DE275039C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

-M 275039-CLASS 2 \ g. GROUP

As is well known, when electrical currents are interrupted, an interruption spark always occurs on, the size of which depends on the current to be interrupted and the voltage difference, which prevails at the contact points during the interruption. If larger amounts of energy are interrupted, the Spark the shape of the arc and the temperature then rises in the places of

ίο which the arc goes out, in such Measure that the metal melts. In the case of frequent interruptions, ati the same In some places, the contacts soon become completely unusable as a result of merging and one is required to take special measures to avoid them to meet this evil. As such are known:

i. Great speed of movement when separating the contact body, which at the same time is to be effected at a correspondingly large distance, so that the arc is already in the Emergence again extinguishes and the contact body does not assume a high temperature capital.

2. The arc is extinguished immediately after it has arisen by blowing it out, either by means of an air stream or by means of a magnet or by attaching the interruption point in an oil bath.

3. Use of difficult-to-melt metals for the interruption points Contact bodies, such as platinum, platinum iridium.

The means mentioned under 1. and 2. become interruptions to a large extent large amounts of energy are used, while those mentioned under 3 are difficult to melt Metals are only used for smaller amounts of energy because of their high costs of these precious metals the execution of contact bodies of correspondingly large dimensions not allow. Could the contact bodies be made from metals that are not only cheaper than platinum, but also if possible have an even higher melting and evaporation point, one would go to Avoidance of the interruption sparks and arcs, the more complicated mentioned under 1. and 2. Replacing agents probably simply by contact bodies made of such metals that the effects of the electric arc even without. would withstand the aids mentioned. This is particularly important here refractory tungsten or molybdenum metal. Its use failed however, so far because of the fact that it was not possible to get the contact body in that form to produce, which was necessary for the purpose of the sparkless interruption. True is one is able to make thinner and thicker threads, also short rods of rectangular ones Cross-section, but to produce bodies of any shape from this failed the difficult workability of the material, which because of its extraordinary Hardness could at best be ground and polished, but not in any shape remodeled. An extensive use of such contact bodies made of tungsten or Molybdenum, which cannot be processed mechanically, would still be possible, if it were possible to mix tungsten or molybdenum with other metals, e.g. B. copper, brass or

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Silver to solder. One means of achieving this end will now be described below.

As is known, tungsten and molybdenum can be used Do not solder using the usual tools, because once its oxide is itself does not dissolve in soldering water, and secondly, because it is mixed with the usual solder, such as tin, zinc, lead, Copper and silver, only difficult alloys

ίο comes in. But it can easily be alloyed with the related metals from the iron group. So if you get any job of the tungsten or molybdenum body covered with a piece of sheet metal of these metals, e.g. B.

made of nickel, iron, cobalt and the like, and with this the tungsten or molybdenum body in a suitable furnace in a reducing atmosphere (e.g. hydrogen) up to the melting point of nickel, iron or cobalt, there is one at the point of contact intimate alloying of the two metals takes place while the outer surface has the property of the melted metal, i.e. with other metals by means of soft solder or hard solder can connect.

Claims (2)

Patent Claims: 1. Contact body made of tungsten or molybdenum metal, in which with the Tungsten or molybdenum is another metal combined, which the soldering with enables the materials commonly used in electrical engineering, characterized that a metal related to tungsten or molybdenum, e.g. B. nickel is melted at a suitable point. 2. A method for producing the contact body according to claim 1, characterized in that that the surface covered with a correspondingly shaped sheet of auxiliary metal in a reducing atmosphere until it is just heated to melt the auxiliary metal.