RU2032956C1 - Bimetal disc relay - Google Patents

Abstract

FIELD: thermal relays. SUBSTANCE: with change of temperature in bimetal disc relay bimetal disc acts through pusher on single- arm lever which moves mobile contact with its bent end. Thanks to this design it is possible to get rid of second pusher. EFFECT: simplified design. 1 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.

 Known bimetallic relay (AS USSR N 1012366, class N 01 H 37/40), containing a bimetallic sensing element with a pusher interacting with the contact group and the bimetallic disk, tuning elements for adjustable potential.

 A bimetallic relay is known (USSR AS N 647763, class N 01 H 37/40), in the housing of which there is a bimetallic thermosensitive element with a pusher, a leaf spring, a spring-loaded one-arm lever interacting with a leaf spring and a pusher.

 These devices have a complex constructive solution, which complicates the assembly and configuration of the relay.

 The closest in design and technical essence is the bimetallic disk relay prototype, in which the housing contains a bimetallic thermosensitive disk element with a pusher, leaf spring and one-arm lever, made in the form of asymmetric loops. A leaf spring is fixed at one end to one 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 second pusher of electrically insulated material is fixed at its second end.

 The disadvantage of this relay is the presence of a second pusher of electrical insulating material, which must be mounted on a single-arm lever, which complicates the assembly technology and its installation in the desired position relative to the leaf spring. In addition, the manufacture of a single-arm lever in the form of an asymmetric loop requires special equipment.

 In the proposed relay, the one-arm lever is made in the form of a flat leaf spring, the movable end of which is bent, and the second end is secured electrically isolated from the second current-supplying contact.

 Such a constructive solution made it possible to exclude the second pusher made of an insulating material, replacing it with a bend at the moving end of the one-arm lever. Thus, one part with fasteners is excluded, which simplified the assembly of the relay. In addition, the manufacture of a flat leaf spring is simpler than the manufacture of an asymmetric loop.

 The drawing shows the proposed bimetallic disk relay, a longitudinal section.

 The relay consists of a metal housing 1, a cover 2 made of an insulating material. On the cover 2 there are current-carrying contacts 3 and 4. A leaf spring 5 is fixed to the current-conducting contact 3, and a single-arm lever 7 with a bent end 8 is fixed to the protrusion 6. Contact 9 is fixed to the moving end of the spring 5. A bimetallic disk 10 is placed at the bottom inside the housing 1, a sleeve 11 with a pusher 12 is installed.

 Bimetallic disk relay operates as follows.

 When changing, for example, with increasing temperature of the controlled environment, the disk 10 gradually decreases its deflection. Having reached the temperature of direct operation, the disk 10 cotton changes the direction of the deflection and moves the pusher 12 upward, acting on the one-arm lever 7, which in turn acts on the leaf spring 5, which moves the movable contact 9 and closes it with the current-supplying contact 4, closes the electric circuit.

 When the temperature decreases, the disk 10 reduces its deflection in the other direction and when the return temperature is reached, the cotton returns to its original position with the pusher 12, under the action of the elastic forces of the leaf spring 5 and the one-arm lever 7, the contacts 4 and 9 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.

Claims (1)

 BIMETALLIC DISK RELAY, containing a housing, a bimetallic disk thermosensitive element with a pusher, a spring-loaded one-arm lever, a leaf spring made in the form of an asymmetric loop, fixed at one end to one of the conductive contacts, at the other end of which a movable contact is fixed, and one of the ends of a one-arm mounted on another conductive contact, characterized in that, in order to simplify the design, the single-arm lever is made in the form of a flat leaf spring with a bent the movable end, and the end of the one-armed lever is fixed to the current-carrying contact electrically insulated from it.

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