RU86793U1 - ELECTROMAGNETIC DRIVE - Google Patents

Abstract

An electromagnetic drive comprising a magnetic circuit with a control coil, a main anchor, a free tripping anchor, which disconnects a spring and a free tripping spring, characterized in that the working surfaces of the main armature and a free tripping arm are located in mutually perpendicular planes, and the tripping spring and a free tripping spring are on one side fixed respectively to the main anchor and to the free trip anchor, and other sides are fixed along the edges of the L-shaped lever placed on and rotation.

Description

The utility model relates to electrical engineering, in particular to protective switching equipment, and can be used in devices of automatic high-speed circuit breakers.

Electromagnetic drives of automatic high-speed circuit breakers are known from the following sources:

1. Patent RU No. 2239253, 2006;

2. Patent RU No. 2321095, 2006;

3. Patent RU No. 71027, 2007;

The closest to the patentable should be considered an electromagnetic drive according to the first source (patent RU No. 2239253).

The drive contains an H-shaped magnetic circuit with a holding coil, which disables the spring, the spring of free tripping, the main armature, the anchor of free tripping and traction.

When the switching current flows through the holding coil to the magnetic circuit, the main armature and the free trip armature are simultaneously attracted. The switch becomes in the up position as long as the switching current flows through the holding coil. After about 0.5 seconds. the holding coil switches to a lower holding current. The free trip armature cannot be held by the magnetic current of the holding current in the drawn position, it falls off the magnetic circuit, and the contacts of the circuit breaker close.

The disadvantage of this electromagnetic drive is the large size along the length when the anchors are located on opposite ends of the magnetic circuit. This arrangement necessitates the use of long rods, and the drive itself occupies a large amount of working space.

In addition, the manufacturing technology of the H-shaped magnetic circuit requires large labor costs and the material used, which is economically impractical and indicates the high price of the manufactured circuit breaker with such a drive.

The utility model solves the problem of creating a simple in design electromagnetic drive.

The technical result, which is created by the utility model, consists in reducing the length of the drive, improving manufacturability in the manufacture and ease of control of the drive during operation.

To ensure a technical result, the working surfaces of the main anchor and the free trip anchor are located in mutually perpendicular planes, and the disconnecting spring and the free trip spring are fixed on one side respectively to the main anchor and to the free trip anchor, and on the other sides are fixed along the edges of the L-shaped lever placed on the axis of rotation.

The essence of the utility model is as follows.

This design solution allows you to perform one U-shaped magnetic circuit, from the side of the working surface of which the main anchor is fixed, and on the side, the free trip anchor. This allows you to reduce the length of the levers and the entire electromagnetic drive system, which allows you to free up a useful amount of working space, reduce material costs in the manufacture and, accordingly, reduce the cost of the entire device.

The utility model is illustrated by an example implementation. Figure 1 schematically shows an electromagnetic drive in three projections in the off position; figure 2 - also in the upstream position, figure 3 - also in the on position.

The electromagnetic drive contains a magnetic circuit 1 with a control coil 2, the main anchor 3, the free trip anchor 4, the disconnecting spring 5 and the free trip spring 6. The main anchor 3 is mounted on the axis 7, and I the free trip 4 on the axis 8. L-shaped lever 9, is fixed on the axis of rotation 10 with the possibility of rotation around it and is spring-loaded with a disconnecting spring 5 at one end, and a free-release spring 6 at the other end.

The electromagnetic drive operates as follows.

When a signal to turn on, a switching current flows through the control coil 2. The main armature 3 and the free trip armature 4 are simultaneously attracted to the magnetic circuit 1 by rotating around the axis 7 and 8. respectively. The main armature 3 pulls the movable contact of the switch (not shown). The free trip anchor 4 is attracted to the magnetic circuit 1, compressing the free trip spring 6. On the other hand, the forces of the trip spring 5 through the lever 9 act on the free trip spring 6. The main armature 3 continues to be attracted by compressing the trip spring 5. In this position, the switch becomes in the up position (figure 2), the contacts do not close.

Then, the control coil 2 switches to a much smaller holding current. The free trip armature 4 cannot be held by the magnetic current of the holding current in the pulled position and falls away from the magnetic circuit 1. At the same time, the contacts of the switch are put into the on position. The drive is ready for immediate shutdown. In this way, the circuit breaker can be tripped freely.

Thanks to the proposed design of the electromagnetic drive, the length of the drive is reduced, the manufacturability of the structure during manufacture is ensured, and the convenience of controlling the drive during operation is ensured. In addition, the movable structural elements of the patented drive, in comparison with the elements of the prototype, have a lower mass and dimensions, and therefore lower cost of the switch.

Claims (1)

An electromagnetic drive comprising a magnetic circuit with a control coil, a main anchor, a free tripping anchor, which disconnects a spring and a free tripping spring, characterized in that the working surfaces of the main armature and a free tripping arm are located in mutually perpendicular planes, and the tripping spring and a free tripping spring are on one side fixed respectively to the main anchor and to the free trip anchor, and by other sides fixed to the edges of the L-shaped lever placed on and rotation.