SU1061180A1 - Electric induction device - Google Patents

Abstract

ELECTRIC INDUCTION DEVICE, for example, a bias-induced electric reactor containing a myo-magnetic magnetic system, around an AC coil, divided into two parallel | ny. Each of which consists of two sections located on different rods and included according to, and sections of one of the branches, for example the first, are made with a branch from the part of the turns to which the thyristors are connected, connected opposite to each other, characterized in that the purpose of improving speed and ensuring the sinusoidal current consumption in a symmetric mode and phase control., the device contains a compensating choke, made on a three-core magnetic circuit, on each rod of which Placed along one identical winding, the magnetic system of the reactor contains six rods with two common alternating current windings. The alternating current is of the three-phase type, each of which has phases (Loy consists of the said parallel branches arranged on pairs of adjacent rods, each of which are windings connected to the thyristor junction 35 00

Description

The invention relates to electrical engineering and can be used as a high-speed, phase-controlled regulator of reactive power that does not introduce non-linear distortions into the electrical network.

An electric induction device is known, for example, a three-phase controlled reactor containing a three-core spatial magnetic conductor with two romes, on the rods of which three-phase windings are placed, and on the rods - a bias winding with an adjustable choke connected to it, and the bias winding is made of the same cross-sectional wire with a connecting coil the ratio of turns is 0.570, 67, one of which with a smaller number of turns contains three parallel branches, each of which; It is made of two sections placed in different sections of the PM, located in a plane parallel to the cores of the magnetic circuit, and the other part of the bias winding with a large number of turns consists of two sections connected in series, each of which contains three sections connected in series the way that on each rom between adjacent rods there are two sections of both parts of the bias winding, and an adjustable choke is connected in parallel to the part of the coils of the coils with a large number of turns l -.

A disadvantage of this device is the low speed due to the presence of a closed loop from the compensating winding and the throttle connected to it.

The closest to the present invention is an electric induction device, such as a magnetic biasing reactor containing a multi-rod system, an alternating current winding divided into two parallel branches, each of which consists of two sections located on P13 rods and included according to, one of the for example, the branches are first, made with a branch from a part of the turns, to which Topto t are connected thyristors connected oppositely to one another .C2j.

The disadvantages of this device are the presence of nonlinear distortions in the consumed current and narrow functional indicators, due to the impossibility of ensuring the sinusoidality of the current consumed in a symmetrical mode and phase-controlled.

The purpose of the invention is to expand the functionality of the device. by providing sinusoidal current consumption in a symmetric mode and phase-by-phase control, as well as an increase in speed.

To achieve this goal, an electrical induction device, such as an electrical reactor with

0 by magnetization containing a multi-rod magnetic system / alternating current winding, divided into two parallel branches, each of which consists of two sections, located on different rods and connected according to, and sections of one of the branches, for example, are made with a branch from turns, to which the thyristors are connected, connected oppositely to each other, contain a compensating choke, made on a three-core magnetic core, on each rod of which is placed

5 (software of the same winding, mag1nit 1a, the reactor system contains six rods with two common rods, and the alternating current winding is three-phase, each phase of which consists of the said parallel branches arranged on pairs of adjacent rods, each winding the throttle is connected to the junction of the sections of the second parallel branch and to the place

5 thyristor connections. The drawing schematically shows the proposed device.

An electrical induction device, such as an electrical reactor, with

0 by biasing, contains a multi-rod magnetic system, an alternating current winding, divided into two parallel branches, each of which consists of two sections

5 1 and 2, located on different rods and included according to, and sections 1 of one of the branches, for example, the first, are made with a branch from a part of the turns to which the thyristors 3 are connected, connected oppositely to each other

on the other, contains a compensating choke mounted on a three-core magnetic core 4, each rod of which has one identical winding 5, the magnetic system of the reactor contains six rods b with two common rods 7, and the AC winding is three-phase, each of which phases consists of the said parallel branches, placed on pairs of adjacent rods b, with the hygd of windings 5 throttles being connected to the jiecTy connecting sections 2 of the second parallel branch and to the place of connection of thyristors 3.

The device works as follows.

When connecting the AC winding to the electric and the ignition angles of thyristors 3oi 90 °, the current I of each phase of the winding has the smallest value and is equal to the magnetizing current of the magnetic system. At thyristor firing angles, Goiter O, the magnitude of the voltage between the middle points of the parallel branches is greatest and causes a constant current l in the windings 5 of the compensating throttle, which is closed through the sections of the AC winding and magnetises the magnetic system of the reactor. The undermaking of the magnetic system by the current IQ causes an increase in the consumed current I in the phases of the alternating current winding. The power of the thyristors 3 is determined by the ratio of the active resistance of the windings to the inductive, the resistance of the device in nominal mode and makes up no more than 2-5% of the power of the device. The same order and relative, in relation to phase voltage, the value of the voltage drop between the taps from part of the turns of sections 1 and the midpoint 0. Magnetic system magnetic current IQ also causes the appearance of even harmonic currents L, the circuit of which closes with current loop q. The absence of even harmonic currents in the consumed current 1 is ensured by the equidistance of the sections and thyristors 3 in each phase of the device.

The inductance of the compensating throttle limits the value of current to 2, which eliminates nonlinear distortions in the consumed current.

Numerical calculations and experiments on models show that the highest efficiency of suppressing nonlinear distortions is achieved at

5 compensating throttles not exceeding 25% of the power of the device as a whole; . Because each device phase

0 has an independent circuit that closes the even harmonics of the current l, and the suppression of nonlinear distortions in tokahphase i occurs with phase-by-phase control. Device performance

5 is determined by the speed of the thyristor control system. The change in the magnitude of the current I after a change in the angle of control, об occurs during a period of change in its frequency and does not

0 depends on the inductance of the device, since the magnetic energy of the device’s hydroxy phase during the period passes through a zero value.

Claims (1)

ELECTRIC INDUCTION DEVICE, for example, an electric magnetization reactor containing a multi-rod magnetic system, an ac winding, divided into two parallel branches, each of which consists of two sections located on different rods and connected in accordance with one of the branches, for example the first are made with the tap from part of the turns, to which thyristors are connected, connected in opposite to each other, characterized in that, in order to improve performance and ensure sinusoidality in the current being drawn in the symmetric mode and with phase-by-phase regulation as a three-phase type, each phase of which consists of the mentioned parallel / A branches placed in pairs Π131Λ DC 1 BCrl ~ ___. . ____ adjacent rods, each of the windings of the inductor connected to the thyristor connection ί ί