SU811353A1 - Electromagnetic relay - Google Patents

Description

The invention relates to electrical engineering, and more particularly to switching equipment.

Known electromagnetic relays containing fixed contacts, an armature, which is a movable contact and placed between the fixed contacts, and a magnetic circuit with a winding [1].

Known electromagnetic relays have significant dimensions and weight, limited switching capabilities and poor performance.

Also known are electromagnetic relays containing a magnetic circuit with pole tips, on which the windings are applied, a closed element of an elastic ferromagnetic material, which acts as an armature and movable contacts, and fixed contacts [2].

Known electromagnetic relays have significant dimensions and weight and limited switching capabilities.

The purpose of the invention is the reduction of dimensions and mass and the expansion of switching capabilities.

To this end, an electromagnetic relay containing a magnetic circuit with pole tips, on which windings are applied, a closed element of elastic ferromagnetic material, acting as an armature and movable contacts, is equipped with another closed element of elastic ferromagnetic material, the magnetic circuit is closed, the pole terminals are placed it is diametrically opposite on it, closed elements of an elastic ferromagnetic material are made composite so that each part of them is a separate anchor, both of the end of the armature fixed on the pole is each of the ends of the magnetic core motionless, with each of the anchors located between the corresponding fixed contacts, and each of the windings is placed on the magnetic circuit between its pole ends.

The magnetic circuit is made of a toroidal shape.

The drawing shows the proposed relay.

An electromagnetic relay contains a magnetic circuit 1 of a toroidal shape with windings 2-5 and pole terminals 6-9 placed diametrically opposite on the magnetic circuit, between which windings 2-5 are placed. Elements of elastic ferromagnetic material 811353, which are anchors 10–13 and at the same time serve as moving contacts, each of the anchors with their ends fixed to the pole pieces 6 and 7 of magnetic circuit 1. The anchors 10–13 from magnetic circuit 1 are separated by insulation layer 14.

Anchors can be made of spring-contact alloy or have concentrated contacts. Fixed contacts 15-22 are fixed on the base 23, where the above elements are located.

The electromagnetic relay operates as follows.

In the absence of current in windings 2–5, anchors 10–13 close contacts 15–18, respectively. When a signal is applied to windings 2–5, magnetic fluxes arise, the direction of which is indicated by dashed arrows. Magnetic fluxes provide attractive forces that cause elastic deformation of the anchors 10–13 and thereby the closure of contacts 19–22, respectively. When the windings 2-5 are de-energized, the anchors 10-13 return to their original position due to the forces of their own elasticity.

Claims (2)

Claim 1. An electromagnetic relay containing a magnetic circuit with pole tips, on which the windings are applied, a closed element made of an elastic ferromagnetic material, acting as an armature and movable contacts, and fixed contacts, characterized in that, with the aim of 5 reducing the size and weight and expanding switching opportunities, it is equipped with another closed element made of elastic ferromagnetic material, the magnetic circuit is made closed, the pole pieces are placed diametrically opposite on it, closed elements of elastic ferromagnetic material are made composite so that each component part 15 is a separate armature, both ends of each armature are fixed to the pole tips of the magnetic circuit, each armature is located between the respective fixed 20 contacts, and each of the windings is placed on the magnetic circuit between its pole tips. 2. Relay in π. 1, characterized in that the magnetic circuit is made of a toroidal shape.