DE2124426A1 - Vacuum switch contact - Google Patents

Description

The invention relates to a vacuum switch with one on one movable contact carrier and one on a fixed contact carrier attached contact piece made of a metallic material of high electrical conductivity, in which at least one contact piece contains a metal additive that embrittles the contact material.

Holding contacts for vacuum switches should, on the one hand, have a high electrical conductivity and, on the other hand, be arc-resistant in order to keep contact wear low when the vacuum switch is in operation. The requirement for a low contact erosion is of particular importance for vacuum switches with a large number of switching operations, because you want to avoid having to readjust the contact stroke during the service life of a vacuum switch.

Around arc-resistant contact pieces with great mechanical strength to achieve, it is known to use the contact pieces of a vacuum switch from a porous body filled with a suitable metal alloy (compare for example German patent specification 1 081 950, in particular patent claim 6 with the associated description). The body persists made of tungsten or molybdenum and is made by sintering tungsten or molybdenum powder.

If such a porous contact piece is only used with a metal of high electrical conductivity, in particular copper, offset, there is usually a tendency for the contacts to weld. To reduce welding of the contacts, is it also already known the metallic material high electrical Conductivity with a metal that embrittles the contact material

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to be added (compare German patent specification 1 236 630). It is mentioned, among other things, that one of the contact pieces For example, made of copper, to which a few percent bismuth or lead are alloyed, and the other contact made of pure copper can exist.

The invention is based on the knowledge that the sometimes contradicting requirements for the properties of the Can meet the contacts of a vacuum switch in a particularly targeted manner, • if the contact pieces are made from different materials (asymmetrical contact pairing). You can then, for example, one of the contact pieces made of an erosion-resistant Y / er material high electrical conductivity, for example a known tungsten-copper composite body, and the other contact made of a good electrically conductive metal that is alloyed with an additive that reduces its tendency to weld.

Metals like bismuth, tellurium and lead have a low melting temperature. They therefore penetrate common solders and embrittle them severely, so that especially end face soldering is insufficient Strength are feasible. With a vacuum switch with contact pieces, of which at least one consists of a metal with an embrittling additive, this therefore results Problem of attaching such a contact piece to an associated contact carrier in an electrically conductive and mechanically solid manner. This In connection with an asymmetrical contact pairing, the problem is always unavoidable when one of the contact pieces becomes brittle Additives with a low tendency to weld. To still take advantage of an asymmetrical contact pairing without being able to use the difficulties mentioned, one becomes Proposed vacuum switch of the type mentioned according to the invention, that when using different materials for the contact pieces the metal additive that embrittles the contact material containing contact piece is screwed into the contact carrier and is soldered to this.

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A vacuum switch is already known per se in which both contact pieces are screwed into the contact carriers (compare German patent specification 1 048 625). The contact pieces are each in contrast to the present invention symmetrically designed. In addition, in this known vacuum switch, none of the symmetrical ones Contact pieces a metal additive which embrittles the contact material, so that the present invention is based the problem does not exist there. In addition, none of the vacuum switches, which are known per se, are made of solderable material existing contact pieces are soldered to a contact carrier.

With the invention, the essential port step is achieved that you can pair the contact pieces of a vacuum switch with different advantageous properties, without disadvantages in the { constructive attachment of the contact pieces to the contact carriers to have. At the same time, the additional soldering of the contact piece screwed into the contact carrier, which the the contact material contains embrittling metal additive, a low contact resistance from the contact carrier to the contact piece secured.

It is expedient to attach the contact piece containing the metal additive which embrittles the contact material to the stationary contact carrier to be assigned, since more spatial freedom is available on the fixed contact carrier than on the movable contact carrier.

With reference to the figures of the drawing, the invention is to be explained in more detail below with further features. It shows 1 shows a longitudinal section of a vacuum switch according to the invention, shown in a simplified manner, Fig. 2 shows the stationary contact piece of a vacuum switch according to the invention and

3 shows the movable contact piece of a vacuum switch according to the invention.

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In FIG. 1, the reference numeral 1 denotes a cylindrical insulating body which is connected to the metallic end plate 2 and the metallic end plate 3 forms a vacuum-tight housing ″. In this vacuum-tight housing are opposed to each other a contact piece 4 and a contact piece 5 are arranged. According to the invention, one is the contact material contact piece 4 containing embrittling metal additive is screwed into a contact carrier 6. As already mentioned, it is useful to assign the contact piece 4 with the metal additive to the fixed contact carrier 6. That The contact piece 4 screwed into the contact carrier 6 is to ensure a low transition resistance from the contact piece soldered to the contact carrier 6 with this. The contact piece 5 without the embrittling metal additive is soldered to the movable contact carrier 7. A metal bellows 8 seals the vacuum switch from where: the contact carrier 7 is movably guided through the vacuum-tight housing of the vacuum switch.

In Fig. 2, the contact piece 4 of a vacuum switch according to Fig. 1 is enlarged on the associated fixed contact carrier 6 shown. The contact piece 4 consists of a material of high electrical conductivity, preferably of Copper, and the metal additive that embrittles the contact material is preferably lead, tellurium or bismuth. A corresponding Brittleness is obtained, for example, if the contact piece 4, which is made of copper in its basic substance, is used as an anti-perspiration component up to $ 2 bismuth alloyed. The contact piece 4 containing the embrittling metal additive is according to the invention screwed into the fixed contact carrier 6 and soldered to it.

In Fig. 3, the contact piece 5 of a vacuum switch according to Fig. 1 is enlarged on the associated movable contact carrier 7 of FIG. The metal bellows 8 surrounding the contact carrier 7 seals the vacuum switch according to FIG. 1 there from where the contact carrier 7 is passed through the vacuum-tight housing of the vacuum switch. The one with the moving one

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Contact carrier 7 connected contact piece 5 is preferably made of a tungsten-copper composite body. During the production of the composite body, the copper is for example in the Fully sintered tungsten framework with a pore content of approx. 40 melted down. The tungsten-copper composite that makes up the contact piece 5 forms is expediently brazed to the contact carrier 7.

In a practical embodiment of the invention, the tungsten-copper contact material contains the movable contact carrier 7 soldered contact piece 5 a titanium additive. This titanium additive ensures the gettering of the vacuum switch during sputtering contained residual gases.

6 claims
3 figures

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Claims (5)

Claims 1. ^ Vacuum switch with one on a movable contact carrier and a contact piece made of a metallic material, which is fastened to a stationary contact carrier, of high electrical power Conductivity, in which at least one contact piece contains a metal additive which embrittles the contact material, thereby characterized in that when using different materials for the contact pieces (4,5) the the contact material contact piece (4-) containing embrittling metal additive is screwed into the contact carrier (6) and is soldered to it. 2. Vacuum switch according to claim 1, characterized fe shows that the embrittling of the contact material Contact piece (4) containing metal additive is assigned to the stationary contact carrier (6). 3. Vacuum switch according to claim 1 or 2, characterized in that the metallic material is high electrical The conductivity of the contact piece (4) is copper and that the metal additive which embrittles the contact material is lead, tellurium or Y'ismuth is. 4. Vacuum switch according to one of claims 1 to 3, characterized in that the contact piece (4) with the embrittling metal additive on the fixed contact carrier (6) and the contact piece (5) without this additive on the movable contact carrier (7) is attached. 5. Vacuum switch according to one of claims 1 to 4, characterized in that the with the movable contact carrier (7) connected contact piece (5) consists of a tungsten-copper composite body and this is brazed to the contact carrier (7) is. VPA 9/170/0044 - 7 - 209848/051 2 6, vacuum switch according to claim 5, characterized that the tungsten-copper contact material of the contact piece soldered to the movable contact carrier (7) (5) contains a titanium additive. VPA 9/170/0044 209848/0512 Blank page