DE3410596A1 - Electromagnetic trip device for earth-leakage current protection circuit breakers - Google Patents

Abstract

The invention relates to an electromagnetic trip device, especially a holding-magnet trip device, for earth-leakage current protection circuit breakers having an armature (1, 6) and a yoke (2, 7) consisting of magnetic material, and having excitation by means of magnets (3) or remanent magnetism. In this case, at least the armature (1, 6) or the yoke (2, 7) exhibits a corrosion-proof material. It is provided that at least the surfaces of the pole faces of the armature (1, 6) or yoke (2, 7) exhibit an iron-nickel alloy which is produced by powder metallurgy means. <IMAGE>

Description

Electromagnetic trigger for

Residual current circuit breaker The invention relates to an electromagnetic Release, especially holding magnet release for residual current circuit breakers with a Armature and a yoke made of magnetic material and with an excitation by means of magnets or remanent magnetism, at least the armature or the yoke being corrosion-resistant Exhibit fabric.

In such a known electromagnetic release (DE-AS 27 55 645) becomes at least one of the surfaces of the pole faces of the armature or yoke with a metal of the first, second or eighth subgroup of the periodic system of the elements or their alloys coated. With such a hard layer one would like the mechanical abrasion and the deformations of the soft magnetic Material manufactured release, for example when resetting the armature, reduce.

Such a thin layer can cause oxidation of the soft magnetic Do not prevent materials in a humid climate. Anchors stick together as a result of oxidation and yoke in the closed state and the holding magnet release cannot trip.

Such a thick layer of non-magnetic material is enlarged the distance between the magnetic parts of the armature and yoke of such a holding magnet release. The consequently reduced holding force causes the residual current circuit breaker to trip too early. In addition, the application of a coating requires an additional work step.

The invention is based on the object of an electromagnetic To develop a trip unit for residual current circuit breakers, whose armature and yoke completely consist of magnetic material of high permeability and still not as a result can stick together from oxidation.

This object is achieved according to the invention in that at least the surfaces of the pole faces of the armature or yoke are produced by powder metallurgy Have iron-nickel alloy.

An iron-nickel alloy produced by powder metallurgy has a high permeability and is due to the known powder metallurgy Manufacturing process an oxidation-resistant material.

With the invention, the advantage is achieved that the armature and yoke each can be made in one piece from one material. The trigger data of such a Holding magnet release is not caused by the armature and yoke sticking to one another as a result of oxidation, nor a deterioration in the magnetic properties affected by non-magnetic material.

The cost of a powder metallurgy that is as loop-free as possible Iron-nickel alloys are higher than for comparable vacuum-melted iron-nickel alloys.

According to one embodiment, only the armature or yoke consists of a powder metallurgy manufactured iron-nickel alloy. The remaining part is then from another magnetic material, for example a vacuum-melted iron-nickel alloy built up.

Another embodiment provides an anchor or yoke with only one To provide a layer of an iron-nickel alloy produced by powder metallurgy.

The two configurations enable more cost-effective production the holding magnet release for residual current circuit breakers. The mechanical and magnetic Properties remain unchanged.

The invention is intended to be roughly schematic based on one in the drawing reproduced embodiment are explained in more detail: Fig. 1 shows a Holding magnetic release for residual current circuit breakers, with armature and yoke from one Powder-metallurgically produced iron-nickel alloy exist.

Fig. 2 illustrates a holding solenoid trigger with the surfaces the pole faces of the armature and yoke with an iron-nickel alloy produced by powder metallurgy are coated.

The electromagnetic release according to FIG. 1 has an armature 1 and a yoke 2, both of an iron-nickel alloy produced by powder metallurgy are made. Such alloys are commercially available as Mumetall Vacoperm 100S.

A permanent magnet 3 is connected to the yoke 2 and generates a magnetic one River that holds armature 1 on yoke 2. By a trip coil 4 on one leg of the yoke 2, a magnetic flux is generated which is dependent on the fault current and counteracts the flux of the permanent magnet 3. As a result, a return spring pulls 5 removes the armature 1 from the yoke 2 and interrupts the related Circuit. If there is no current flowing in the trip coil 4, the permanent magnet is set 3 the anchor 1 back.

The electromagnetic release according to FIG. 2 has an armature 6 and a yoke 7 made of a vacuum-melted iron-nickel alloy are. Such an alloy is commercially available as Mumetall Vacoperm 83. the The pole face of the armature 6 is covered with a layer 61 made of a powder metallurgy produced Iron-nickel alloy provided. The pole faces of the yoke 7 also have layers 71 and 72 made of an iron-nickel alloy produced by powder metallurgy. The layers 61, 71 and 72 consist of the commercially available Mumetall Vacoperm 100S.

4 claims 2 figures - blank page -

Claims (4)

Claims Electromagnetic release, in particular holding magnet release For residual current circuit breakers with an armature (1, 6) and a yoke (2, 7) made of magnetic Material and with excitation by means of magnets (3) or remanent magnetism, wherein at least the anchor (1, 6) or the yoke (2, 7) is a corrosion-resistant material show that at least the surfaces of the pole faces of armature (1, 6) or yoke (2, 7) is a powder metallurgy produced Have iron-nickel alloy. 2. Electromagnetic release according to claim 1, d a d u r c h g e k e n n n e i n e t that the armature (1) and the yoke (2) are made of a powder metallurgy manufactured iron-nickel alloy. 3. Electromagnetic release according to claim 1, d a d u r c h g e k e n n n z e i c h n e t that either the armature (1) or the yoke (2) from a Powder-metallurgically produced iron-nickel alloy exist. 4. Electromagnetic release according to claim 1, d a d u r c h g e k e n n n n e i n e t that the surfaces of the pole faces of at least armature (6) or yoke (7) with a layer (61, 71, 72) made of a powder metallurgy Iron-nickel alloy are provided.