RU224465U1 - VACUUM ELECTROMAGNETIC CONTACTOR - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to electrical switching devices that are used to switch on and off currents of asynchronous electric motors and other power receivers. The technical result consists in stabilizing the operating parameters of the contactor by reducing the likelihood of magnetization of the metal part of the housing. The vacuum electromagnetic contactor contains arc-extinguishing vacuum chambers and a contact system; the housing consists of two halves, one of which is made of metal and a coil system is attached to it. The coil system is fastened in such a way that between the plate on which the coils are attached and which is attached to the metal part of the housing, gaskets made of a material based on a non-conducting inelastic material are installed. 1 salary f-ly.

Description

The utility model relates to the field of electrical engineering, in particular to electrical switching devices that are used to switch on and off currents of asynchronous electric motors and other power receivers.

A contactor is known containing arc-extinguishing vacuum chambers and a contact system, described, for example, in patent RU 210998 U1. The body of such contactors consists of two halves, the upper one, made of plastic, into which arc extinguishing chambers are installed, and the lower one, made of metal, to which coils and springs are attached, ensuring the movement of the lever. The coil is attached to the metal by means of a metal plate. This may result in magnetization of the lower housing, which will affect the performance of the contactor and may attract foreign objects to the housing and affect the operation of surrounding equipment.

The claimed utility model is aimed at reducing the likelihood of magnetization of the metal part of the housing and achieves such a technical result as stabilizing the operating parameters of the contactor by eliminating the magnetization of its parts, the magnetization of which is not provided for by the design, and eliminating the influence of the magnetization of its housing on the surrounding equipment.

The technical result is achieved by a vacuum electromagnetic contactor containing arc-extinguishing vacuum chambers and a contact system, the body of which consists of two halves, one of which is made of metal and a coil system is attached to it. According to the utility model, the coil system is fastened in such a way that between the plate on which the coils are attached and which is attached to the metal part of the housing, gaskets made of a material based on a non-conducting inelastic material are installed.

The gaskets are made of thick cardboard.

The claimed utility model is implemented as follows.

When assembling the contactor, gaskets made of a material based on a non-conducting inelastic material are installed between the plate on which the coils are attached and which is attached to the metal part of the housing (for the purposes of this application, an inelastic material is a cellulose-based material, for example, cardboard or thick cardboard). This makes it possible to reduce the likelihood of magnetization of the metal part of the body and thereby achieve the specified technical result, and at the same time there will be no increase in vibrations from the coil system due to the elimination of the elasticity of such an additional element in the system, which can lead to failure of the device due to the influence to the connection nodes of the contactor elements.

From the point of view of achieving the stated result and eliminating negative effects in the form of vibrations, it is optimal to use cardboard or thick cardboard as a spacer, because Such a material, not under compression, has a low coefficient of elasticity, but at the same time dampens vibrations and is a sufficient insulator of both magnetic and electrically conductive properties for a given unit of an electromagnetic switching device.

Claims (2)

1. A vacuum electromagnetic contactor containing arc-extinguishing vacuum chambers and a contact system, the body of which consists of two halves, one of which is made of metal and a coil system is attached to it, characterized in that the coil system is fastened in such a way that between the plate, on which the coils are attached and which is attached to the metal part of the body, gaskets made of a material based on a non-conducting inelastic material are installed. 2. Contactor according to claim 1, characterized in that the gaskets are made of thick cardboard.