DE552171C - Electrical contact, especially current-carrying clamping jaws for butt welding machines - Google Patents

Description

Electrical contact, in particular live clamping jaws for Butt welding machine. Electrical contacts on switches, relays or the like and electrodes of welding machines are exposed to high heat stress caused by the Power interruption process or in the case of the electrode for welding machines contact with the hot work piece is unavoidable. The one for these purposes The building material usually used loses at the high temperature that occurs so much in strength that rapid wear occurs, especially if the contacts or clamping jaws are mechanically stressed. It's already suggested been, e.g. B. in spot and seam welding machines, the electrodes are made of a hard, non-wearing metal, e.g. B. tungsten or molybdenum, and a soft stretchable Metal, e.g. B. copper, a homogeneous one from these two metals coherent building material is formed.

Because of the tungsten content, however, this is a composite building material relatively expensive. Especially with large pieces, such as. B. for the clamping jaws are required by butt welding machines, the more expensive electrodes due to the tungsten gelialt considerably.

According to the invention, therefore, the electrodes, in particular the current-carrying ones Clamping jaws of welding machines made from a composite building material, from iron powder and copper are made; Such electrodes can also be used for spot or seam welding and used for other purposes where it has good heat resistance and mechanical strength of the contacts is important.

Hardenable steel powder can also be used as iron powder, and this offers the further advantage that the electrodes or contacts are removed before curing for example by machining tools and in the form of use can bring.

When making the electrodes or contacts, you go into yourself known way from royal or powdered iron. This raw material becomes placed in a vessel, the shape of which can approximately correspond to the finished shape, and in the hydrogen furnace, copper is melted down over the powdery or granular mass. If one assumes approximately equal proportions of copper and iron, then depending on the annealing a hardness of 9o to i 2o kgmm ° can be achieved. If you choose instead of ordinary Iron powder Iron powder with a carbon content of about 0.3 to 1.5%, that is Steel powder, the hardness of the building material can be increased significantly by subsequent hardening increased beyond the specified values be, yes it is even possible to achieve a greater hardness than with copper-tungsten electrodes. When the copper and steel powders are combined, the steel is placed in the hydrogen furnace warmed up to about i i oo ° and thus remains soft when a rapid cooling in the ten iperature range of the lower transformation point is avoided. The one made in this way Building material can also be easily processed with cutting tools. After completion During the machining process, the composite building material can be similar to copper steel hardened like an ordinary piece of steel of the same quality. The presence of the copper in copper steel does not make the hardening process more difficult, but promotes it him, as he increases the thermal conductivity.

In special cases, of course, a powder made from special steel can also be used and alloy steel are used as starting powder when it comes down to to achieve good mechanical strength even at very high temperatures.

In the finished workpiece, the copper content ensures good electrical properties Conductivity, while the iron or steel content has good mechanical strength guaranteed even at high temperatures. Welding the contacts together or the workpieces that come into contact with them is not to be feared.

Claims (1)

. PATENT CLAIM: Electrical contact from a composite Building material, in particular current-carrying clamping jaws for butt welding machines, thereby characterized in that the contact is wholly or partially made of an iron powder, e.g. B. hardenable steel powder, and a more easily melting filler metal, e.g. B. copper, existing building material is formed.