RU2009564C1 - Bimetal disk relay - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: bimetal disk relay has a casing, a bimetal disk sensitive member with a pusher, a plate-type spring and a single-arm lever, which are made like asymmetric loops. The plate-type spring and single-arm lever are perpendicular to each other and mounted on the same current-conducting contact, being made as an integral part. EFFECT: reduced size, simplified assembly. 2 dwg

Description

 The invention relates to electrical engineering, in particular to a relay used to control and signal thermal processes, and can be used for automatic control, regulation, protection and signaling of thermal processes.

 The closest is a bimetallic disk relay device by a. with. 1660522, H 01 H 37/40.

 The improved bimetallic relay contains a housing, a disk bimetallic sensing element with a pusher, a leaf spring and a one-arm lever, made in the form of asymmetric loops, a leaf spring is fixed at one end to a current-supplying contact, and a movable contact is installed at its other end. The one-arm lever is fixed at one end to a second current-carrying contact, and a pusher of electrical insulating material is installed at the second end.

 The disadvantages of the known relays include the placement of a leaf spring and a single arm in the same plane, which increases the height of the relay, and the separate mounting of these elements on the lid complicates the assembly technology.

In the proposed relay, the leaf spring and the single arm are placed at 90 ^° relative to each other and are mounted on a single current-carrying contact and represent a single part. Such a constructive solution allows reducing the dimensions of the relay, and the implementation of a leaf spring and a single-arm lever in the form of a single part improved the relay assembly technology.

 In FIG. 1 and 2 show a longitudinal section of the relay in two mutually perpendicular planes.

 The relay consists of a metal housing 1, cover 2, made of an insulating material. On the cover 2 there are current-carrying contacts 3 and 4. A leaf spring 5 and a single-arm lever 6 are mutually perpendicular to each other, made in the form of asymmetric loops, fixed to the current-carrying contact 3. A contact 7 is fixed on the moving end of the spring 5, and a protrusion 8, which is the second pusher, is made on the moving end of the single-arm lever 6. At the bottom of the housing 1 is placed a bimetallic disk heat-sensitive element 9. Inside the housing 1, a flange 10 with a pusher 11 is installed.

 Bimetallic disk relay operates as follows.

 When changing, for example, increasing the temperature of the controlled medium, the disk 9 gradually bends, reducing its deflection. Having reached the temperature of direct operation; the disk 9 cotton changes the direction of the deflection and moves the pusher 11 upward, acting on the single-arm lever 6, which in turn protrudes the leaf spring 5 with the protrusion 8, which moves the movable contact 7 and closes it with the current-supplying contact 4, thereby closing the electric circuit.

 When the temperature decreases, the disk 9 decreases its deflection in the other direction and when the return temperature is reached, the cotton returns to its original position with the pusher 11, under the action of the elastic forces of the leaf spring 5 and the one-armed lever 6, the contacts 4 and 7 open.

 Thus, the proposed relay has a simpler design solution that allows to simplify the assembly technology while maintaining the operating parameters of the device. (56) Copyright certificate of the USSR N 1660522, cl. H 01 H 37/40, 1989.

Claims (1)

 BIMETALLIC DISK RELAY, comprising a housing, a bimetallic disk thermosensitive element with a pusher, a spring-loaded pivotally mounted single-arm lever, a leaf spring fixed at one end to one of the current-supplying contacts, and a movable contact fixed at the other end of the leaf spring, and a leaf spring in the form of asymmetric loops, characterized in that, in order to reduce dimensions and improve assembly technology, a leaf spring and a one-arm lever g made in a single piece, are arranged mutually perpendicularly and fastened to the same current supply contact.

Images