RU114554U1 - ELECTROMAGNETIC VACUUM CIRCUIT BREAKER - Google Patents

Abstract

1. Electromagnetic drive of the vacuum circuit breaker, which includes a stationary part with a stepped cylindrical central hole of larger and smaller diameters, a movable part in the form of a hollow cylinder located inside this hole, on the outside of which a cylindrical protrusion is made, forming in one of the extreme positions of the movable part together with the lateral the surface of the central hole of a larger diameter and the wall of the hollow cylinder is an annular cavity, characterized in that at least one through hole is made in the wall of the hollow cylinder, which communicates the annular cavity with the atmosphere. ! 2. The electromagnetic drive of the vacuum circuit breaker according to claim 1, characterized in that sealing elements are placed between the movable and stationary parts of the electromagnetic drive, forming an annular cavity.

Description

The utility model relates to electrical engineering and can be used in electromagnetic drives of vacuum circuit breakers as shock absorbers.

A known electromagnetic drive of a vacuum circuit breaker containing fixed and movable parts with a depreciation device (CN 02257469.7 from 2002.09.26, patent CN 2570943 Y, IPC Н01Н 3/28). The disadvantage of this design is that the hydraulic shock absorber connected to the lever of the drive shaft increases the size of the switch.

A known electromagnetic drive of a vacuum circuit breaker, comprising a fixed part with a stepped cylindrical central hole of larger and smaller diameters. A moving part in the form of a hollow cylinder is placed inside this hole. On the outer side of the hollow cylinder, a cylindrical protrusion is made, forming in one of the extreme positions of the movable part, together with the side surface of the central hole of a larger diameter and the wall of the hollow cylinder, an annular cavity. (RU 2405237 published November 27, 2010, IPC Н02К 33/02).

The rubber washer used as a shock absorber is not efficient enough to operate.

The objective of this utility model is to reduce the shock load by reducing the speed in the final portion of the movement of the moving part of the electromagnetic drive.

The problem is solved due to the fact that the electromagnetic drive of the vacuum circuit breaker includes a fixed part with a stepped cylindrical central hole of larger and smaller diameters and a moving part in the form of a hollow cylinder located inside this hole. On the outer side of the hollow cylinder, a cylindrical protrusion is made, forming in one of the extreme positions of the movable part, together with the side surface of the central hole of a larger diameter and the wall of the hollow cylinder, an annular cavity. At least one through hole is made in the wall of the hollow cylinder, communicating the annular cavity with the atmosphere.

Between the moving and stationary parts of the electromagnetic drive, forming an annular cavity placed sealing elements.

The drawing shows the design of the electromagnetic drive in one of the extreme positions: the movable part on a magnetic latch, the anchor is pulled all the way.

The proposed electromagnetic drive of the vacuum circuit breaker contains a fixed part - a cylindrical stator 1, a coil 2 and a permanent magnet 3, a cover 4, insulation 5. In the fixed part 1 there is a central step hole of a larger 6 and less than 7 diameters. Inside this hole, a movable part of the electromagnetic drive is installed, consisting of an armature 8 and, fixed in its central hole, a support element 9 made in the form of a hollow cylinder. A cylindrical protrusion 10 is made on the outer side of the support element 9. In the extreme position, when the armature 8 is pulled all the way into the stator 1 (shown in the drawing), the surfaces of the larger central hole and the support element 9 form an annular cavity 11. In the wall of the support element 9 is made, at least one through hole 12, which communicates the annular cavity 11 with the atmosphere.

Between the movable and stationary parts of the electromagnetic drive, forming an annular cavity placed sealing elements 13.

In the inner space of the support element, coaxially with it, the following are installed: rod 14, disconnect springs 15 and preloaded 16, insulating rod 17.

The device operates as follows.

In the position when the armature 8 is pulled all the way into the stator 1 (shown in the drawing), the volume of the annular cavity 11 is maximum. The contacts in the vacuum chamber are in the closed position. When a shutdown command is issued, the voltage of reverse polarity is applied to coil 2, the induction in the magnetic system decreases, and the magnetic latch is reset. Anchor 8 together with the support element 9 moves to another extreme position. Since the volume of the annular cavity 11 decreases, air is blown out of it through the hole 12. At a certain location of the movement of the armature 8, the hole 12 is blocked by the surface of the hole of a smaller diameter 7, the air in the annular cavity is compressed, the reaction force of the compressible air reduces the impact force at the end of the armature 8 stroke.

Reducing shock loads reduces the likelihood of damage to the structural elements of the vacuum circuit breaker, in particular the vacuum chamber, therefore, increases the reliability of the vacuum circuit breaker.

Claims (2)

1. The electromagnetic drive of the vacuum circuit breaker, comprising a fixed part with a stepped cylindrical central hole of larger and smaller diameters, a movable part in the form of a hollow cylinder placed inside this hole, on the outside of which a cylindrical protrusion is made, forming in one of the extreme positions of the movable part along with the side the surface of the Central hole of larger diameter and the wall of the hollow cylinder an annular cavity, characterized in that in the wall of the hollow cylinder is made, according to At least one through hole communicating the annular cavity with the atmosphere. 2. The electromagnetic drive of the vacuum circuit breaker according to claim 1, characterized in that between the movable and stationary parts of the electromagnetic drive forming an annular cavity, sealing elements are placed.