SU915120A1 - Fuse-disconnector - Google Patents

Description

The invention relates to low-voltage electrical apparatus, in particular to automatic switches, designed to turn on and off electrical circuits and to protect electrical circuits against overloads and short circuits.

Circuit breakers are known that contain an insulating body, a contact system, a free tripping mechanism, a semiconductor maximum current release that operates at overload and short circuit currents, and an electromagnetic maximum current release, whose elements are installed in a separate plane of each pole, which operates only at short circuit currents [eleven.

A semiconductor release, along with such an advantage as a wide range of control of protection parameters, has its drawbacks, i.e. occupies a lot of space in the circuit breaker and does not provide the necessary speed at high short-circuit currents, and therefore, besides the semiconductor release, a fast2 is also used

Rotation of electromagnetic release.

The closest to the technical essence of the invention is a circuit breaker containing an insulating housing, a contact system containing movable and fixed contacts at each pole, with movable contacts connected in current leads by flexible conductors, spring-loaded and hinged _1θ fixed in contact _holders made in the form of clips ferromagnetic material installed on the axis of rotation and rigidly connected to each other by means of a cross-bar having electrical insulation, a free release mechanism tions 15 and maximum release current, each pole comprising a thermal element made of a plate of thermostatic bimetals and electromagnetic member having a yoke and a spring-loaded anchor, mouth _2θ tained in the fixed axis [2].

The thermal element used to operate at overload currents is a simple compact design that does not require much space to be placed in the switch.

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However, the low temperature resistance of a thermal bimetal used in a thermal element requires the mandatory use of an electromagnetic element that provides the necessary speed for short-circuit currents and, consequently, the protection of the thermal element from its failure.

The mandatory use of electromagnetic elements causes a complication of the design and an increase in the dimensions of the switch.

The purpose of the invention is to simplify the design and reduce the size of the switch.

This goal is achieved by the fact that in a known circuit breaker in each pole the flexible conductor is located inside a bracket made of ferromagnetic material, which serves as the yoke of the electromagnetic element of the maximum current release, and the armature of the specified electromagnetic element is installed with direct interaction with the tripping rail.

The drawing shows the proposed circuit breaker in the on position, general view, a mid-pole cut.

The circuit breaker contains an insulating body 1, a free-release mechanism having a body 2, an uncoupling lever 3, mounted on axis 4 and hooked at its end by a latch 5, mounted on axis 6 and resting against a disconnecting rail 7, a link 8 connected by a hinge 9 with a lever 3, and the hinge 10 - with the link 11, which, in turn, by the hinge 12 is connected with the steel (ferromagnetic) contact holder 13 of the middle pole, which is rigidly connected with the same contact holders of the neighboring poles by means of insulated crossheads 14. In addition, in the housing 2 of the mechanism on the hinge 15, a control handle 16 is mounted, which is connected by a spring 17 to the hinge 10. A movable contact 18 is connected to the hinge 12 inside the contact holder 13, connected by a flexible conductor 19 to a busbar 20 terminating in terminal 21. it closes with a fixed contact 22 terminating in a terminal 23. The contact pressing is created by a spring 24. All contact holders rigidly interconnected are mounted on an axis of rotation 25. The overcurrent release thermal element consists of a thermo-bimetallic plate 26 mounted on the busbar 20. For setting the current setting ^- actuation having an adjusting screw 31, through which the force of the spring 32 is transmitted, transmitted to the anchor. The yoke of the electromagnetic element formed by the contact holder 13.

When an overload current in an electrical circuit occurs, the thermo-bimetallic plate, bending under the action of heat created by the current in the tire 20, turns the disconnecting rail 7, as a result of which the latch 5 and the lever 3 are released from engagement, and the contacts 17 are opened by the action of the spring 17 around axis 25.

When a short-circuit current arises in an electrical circuit, the magnitude created by the current passing through the flexible conductor 19 and the moving contact 18 of the magnetic flux closing between the contact holder 13 and the anchor 28 through the air gap between them becomes sufficient for the electromagnetic force that arises during this to overcome the spring 32 and turned the anchor around the axis 29 until it touches the contact holder 13. The anchor, turning, hits the tripping rail 7, releasing the latch 5 and the lever 3. It is disconnected circuit breaker.

Due to the fact that one and the same part is simultaneously a contact holder and a yoke of an electromagnetic element, there is no need to manufacture and use a separate part - a yoke. This simplifies the design, saves material and reduces the size of the switch.

Claims (1)

Claim A circuit breaker containing an insulating body, a contact system containing movable and fixed contacts in each pole, with movable contacts connected to conductors by flexible conductors and fixed in contact holders made in the form of brackets of ferromagnetic material mounted on the axis of rotation and rigidly connected to each other using a cross bar having electrical insulation, a free tripping mechanism and a maximum current release containing an electromagnetic element at each pole, and a yoke and spring-loaded armature mounted on an axis, characterized in that, in order to simplify the design and reduce the dimensions, the flexible conductor at each pole is located inside a ferro-magnetic bracket, which serves as the yoke of the maximum current release electromagnetic element installed with the possibility of direct interaction with the shut-off rail. five 915120