RU214352U1 - Circuit Breaker Free Trip Mechanism - Google Patents

Abstract

The utility model relates to electrical engineering and can be used in circuit breakers to protect electrical circuits from overloads and short circuits. The technical result of the claimed utility model is to increase the reliability of the free release mechanism, in particular the electromagnetic release. The technical result is achieved by the fact that in the mechanism of free tripping of the circuit breaker, containing a trip rail, a thermal release and an electromagnetic release, consisting of a fixed part of the magnet and a movable armature, spring-loaded with a spring, one end of which is fixed on the armature ledge, and the other end on the fixed part of the magnet , while the armature contains two protrusions with springs fixed on them, and the protrusions are located on both sides of the bimetallic plate of the thermal release. 1 ill.

Description

The utility model relates to electrical engineering, in particular to the mechanisms of free tripping of automatic switches, and can be used in automatic switches to protect electrical circuits from overloads and short circuits.

According to patent RU158838, a circuit breaker is known, containing a detachable housing in which fixed and moving contacts are located in each pole, and a free trip mechanism containing a thermal release in each pole, an electromagnetic release in each pole, an emergency shutdown rail, each electromagnetic release is equipped with electromagnetic release housing, electromagnetic release rod and electromagnetic release coil made of conductive material.

The disadvantage of the known device is the complexity of the design of the electromagnetic release.

Closest to the claimed technical solution is known according to patent RU144394 mechanism for free tripping of the circuit breaker, containing a thermal release, an electromagnetic maximum release containing current-carrying plates, a core, an armature, where the core is U-shaped and rigidly connected to the current-carrying plate, and the armature is curved spring plate.

A disadvantage of the known device is the low reliability of the free trip mechanism due to the possibility of shifting the armature of the electromagnetic release from the central position.

The technical result of the claimed utility model is to increase the reliability of the free release mechanism, in particular the electromagnetic release.

The technical result is achieved by the fact that in the mechanism of free tripping of the circuit breaker, containing a trip rail, a thermal release and an electromagnetic release, consisting of a fixed part of the magnet and a movable armature, spring-loaded with a spring, one end of which is fixed on the ledge of the armature, and the other - on the fixed part of the magnet , according to the utility model, the anchor contains two protrusions with springs attached to them, while the protrusions are located on both sides of the bimetallic plate of the thermal release.

The presence of an additional unit that springs the armature makes it possible to avoid its displacement or distortion during prolonged use of the device, which increases the reliability of the design, while the armature, fixed on both sides, is clearly positioned relative to the bimetallic plate of the thermal release

The essence of the claimed utility model is illustrated by the drawing

In FIG. 1 shows a general view of the free trip mechanism of the circuit breaker.

The mechanism of free tripping of the circuit breaker consists of a trip rail (not shown in the drawing), a thermal release with a bimetallic plate 1, an electromagnetic release containing a fixed part 2 of the electromagnet, a movable armature 3 spring-loaded by a spring 4, each armature 3 contains two protrusions 5 fixed on them with springs 4, protrusions 5 are located on both sides of the bimetallic plate 1 of the thermal release.

Since the elements of the free trip mechanism in the circuit breaker are arranged in a row and are of the same type, for convenience, the positions are marked on one of the elements of the free trip mechanism.

Each anchor is a curved spring-loaded plate. The protrusions of the armature of the electromagnetic release for installing the springs are located at an equal distance from the bimetallic plate of the thermal release placed between them. Each thermal release is equipped with an adjusting screw, which allows, by changing the length of the bolt, to change the tripping characteristics of this circuit breaker.

When the current-carrying busbar 6 is heated above the permissible value, the thermal release plate 1 heats up and turns off the tripping rail (not shown in the drawing). In this case, the trip mechanism acts on the moving contacts 7, and the circuit breaker is turned off.

With the passage of a current that many times exceeds the rated current of the circuit breaker through the fixed part 2 of the electromagnet of the magnetic release, an electromagnetic field is created that attracts the movable armature 4 of the electromagnetic release that overcomes the force of the springs. In this case, the rod 8 acts on the tripping rail of the release mechanism, turning off the moving contacts 7 located in the holder 9.

Claims (1)

A circuit breaker free trip mechanism, comprising a trip rail, a thermal release and an electromagnetic release, consisting of a fixed part of the magnet and a movable armature, spring loaded, one end of which is fixed on the armature ledge, and the other end on the fixed part of the magnet, characterized in that the armature contains two protrusions with springs fixed on them, while the protrusions are located on both sides of the bimetallic plate of the thermal release.

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