RU144843U1 - ELECTROMAGNETIC SWITCHING MACHINE - Google Patents

Abstract

1. Electromagnet switching apparatus comprising a housing, a U-shaped magnetic system with a core and an armature, a coil placed on a core mounted on a plate shock absorber in the housing, fixed and movable contacts with return springs, arc brackets, a crosshead and a cover, the armature being connected with a traverse by means of a curved plate, characterized in that the housing consists of lower and upper parts, side dampers are placed in the grooves of the core and the core is fixed relative to the lower part the case with a plate shock absorber and side shock absorbers by means of clamps, the coil is mounted on step L-shaped shock absorbers placed in the grooves of the lower part of the body, and pressed to them by shock absorbers installed in the racks of the upper part of the body, and a plate shock absorber is located between the curved plate and the armature, and the plate is rigidly connected to the traverse. 2. An electromagnetic switching device according to claim 1, characterized in that two spring shock absorbers are installed between the lower part of the housing and the traverse. 3. An electromagnet switching apparatus according to claim 1, characterized in that the plate shock absorber is made of two parts, each of which is installed in a recess on the base of the housing, equipped with protruding spikes included in the corresponding grooves of the plate shock absorber. 4. An electromagnetic switching apparatus according to claim 1, characterized in that the clamp is made in the form of a plate with bent sides, the distance between the bent sides corresponds to the length of the side shock absorber. 5. Electromagnetic switching

Description

The utility model relates to the field of electrical engineering and can be used in the construction of electromagnetic relays, contactors and starters.

The closest set of essential features to the claimed solution is an electromagnetic switching device according to patent RU No. 80062

The specified electromagnetic switching device - the prototype contains a housing in which a linear electromagnet with a Sh-shaped anchor and a core is installed, on the middle core of which is a coil, a block with fixed contacts, a cover fixed to the block, shock absorbers connected to the core, a crosshead with movable contacts associated with the anchor, return springs, characterized in that the anchor has a rectangular hole in which a curved plate is mounted, fixed at its ends in a traverse e, a rectangular hole is made in the core, in which a plate is installed, the ends of which are connected to shock absorbers fixed between two protrusions made on the sides of the housing base.

2. The electromagnetic switching apparatus according to claim 1, characterized in that the core is additionally mounted on a plate shock absorber in the base of the housing.

This device provides the following to reduce vibration:

- the anchor is connected to the traverse by means of a curved plate placed in a rectangular hole of the anchor, the protruding ends of this plate are fixed in the traverse (a curved plate not only connects the anchor to the traverse, but also absorbs vibrations)

- a rectangular hole is made in the core in which the plate is mounted, the protruding ends of the plate are covered by elastic rectangular shock absorbers, thus, the core rests on the housing through the shock absorbers;

- the core is installed on the base of the housing on a plate shock absorber;

However, such a combination of shock absorbing means does not provide the necessary level of vibration reduction that occurs during operation of the switching apparatus, which negatively affects the reliability of its operation.

Shock absorbers cannot provide reliable absorption of vibrations of a rather massive core, since they are not fixed by anything.

A plate shock absorber located between the base of the case and rather thin and large in area, with distortions of the core of elasticity of such a plate is not enough to completely dampen vibrations.

The presence of a curved plate connecting the anchor with the traverse also does not provide reliable damping.

The objective of this utility model is to increase the reliability of the apparatus by reducing vibration during its operation.

To solve the problem in an electromagnetic switching device containing a housing, a U-shaped magnetic system with a core and an armature, a coil placed on a core mounted in a housing on a plate shock absorber, fixed and movable contacts with return springs, arc brackets, a crosshead and a cover, moreover, the anchor is connected to the traverse by means of a curved plate, according to a utility model, the housing consists of lower and upper parts, side dampers and a core are placed in the grooves of the core fixed relative to the lower part of the body with a plate shock absorber and side shock absorbers by means of clamps, the coil is mounted on step L-shaped shock absorbers placed in the grooves of the lower part of the body, and pressed to them by shock absorbers installed in the racks of the upper part of the body, between the curved plate and the armature a plate shock absorber is located, and the plate is rigidly connected to the traverse.

Two spring shock absorbers are installed between the lower part of the body and the traverse.

The plate shock absorber is made of two parts, each of which is installed in the recess on the base of the housing, equipped with protruding spikes included in the corresponding grooves of the plate shock absorber.

The clamp is made in the form of a plate with bent sides, while the distance between the bent sides corresponds to the length of the side shock absorber.

The curved plate is connected to the traverse by means of threaded connections.

Thus, the introduction of a number of shock absorbers into the vibration protection system (between the lower part of the body and the traverse, in the grooves of the coil, in the grooves of the lower part of the body, between the armature and the traverse), as well as the use of clamps that fix the position of the core relative to the lower part of the body through the plate and side shock absorbers, fixing the position of the coil relative to the lower and upper parts of the body through step-shaped shock absorbers and shock absorbers in the racks of the upper part of the body, as well as pressing the armature to the traverse through the plate second shock absorber provides reliable prevention of vibration during operation of the switching device, which reduces noise and greatly improve the reliability of the system and the life of its components.

Patent studies have shown that the claimed device meets the criterion of "novelty."

The inventive device meets the criterion of "industrial applicability".

The essence of the utility model is illustrated by drawings, where in FIG. 1 and 2 are sections of an electromagnetic switching apparatus.

The electromagnetic switching device contains the upper 1 and lower 2 parts of the housing, a cover (not shown), a U-shaped magnetic system with a core 3 and an armature 4.

On the cores of the core 3 is located including the coil 5.

At the base of the lower part 2 of the housing, a rectangular recess 6 and a through central hole 7 are made.

The core 3 is installed in the recess 6 of the base of the lower part 2 of the housing on two spaced-apart recesses 6 of elastic plate shock absorbers 8 spaced apart.

Thus, the plate shock absorber 8 is made of two identical rectangular rubber gaskets, each of which is installed in a recess in the base of the lower part 2 of the housing, equipped with protruding spikes included in the corresponding grooves on the lower surface of the rubber gaskets of the plate shock absorber 8.

In two side grooves made in the lower part of the core 3, two side shock absorbers 9 are placed. Each side shock absorber 9 has the shape of an elongated rectangular parallelepiped.

The core 3 is pressed against the side shock absorbers 9 and to the base of the lower part 2 of the housing with plate shock absorbers 8 by means of clamps 10 and a threaded connection 11.

The clamp 10 is made in the form of a plate with an opening for a threaded connection 11 and with bent sides. The distance between the bent sides corresponds to the length of the side shock absorber 9, which ensures its reliable fixation.

The inclusion coil 5 is mounted on the core core 2 and fixed on it in such a way that its lower base rests on step shock absorbers 12 located in the grooves of the lower part 2 of the housing and is pressed against the step shock absorbers 12 by means of stops with shock absorbers 11 made in the upper part 1 corps.

Anchor 4 is fixed in the traverse 13 by means of a curved plate 14 rigidly connected to the traverse 13. Between the curved plate 14 and the armature 4 there is another plate shock absorber 15. The curved plate 14 has a rectangular shape and is provided with a central longitudinal stamping that forms a cavity for the possibility of deformation of the plate shock absorber fifteen.

Between the lower part 2 of the housing and the traverse 13 has two spring shock absorbers 16.

An electromagnetic switching device operates as follows.

When power is applied to the switching coil 5, the anchor 4 is attracted to the core 3, the movable bridge contacts are closed with the fixed contacts by moving the beam 13 connected to the armature 4 by means of a curved plate 14.

When you turn off the power from the coil 5, the anchor 4 returns to its original position under the action of return springs 17.

Claims (5)

1. Electromagnet switching apparatus comprising a housing, a U-shaped magnetic system with a core and an armature, a coil placed on a core mounted on a plate shock absorber in the housing, fixed and movable contacts with return springs, arc brackets, a crosshead and a cover, the armature being connected with a traverse by means of a curved plate, characterized in that the housing consists of lower and upper parts, side dampers are placed in the grooves of the core and the core is fixed relative to the lower part the case with a plate shock absorber and side shock absorbers by means of clamps, the coil is mounted on step L-shaped shock absorbers placed in the grooves of the lower part of the body, and pressed to them by shock absorbers installed in the racks of the upper part of the body, and a plate shock absorber is located between the curved plate and the armature, and the plate is rigidly connected to the traverse. 2. An electromagnetic switching device according to claim 1, characterized in that two spring shock absorbers are installed between the lower part of the housing and the traverse. 3. The electromagnet switching apparatus according to claim 1, characterized in that the plate shock absorber is made of two parts, each of which is installed in a recess on the base of the housing, equipped with protruding spikes included in the corresponding grooves of the plate shock absorber. 4. The electromagnetic switching apparatus according to claim 1, characterized in that the clamp is made in the form of a plate with bent sides, and the distance between the bent sides corresponds to the length of the side shock absorber. 5. The electromagnetic switching apparatus according to claim 1, characterized in that the curved plate is connected to the traverse by means of threaded connections.