RU2287870C2 - Electromagnetic operating mechanism of high-voltage circuit breaker - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: proposed electromagnetic operating mechanism has magnetic circuit 1 in the form of body of revolution built of two parts: armature 2 and stator 3; jointing plane 4 between them is perpendicular to axis of revolution 5. Coil 7 is disposed within cavity 6 of magnetic circuit 1. Geometric figure forming body of revolution has section in the form of outwardly convex curve 8 or in the form of broken convex curve joined by arcs. Geometric figure may consist of two parallel straight lines 9 and 10 perpendicular to axis of revolution 5 and joined with curve 8 that can be made in the form of circle arc on external radius of revolution and third straight line aligned with axis of revolution 5. Such magnetic circuit is small in size. Operating mechanism whose magnetic circuit is made in the form of circular torus has better "holding force/mass" characteristic.

EFFECT: enhanced holding force of operating mechanism.

5 cl, 4 dwg

Description

The invention relates to the field of electrical engineering, and specifically to electromagnetic drives of high voltage magnetic latch circuit breakers.

Known electromagnetic drive, consisting of a magnetic circuit, anchors and on and off coils (RF Patent No. 2214640, published October 20, 2003, Bull. No. 29, IPC N 01 N 33/666).

Such an electromagnetic drive, containing a lined magnetic circuit, an armature, two field coils and two permanent rare-earth metals magnets, is complex in design, expensive, and has a relatively large mass relative to the developed holding force when mounted on a magnetic latch.

A known electromagnetic drive containing a magnetic circuit made in the form of a hollow body of revolution, consisting of an armature and a stator, and a coil is placed in the cavity of the magnetic circuit (RF Patent No. 2020631, filed 02.04.92, published 09.09.94. Bull. No. 18, IPC N 01 N 33/66).

The disadvantage of this drive design is as follows. The design of the magnetic circuit and the armature, rectangular in cross-section, leads to the fact that in the areas of angles the magnetic flux forms zones of under-magnetization and magnetization reversal, and this negatively affects the “retention force / mass of the drive” indicator, one of the main indicators of an electromagnetic drive with a magnetic latch.

The objective of the proposed technical solution is to obtain the design of the electromagnetic drive of a high-voltage circuit breaker with a magnetic latch, in which the magnetic flux is more evenly distributed over the cross section of the magnetic circuit, which will increase the value of the indicator "retention force / mass of the drive".

The problem is solved due to the fact that the electromagnetic drive of the high-voltage switch contains a magnetic circuit made in the form of a body of revolution. The magnetic circuit consists of two parts - the anchor and the stator, the plane of the connector between them is perpendicular to the axis of rotation. A coil is located in the cavity of the magnetic circuit. The generatrix of the body of revolution contains at least one section made in the form of a curve convex to the outside or convex broken, conjugated by arcs, located on the periphery of the body of revolution.

In addition, the generatrix of the body of revolution can consist of two parallel straight lines perpendicular to the axis of rotation and conjugated with an arc of a circle located on the external radius of rotation.

In the particular case of the magnetic circuit and the cavity under the coil in the magnetic circuit can be made in the form of a circular torus.

Figure 1 shows the electromagnetic drive in the off position; figure 2 - electromagnetic drive in the "on" position; figure 3 and 4 - electromagnetic drive in the form of a circular torus.

The electromagnetic drive of the high-voltage switch contains a magnetic circuit 1, made in the form of a body of revolution. The magnetic circuit 1 consists of two parts - the armature 2 and the stator 3, the plane of the connector 4 between them is perpendicular to the axis of rotation 5. In the cavity 6 of the magnetic circuit 1 is a coil 7. The generatrix of the body of revolution contains a section in the form of curve 8, convex to the outside or convex broken, conjugate arcs.

In the particular case, the generatrix of the body of revolution can consist of two parallel straight lines 9 and 10, perpendicular to the axis of rotation 5 and conjugate to curve 8 (which can be made in the form of an arc of a circle) located on the outer radius of rotation (at the periphery of the body of revolution), and the third straight line, coinciding with the axis of rotation 5. Such a magnetic circuit has small dimensions.

The drive with the magnetic circuit, made in the form of a circular torus (Fig.3 and 4), has the best characteristic "holding force / mass of the drive."

The electromagnetic drive operates as follows. In the first fixed position "off", shown in figure 1 between the armature 2 and the stator 3, a working gap is formed, the coil 7 is de-energized. When voltage is applied to the coil 7, the armature 2 is attracted to the stator 3, and when they are touched, a magnetic latch is applied.

The use of the invention allowed to increase the holding force of the electromagnetic drive when setting on a magnetic latch with a constant mass of the drive.

Claims (5)

1. An electromagnetic drive of a high-voltage circuit breaker, comprising a magnetic circuit made in the form of a body of revolution, consisting of two parts - an armature and a stator, with a plane of separation between them, perpendicular to the axis of rotation, and a coil located in the cavity of the magnetic circuit, characterized in that it forms a body of revolution contains at least one section in the form of a curve convex to the outside, or convex broken, conjugated by arcs, located on the periphery of the body of revolution. 2. The electromagnetic drive of the high voltage switch according to claim 1, characterized in that the generatrix of the body of revolution contains two parallel straight lines perpendicular to the axis of rotation and conjugate to a curve convex to the outside. 3. The electromagnetic drive of the high voltage switch according to claim 2, characterized in that the curve convex to the outside has the shape of a circular arc. 4. The electromagnetic drive of the high voltage switch according to claim 1, characterized in that the magnetic circuit is made in the form of a circular torus. 5. The electromagnetic drive of the high voltage switch according to claim 1, characterized in that the cavity under the coil in the magnetic circuit is made in the form of a circular torus.

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