SU826430A1 - Electromagnet - Google Patents

Description

one

The invention relates to electrical engineering, and more specifically to electromagnetic devices.

Electromagnets are known that contain an electric coil with a plunger mounted with a reciprocating movement and a permanent magnet l.

These electromagnets have a low sensitivity due to the passage of the working magnetic flux through the body of a permanent magnet.

Electromagnets are also known that contain a coil, a magnetic core including a magnet And a flange, a plunger mounted for reciprocating movement, and an annular permanent magnet 2,

These electromagnets also have a low sensitivity due to the inefficient use of a permanent magnet flux and a low resistance to mechanical effects due to the presence of a return spring in the design.

The purpose of the invention is to increase sensitivity by reducing the magnetizing force during operation and release, and to increase the resistance to mechanical stress.

The goal is achieved by the fact that the electromagnet is provided with another magnetic core containing platinum made of magnetically soft material and shunts made in the form of ring sectors, while the plunger abuts against a plate made of magnetically soft material, and the permanent magnet and shunts are arranged concentrically and mounted between the plate and flange.

FIG. 1 schematically shows the proposed electromagnet; in fig. 2 shows section A-A in FIG. one.

The electromagnet contains an electric coil 1. The magnetic core, which includes the RMO 2 and the flange 3, the plunger 4, and another magnetic core, which connects from the plate 5 and shunts 6 in the form of ring sectors, between the plate 5 and the flange 3 there is a permanent magnet 7 of the ring-shaped form shunts 6, with the length of the magnet and shunts equal to the sum of the thickness of the plunger head and the stroke. This allows the use of imecs in an electromagnet place without increasing its dimensions.

The main working air gap between the rod 2 and the plunger 4 is denoted by the number 8, between the plunger 4 and the flange 3 there is an idle air gap 9.

The electromagnet works as follows.

In the initial position, the plunger 4 is attracted to the plate 5 by a flow force of a permanent magnet passing along the path T, while it performs the function of a return spring. When current is supplied to the electric coil, there is 1 working magnetic flux, pass. on the way IJ, attracts a plunger. 4 to rm 2, simultaneously a part of the working magnetic flux, branching along path II1, acts counter to the flow of a permanent magnet and, therefore, reduces the force of attraction of the plunger 4 to the plate 5 (force of moving). As a consequence, the magnitude of the coil magnetizing force required to operate the electromagnet, i.e. The sensitivity of the electromagnet increases. The electromagnet, triggered, overcomes the force of the external mechanical load on which it operates, for example, the force of the contact springs, if the electromagnet is applied in a switching device.

The adjustment of the force of moving and the magnetizing force of the operation of the electromagnet is carried out by changing the number of shunts.

By providing the coil 1, the plunger returns to its original position under the action of an external mechanical load force; herewith due to

the absence of a return spring and the termination of the permanent magnet on the plunger in its final position, the total force returning the plunger to its initial position,

less compared with the known versions of electromagnets, as a result of which the magnetizing release force also decreases, which is important in many applications, for example, in networks where deep voltage drops are possible.

Claims (2)

1. US Patent No. 3892052, 335-229, 1978. 2. Patent of Great Britain No. 1238858, HI P, 1971. F L. FIG. one