SU1045284A1 - Three-phase controlled reactor - Google Patents

Abstract

THREE-PHASE .MANAGING REACTOR, containing a symmetric three-core spatial magnetic circuit with two closed riami, a sectioned direct current winding, located on the ff-fu Ш f ff ff / N max, windings of the alternating current, main and additional, connected in a circular wire and one wire and a hearth. and the other, in a triangle, connected in parallel, each phase of one of the windings being made of two sections placed on different frames and connected in series-according, characterized in that, in order to reduce the consumption of active materials and higher harmonics in the current consumed over the entire control range, each. and the phase of the other winding is also made of two sections, placed. on different frames and connected according to (O therefore-according to.. ff f f f f f 1 t t W W ,, PJB, p of Fig. /

Description

The invention relates to electrical engineering and can be used as a continuously adjustable inductive resistance in electrical networks.

The known design of a controlled reactor containing a three-core symmetrical magnetic circuit with two closed frames, an alternating current winding located on the rods, a partitioned direct current winding located on the frames and connected in an open triangle, to the terminals of which a compensating choke is connected and a DC source current 1.

A disadvantage of the known construction is the large additional losses in the medical windings and structural elements, due to increased scattering fields, losses in the control circuit, due to the presence of additional compensating thrusts, as well as increased structural complexity.

Closest to the proposed technical essence and the achieved result is the construction of a three-phase controlled reactor containing a symmetric three-rod spatial magnetic circuit with two closed frames, a sectioned DC winding located on the frames, AC windings, main and additional, one of which is connected into a star, and the other into a triangle, connected in parallel, with each phase of one of the windings made of two sections placed on different frames and Connections according poledovatelno-L2j.

The disadvantage of this design is the increased consumption of active materials due to the placement of the main and additional windings in different parts of the magnetic circuit, which entails an increase in the size of the magnetic circuit, and the additional investment of insulating materials, as well as the inability to ensure the sinusoidal current consumption in the whole range of regulation for having higher gars

MONIC.

 invention - reducing the solution of active materials and higher

45

harmonics in the consumed current over the entire control range. |

To achieve this goal, in a three-phase controlled reactor, 5 containing a symmetric three-core magnetic core with two closed roma, a sectioned DC winding located on the roma, the winding of the projected current, main and additional, one of which is connected in a star, and the other is in a triangle connected in parallel, with each phase of one of the windings being made ts of two sections, placed at different times. They are connected in series with each other - each phase of the other winding is made of two. sections placed on different frames 20 connected in series according to,

Figure 1 shows the scan of the magnetic circuit with the placement of the windings; Fig. is a diagram of the connection of sections 25 of the main and auxiliary windings of alternating current,

The three-phase controlled reactor contains a symmetric three-core magnetic core 1 with two closed romes, a sectioned DC winding 2 located on the rods, an alternating current winding, main and additional, one of which is connected to a star and the other is connected in parallel, in parallel each phase of one of the windings, for example the main one, is made of two sections 3 and 1, placed on different frames and connected in series according to, and each phase of the other winding, for example tion is also made of two sections 5 and 6 are arranged on different rmah and soedi-: serial-nennyh; but according to.

The device works as follows.

Connecting a star and a triangle connected in parallel to the network provides, due to the presence of a phase shift between the star and the triangle, compensation of the fifth and seventh order harmonics S of the total magnetizing force rem. The breaking of the alternating current winding into the main and additional, consisting of two connected in series-different sections of different rem, provides the same phase shift in the first harmonic in 3 both frames. As a result, if the equal bias of both rem the dual symmetric magnetization is realized. from the curve of the current consumption of even harmonics. To fully compensate for harmonics of the fifth and seventh order, the windings connected in parallel with a star and a triangle can also be placed on the rods of the magnetic circuit. Since the rods do not have a constant flow of the bias, in most cases the additional AC winding can be dispensed with, and the distortion of the consumed current of the reactor will not exceed 1, since the value of the higher uncompensated harmonics of the rods is determined by the idle mode and does not depend on the sub84. 4 magnetization, and, moreover, the sizes of the rods are small due to the absence of any windings on them. The location of all the windings, the concentric magnetization of the areas on which the AC windings are located, leads to a reduction in the field of dissipation and additional losses to values occurring in modern transformers and reactors. In order to simplify the technology of manufacturing windings located on the frames, the latter can be made split , detachable. At the same time, there will be a slight increase in the no-load current, but for controlled reactors, used, as a rule, in combination with condenser reactors and batteries, such an increase is not critical.

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Claims (1)

THREE-PHASE CONTROLLED REACTOR, containing a symmetrical three-core spatial magnetic core with two closed yokes, a sectioned DC winding located on the yokes, alternating current windings, main and additional, one of which is connected to a star and the other to a triangle connected in parallel, moreover, each phase of one of the windings is made of two sections placed on different yokes and connected in series, according to which, in order to reduce the consumption of active materials and ysshih harmonics in the consumed current in the whole control range, every other phase of the winding is also made of two sections arranged at various yokes and a series-connected in accordance. 1 I