workers 2–4 and adjusting 5–7 windings with the same number of turns with taps A, V, C J proportional to the voltage of one of the connected power systems are arranged; workers 30 windings 8-10 with the same number of turns proportional to the difference in voltage of the connected power systems (or equal to the difference between the number of turns of phases) 1x adjusting windings of different systems), adjusting windings 11-13 with taps A, B, c with the same number of turns proportional to the voltage of the other power system. The adjusting windings are made with 40 current lead elements along the entire length. The windings 2-7 are connected in series in a counter to a symmetrical hexagon with alternating working and adjusting windings. Each of the 45 adjusting windings 11–13 is connected in series in accordance with the working winding of the next rod (11 and 9, 12 and 10, 13 and 8), and each of the working windings 8–10 of one rod – 50 n is connected by its cone, not connected to an adjusting winding 11-13, with a connecting point of workers 2-4 and an adjusting 5-7 windings of other rods. Such connections are made to avoid creating a circulating current in a closed loop. The device contains movable contacts 14, designed to connect,

5 2

systems of three-phase voltages, which can be slippery or switchable, depending on the voltage class and power of the device -.

The device works as follows.

When the three-phase system of voltage Id, Ug, and (Fig. 3) is applied to one system of control windings, for example 5-7 (Fig. 2), a three-phase system of magnetic fluxes appears in the rods of the magnetic system, causing each winding EMF is proportional to the number of turns (vector

the diagram of FIG. 3). It If I output system

the voltages U, Ug, DC are removed from the adjusting windings 11-13. In this case, the phase shift between the input and output voltages is determined by the distance of the moving contacts 14 from the beginnings of the control windings. The phase shift is zero when the movable contacts are at the beginning of the adjusting windings, and 120 when the movable contacts are at the ends of the adjusting windings. The intermediate positions of the contacts correspond to the intermediate value of the phase shift in the range from 0 to 120. The minimum active and inductive resistance introduced by the device at O, the maximum at Q 120 °.

When operating the device in the range of large angles, it is advisable to connect the phases to the current-collecting contacts 14 such that the active and inductive resistances introduced by the device into the transmission are minimal at an angle of 9 120 (for example, phase A connects instead of phases B, respectively B instead of C and C instead of ).

The modulus of the transformation ratio is equal to rel (effect: the number of turns of the adjusting windings (let's call it nominal) at a relatively equidistant position of all the contacts from the beginning of its windings) is maximum and exceeds 1.155 times the nominal value, when on the adjusting winding with fewer turns the contact is in the middle and on the other adjustment winding the contact is at the beginning and end, the minimum and less than 1.135 times the nominal value of ECO on the adjustment winding with a smaller number of turns the contact is on bottom of the ends, and on the other adjustment winding - in the middle.

When changing the number of turns of the windings, the range of the phase shift angle changes.

The reduction of material consumption in the connection of power systems is achieved by replacing the three working windings.

have the same number of turns and are connected in series in a symmetrical polygon, in which the adjustment and working windings alternate with each other, which is due to the fact that, in order to reduce material consumption, the working winding of the first group located on each rod is connected to

the number of turns of which is proportional to 10 adjusting windings of the same group of one power system, three working windings, the number of turns of which is proportional to the difference of voltages of the indicated power systems. The reduction of power losses is achieved by connecting the input and output retraction of each phase to the same adjustment winding and to the adjustment winding connected to

the working winding of this phase at angles 20 and the next rod.

0 close to 120

Claims (2)

Invention Formula 2. A transformer according to claim 1, characterized in that, in order to reduce power losses and voltages by reducing the longitudinal active and inductive resistors. A three-phase phase-regulating transducer with an increase in the shear angle of aformator containing a three-rod between the voltages, the input and output taps of each phase are connected to the corresponding reagent system of the given phase, on the rods of which two groups are uniformly placed windings, six each, three three-sided winding of the second group and the adjusting winding of the first group, connected between the working windings located on the same rod with the specified adjusting winding of the second group. the coils of each group are adjustment with the same number of turns and current-carrying elements, and three are workers with the same number of turns, all of the windings of the first group 05754 have the same number of turns and are connected in series in a symmetrical polygon, in which the adjustment and working windings alternate with each other, which is due to the fact that, in order to reduce material consumption, the working winding of the first group located on each rod is connected to located on the adjacent rod, and the working winding of the second group located on each rod is connected at one end to the connection point of the working and adjustment windings of the first group located on the other two rods, and the other end to the beginning of the adjustment winding of its group located 2. A transformer according to claim 1, characterized in that, in order to reduce power losses and voltages by reducing the longitudinal (A) C ("7 /. (rig 2 Editor N.Kishtuliyets Compiled by I. Yakimets Tehred L. Serdyukova Order 1136/53 Circulation 699. Subscription VNSHPI State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Industrial enterprise, UzGorod, st. Project, 4 Corrector S.Cherni