SU892488A1 - Three-phase controllable saturation choke - Google Patents

Description

I

The invention relates to electrical engineering, in particular to the design of controlled chokes, and can be used in electric drive control devices, as well as a reactor in power supply circuits of industrial enterprises for limiting short circuit currents and voltage stabilization, in energy systems as regulating a link in the schemes of static compensating devices, when testing electrical machines and apparatuses as continuously adjustable over a wide range of inductive loads.

A three-phase ferromagnetic controlled reactor is known, which contains a laminated magnetic core made in the form of a hexagonal prism, on the rods of which there are sections of the working winding and on a continuous-winding frame.

The drawback of the device is the great structural complexity of the design, as well as the presence of two windings — the operating and control windings.

The closest to the proposed technical essence and the achieved result is a three-phase controlled saturation throttle containing magnetic cores and a three-phase working winding of variable Toka made of six coils connected to two parallel stars forming two equipotential vigals made with the possibility of connecting direct current source 2.

However, the device has a high consumption of electrical steel, a small power gain and a small control range.

The purpose of the invention is to reduce electrical steel consumption.

increase in power gain and control range.

The goal is achieved by the fact that in a three-phase controlled saturation choke containing magneto, wires and a three-phase working winding of alternating current made of six according to the included coils connected into two parallel stars forming two equipotential outputs made with the possibility of connecting a direct current source The magnetic cores are made of three cores, on the extreme rods of which the winding coils of different phases are placed.

The drawing shows a schematic diagram of the connections of a three-phase controlled throttle of the saturation.

The choke contains three three-core magnetic cores with the same cross section of rods. Coils of three-phase winding belonging to different phases are placed on each extreme rod. There are a total of six according to the included AC coils, two coils per phase. The coils in the phases are connected in parallel and connected to two parallel stars with two isolated equipotential terminals with respect to the alternating voltage, to which it is possible to connect a source of controlled direct current relative to which six Drossel coils form three parallel branches with two successively connected windings in each branch.

When connected to an equipotential terminal of a constant-voltage power source, a constant current flows through the coils (indicated by arrows), which magnetizes the drossel magnetic circuits in a directional flow. The direction of the constant magnetic flux coincides with the direction of the direct current 1y (shown by arrows). Due to the non-linear nature of the magnetization curve of steel in magnetic circuits, their magnetic permeability decreases and the inductance of the windings proportionally decreases. Consequently, by varying the clamping of the magnetic cores with the help of a magnetisation by direct current, it is possible to change the inductance of the throttle within wide limits.

Claims (1)

1. USSR author's certificate number 486385, cl. H 01 F 29/14, 1973. 2, Patent of Germany No. 896091, cl. 21, 1953.