RU2659820C1 - Seven-rod three-phase magnified reactor - Google Patents

Abstract

FIELD: electrical equipment.

SUBSTANCE: invention relates to electrical equipment. Magnetic circuit of the reactor is composed of two O-shaped and one W-shaped, magnetically curved along the middle of the middle rod, in the form of a quadrilateral forming a top.

EFFECT: technical result consists in increasing reliability, simplifying, reducing losses.

1 cl, 1 dwg

Description

The invention relates to electrical engineering and is used in electrical systems.

Known three-phase magnetizable reactors (hereinafter PR) of the prismatic type / 1 /, containing three U-shaped magnetic circuits arranged in a triangle, and their bases are connected by yoke bridges, three network windings arranged so that each of them covers the lateral vertical sections of two adjacent P -shaped magnetic cores. The manufacturing technology of such a reactor is very laborious, because in order to maintain a constant gap at the vertices of the triangle, laden steel sheets of different sizes are required. The seven-rod three-phase magnetizable reactor 121, which contains seven vertical ferromagnetic rods connected to each other along the top and bottom by alternating length yoke bridges, network windings arranged so that each of them covers the lateral vertical sections of two adjacent rods, is widely known in the art. connected by short jumpers, and control windings located on each of the mentioned rods. The disadvantage of this device is the great complexity due to the presence of two extreme rods without windings.

The technical result of the invention is the simplification, reduction in size.

The technical result is achieved due to the fact that the rods and jumpers form a prism, which is closed by two additional yoke closing jumpers.

The drawing shows the design of the PR.

Seven vertical rods 1 are connected by yoke jumpers: short 2, long 3 and closing 4. Close rods 1 are pairwise covered by network windings 5. Magnetization windings 6 are placed on each of these rods 1. Magnetic cores are placed so that they form a prism. OL works in a known manner. It is a continuously adjustable three-phase inductance and is connected by windings 5 to high-voltage power lines and networks. Changing the direct current in the control windings 6, change the inductance of the network windings 5 PR, and therefore the reactive power consumed by him from the network. In this case, the number of rods becomes equal to seven instead of eight in the known ones. That is, the mass and dimensions are reduced.

Information sources

1. Bias-controlled shunt reactors. Dmitriev M.V. et al., Ed. prof. Evdokunina G.A., S. Petersburg, Izd. House "Rodnaya Ladoga", 2013, p. 15, Figure 1.3.

 2. RF patent for the invention No. 2217829, class. H01F 29/14.

Claims (1)

A seven-core three-phase magnetizable reactor containing seven vertical ferromagnetic rods interconnected at the top and bottom by alternating-length yoke jumpers, network windings arranged so that each of them covers the lateral vertical sections of two adjacent rods connected by short jumpers, and control windings located on each of the mentioned rods, characterized in that the rods and jumpers form a prism, which is closed by two additional yoke closing jumpers.

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