SU1078478A1 - Double electric reactor - Google Patents

Abstract

1. DUAL ELECTRIC REACTOR containing at least two equal windings with one common input, the turns of which are located symmetrically relative to the middle of their height and are included opposite, distinguished by the fact that, in order to increase reliability by increasing electrodynamic stability, the windings are concentrically on the same level. 2. Reactor pop. 1, characterized in that the windings alternate with each other in the radial direction.

Description

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The invention relates to electrical engineering, namely to electric reactors for high nominal currents.

A dual reactor is known which contains two inductively connected branches, each of which is made as separate sections (winding parts) alternating in height so that next to the section of one of the branches is a section of the other branch Cl.

The density distribution of ampervits relative to the plane perpendicular to the axis of the reactor and passing through the middle of its height is constant and the direction of the amper turns is opposite (in sections). This arrangement is due to the desire to obtain a high ratio between the branches. In addition, this mutual arrangement of the branches provides a sufficiently high electrodynamic resistance at short-circuit. behind both branches of the reactor at the same time (the mode of oppositely directed short-circuit currents).

The disadvantages of this reactor are the need to increase the insulation between sections of different branches, which leads to an increase in overall dimensions and additional material consumption, and a narrow range of possible variations in the coupling coefficient, which is in the range of values close to unity, which limits the range of j Since, in electrical installations, the coupling coefficient of twinned reactors is limited to the range of 0.4-0.6 according to the conditions for increasing the voltage on the disconnected branch at a short circuit. on another branch.

Closest to the proposed svodnennye electric reactor contains two windings of equal height with one common input, the windings of which are located symmetrically with respect to the middle of their height and are included in the opposite direction. In this case, the windings have the same diameter and are located one above the other 2.

The disadvantage of the known reactor is the low electrodynamic resistance in the mode of oppositely directed short-circuit currents, which is caused by the appearance of significant repulsive forces between the branches in this mode. The counter-directed short-circuit currents. often arises due to the breakdown of isolation on one of the branches when short to earth in another. In addition, the dangerous value of counter currents directed along the branches can also be realized during the self-starting of engines connected to both branches of the reactor. A typical type of damage to the reactor in this mode is the column gap between the branches. To ensure

electrodynamic resistance of a dual reactor in the direction of oppositely directed currents short-circuit It is necessary to use a powerful collapsible design.

The purpose of the invention and increase the reliability of the reactor.

The goal is achieved by the fact that in a dual electric reactor containing at least two windings of equal height with one common input, the turns of which are located symmetrically relative to the middle of their height and are included opposite, the windings are concentrically at the same level.

In addition, the windings can alternate with each other in the radial direction.

Takar design provides sufficient dynamic stability of the reactor in all emergency conditions, so. as axial forces between the windings with a concentric arrangement are absent. Performing the windings from alternating branches allows to achieve the specified values of inductive resistances of the windings and the coupling coefficient between them.

In addition, a rigid insulating cylinder may be installed in the double reactor, on which the internal winding is wound. This makes it possible to increase the electrodynamic stability of the reactor.

Fig. 1 shows a dual electric reactor with a coupling coefficient, lying in the range of 0.4-0.6; Figure 2 is the same, with a coupling coefficient close to one; | on fig.Z - the same, with a rigid insulating cylinder.

/ Dual electric reactor 1

(Fig. 1) contains concentric windings 2 and 3. The inner winding 2 has a winding direction opposite to the winding direction of the outer winding 3. General input 4 is connected to a power source (not shown), and clamps 5 and 6 are connected to the load ( not shown).

When k.z. For both windings, a mode of countercurrent short-circuit currents occurs simultaneously. In this case, a radial compressive force acts on the internal winding 2, and an external force acts on the external winding 3. Due to the fact that the amp turns of all branches are distributed symmetrically flat, perpendicular to the axis of the windings and passing through their mid-height, there is no mechanical interaction between the branches in the axial direction.

The dual reactor may contain alternating in the radial direction concentric windings 7 and 8, with the windings 7 alternating in the radial direction with the windings B (Fig. 2).

In addition, the twin reactor may contain (Fig. 3) a rigid insulating cylinder 9, on which the internal winding 10 is supported. On both branches, the internal winding is subjected to a compressive force which is partially perceived by the cylinder, which increases the electrodynamic stability of the reactor in the mode of oppositely directed short-circuit currents.

Technical and economic efficiency from the use of the invention consists in increasing the reliability of the reactor and power supply and eliminating the cost of replacing the token-damaged short-circuit damaged by opposite directions. dual reactors.

Claims (2)

1. DOUBLE ELECTRIC REACTOR, containing at least two windings of equal height with one common input, the turns of which are located symmetrically relative to the middle of their height and are turned in the opposite direction, distinguishing with * that, in order to increase reliability by increasing electrodynamic resistance, the windings are located concentrically on one level. 2. Reactor pop. 1, characterized in that the windings alternate in a radial direction. 1 g ' b / - A -3 2 <5 FIG. ΐ (11) ί