CN2626038Y - Dual coil bistable permanent magnet operation mechanism - Google Patents

Abstract

The utility model relates to a double coil bistable state permanent magnetic operation mechanism and includes a coil, a moving iron core, a stationary iron core; the utility model is characterized in that a breaking coil and a closing coil are fixed on the stationary iron core, a permanent magnet body is fixed between the two coils, and a connecting rod is sleeved on the moving iron core. The utility model has the advantages of few parts, stable performance, free of maintenance in long period of operation and is especially suitable for vacuum switches.

Description

The twin coil bi-stable permanent magnetism operating mechanism

Affiliated technical field

The utility model relates to a kind of operating mechanism of High-Voltage Electrical Appliances vacuum switch, and particularly a kind of is the supporting twin coil bi-stable permanent magnetism operating mechanism of vacuum switch.

Background technology

At present, the vacuum switch that China High-Voltage Electrical Appliances use has obtained to use widely because of himself advantage, but has a lot of shortcomings for its supporting spring operating mechanism, and is many as number of spare parts, the characteristic instability, and long-term reliability is not high.

Summary of the invention

At the problem that existing Magnetic Actuator for Vacuum Circuit Breaker mechanism exists, the utility model provides a kind of twin coil bi-stable permanent magnetism operating mechanism.

The purpose of this utility model is achieved in that and comprises coil, static iron core, moving iron core, it is characterized in that on static iron core, being fixed with switching winding and closing coil, between two coils, be fixed with permanent magnet, permanent magnet is a neodymium iron boron cylindraceous, outer surface is a magnetic pole, inner surface is another magnetic pole, is interspersed with connecting rod on moving iron core.Moving iron core can be done two-way linear along axis and move in the enclosure space of static iron core and magnetic conduction cover plate formation, its operation principle is, the logical big electric current of forward of closing coil during combined floodgate, as long as the pulling force in moving iron core and the generation of static iron core end caps is moving the suction that produces between iron core and static iron core end cap greater than permanent magnet, moving iron core just moves to closing position from the separating brake position, and at this moment permanent magnet can remain on closing position by moving iron core end cap, static iron core.The logical big electric current of coil during separating brake.Produce pulling force between moving iron core and static iron core end cap, need only pulling force and load counter-force sum greater than closing retention force, moving iron core can leave closing position, and under the pulling force that electric current produces and the counter-force acting in conjunction of loading, moving iron core moves to the separating brake position.

The utility model has the advantages that it is few to have number of spare parts, stability of characteristics, long-time running is non-maintaining, is particularly suitable for vacuum switch supporting.

Description of drawings

Fig. 1 is the structural representation of the utility model twin coil bi-stable permanent magnetism operating mechanism.

Among the figure: 1 static iron core, 2 moving iron core 3,4 permanent magnets 5 switching windings 6 closing coils 7 connecting rods

Embodiment

On static iron core 1, be fixed with switching winding 5 and closing coil 6, between two coils, be fixed with permanent magnet 3,4, on moving iron core 2, be interspersed with connecting rod 7.Permanent magnet 3,4 is a neodymium iron boron cylindraceous, and outer surface is a magnetic pole, and inner surface is another magnetic pole, and surfaces externally and internally is a pair of N, the S utmost point (the outer S of interior N).Moving iron core 2 is than static iron core 1 a short switch over travel distance, and the external diameter of moving iron core 2 less than the internal diameter of static iron core 1 (greater than 0 and less than 0.5 millimeter scope in), moving iron core 2 can be done two-way linear along axis and move in the enclosure space of static iron core 1 and magnetic conduction cover plate formation, its operation principle is, the closing coil 6 logical big electric currents of forward during combined floodgate, need only at the pulling force that moves the generation of iron core 2 and static iron core 1 end caps greater than permanent magnet 3,4 suction that between moving iron core 2 and static iron core 1 end cap, produce, moving iron core 2 just moves to closing position from the separating brake position, and at this moment permanent magnet 3,4 by moving iron core 2 end caps, static iron core 1 can remain on the separating brake position.Switching winding 5 logical big electric currents during separating brake.Produce pulling force between moving iron core 2 and static iron core 1 end cap, as long as pulling force and load counter-force sum are moved iron core 2 and can be left closing position greater than closing retention force, under the pulling force that electric current produces and the counter-force acting in conjunction of loading, moving iron core 2 moves to the separating brake position.

Because the moving iron core 2 of permanent magnet mechanism divides resultant motion up and down, thus the connection by lever construction, and the moving contact that drives switch carries out deciliter action up and down, finishes the branch closing operation of switch.

Claims (3)

1. A double-coil bistable permanent-magnet operating mechanism, comprising a coil, a moving iron core, and a static iron core, characterized in that an opening coil and a closing coil are fixed on the static iron core, and the two coils are fixed between the two coils. A permanent magnet is arranged, and a connecting rod is interspersed on the moving iron core. 2. The dual-coil bistable permanent magnet operating mechanism according to claim 1, characterized in that the permanent magnet is cylindrical NdFeB, and its inner and outer surfaces are a pair of N and S poles. 3. The dual-coil bistable permanent magnet operating mechanism according to claim 1, characterized in that the moving iron core is shorter than the static iron core by a switch travel distance, and the outer diameter of the moving iron core is smaller than the static iron core inner diameter.