SU1020871A1 - Bias reactor - Google Patents

Description

The invention relates to electrical engineering and power engineering, in particular, to ferromagnetic devices controlled by magnetic biasing and can be used as an arc-suppressing reactor in electric networks x 6-35 kV.

The known design of an electric reactor, controlled by transverse magnetization, contains the main windings and the magnetic core with rods made in separate sections, each of which consists of two adjoining ferromagnetic cylinders covered by a control winding section in the region of their contact, and the front parts of the sections are located inside ferromagnetic ring inserts Cl

 The disadvantages of this reactor are its structural complexity and high consumption of active materials.

Closest to the present invention is a bias-induced electric reactor containing coils of the main winding, control windings placed orthogonally to the coils of the main winding, and flat-welded magnetic core with rmas and stern, on top of which the windings of the main winding are located, and rm from. are separated from the rods by non-magnetic gaps, and the rods are made in the form of closed cores, on which the coils of the control winding 2 are placed.

A disadvantage of the known reactor is the increased dimensions.

The purpose of the invention is to reduce the size of the reactor.

The goal is achieved by the fact that in an electric reactor with bias containing the main winding coils, control windings placed orthogonally to the main winding coils and flat-bonded magnetic core with rods and rods, over which the coils of the main winding are placed, with the frame separated from the rods by non-magnetic gaps, and the rods are made in the form of closed cores on which the coils of the control winding are placed, the cores are made of two-sided, on each rod are placed the coils of cleaning control cables, and each of the magnetic cores is made split into two equal parts located on both sides of the side sections of the control winding.

In Fig. 1, a proposed reactor, a frontal projection, is shown, in Fig. 2, the same, a horizontal projection; fig.Z - the same, in the collection, a general view.

An electric bias reactor contains the coils of the main winding 1, the control windings 2 orthogonal to the coils of the main winding 1 and the flat-bonded magnetic core with the rm 3 and the cores of the main winding 1, and the rm 3 are separated from the rods by non-magnetic gaps, and the rods are made in the form of closed cores 4, on which the coils of the control winding 2 are placed, the cores 4 being double-core, each coil of the control winding 2 is placed on each rod. Each PMO 3 of the magnetic circuit is made split into two equal parts, located on both sides of the lateral sections of the coils of the control winding 2.

The reactor operates as follows.

The coils of the main winding 1 are connected to a source of alternating voltage — to cut the neutral of the power transformer. The alternating current circulating in the main winding creates an alternating magnetic flux circulating through the rods, completed in the form of closed cores 4 with the control winding coils 2, and pm 3 of the flat-plated magnetic circuit. The control winding 2 is connected to an adjustable DC source. When current flows through the coils of the control winding, a constant magnetic flux is generated in the closed cores 4. When the current in the control winding increases, the intensity of the constant magnetic field in the cores 4 increases, and their magnetic permeability decreases. Since the alternating magnetic flux of the main winding circulates through the side sections of the cores 4 free from the control windings, the magnetic resistance increases along the variable flow path when the magnetic permeability of the latter decreases and the current in the main winding increases accordingly. Thus, by changing the current in the control, it is possible to vary the amount of current in the main winding, which is the basis of the principle of operation of an electric reactor with biasing, thereby determining its scope, for example, as an arc-suppressing reactor to compensate for capacitive currents - when the capacity of networks varies widely.

Claims (1)

ELECTRIC REACTOR WITH MAGNETIZATION, containing coils ^ main winding, control windings. placed orthogonally to the coils of the main winding, and flat-layered ^{: a} magnetic circuit with yokes and rods, on top of which the coils of the main winding are placed, the yokes are separated from the rods by non-magnetic gaps, and the rods are made in the form of closed cores on which the coils of the control winding are placed, which that, in order to reduce the dimensions, the cores are made of double-core f coils of the control winding are placed on each rod, and each yoke of the magnetic circuit is split into two equal parts, p memory location on either side of the side portions Ka $ carcasses control winding. ''