DE739226C - Corona-safe silver fuse for high-voltage fuses - Google Patents

Description

Corona-safe silver fusible link for high-voltage fuses It is known that a reaction layer forms on silver wires which are exposed to a corona discharge in air. It consists of Ag N 03 when the air humidity is 95%. Ag20, perhaps also silver nitride, is formed when the air humidity is less than 40 '/, - . There is a transition area between q.0 and 95 ° 1o moisture, in which a reaction layer, albeit of a different type, also forms. The silver mainly used for fuse conductors of fuses, especially with rated currents above 3 A, must therefore be protected against corona discharges at high voltage or from The following protective measures are known: 1. Protection against corona discharge by arranging protective screens made of corona-resistant materials so that the discharge does not take place on the fusible conductors but on the screens.

a. Separation of the silver from the air, from which the active reactants silver f is obtained through corona-insensitive lacquer or metal oxide coatings or by embedding the fusible link in fillers that are as dense as possible.

The protective measures described above are also subject to the following Defects in: i. There are special requirements for the structure and arrangement of protective screens or the like Body and, as a result, larger melting spaces are required.

2. The separation of the silver from the air has not yet taken place in sufficient way, e.g. B. in the filler are enough in their interstices Reactants, or the coating is not temperature-resistant to currents above the limit current. During operation, higher overcurrents can occur briefly, which do not interrupt the fusible link, but damage their coating or destroy, so that afterwards the corona discharges even with currents below the nominal current destroy the fuse element.

Experiments have established which substances are used for the sheathing of a silver conductor are useful to one for practice impeccable to produce corona-safe high-voltage fuse. It turned out that that z. B. the alloy platinum-iridium is not suitable for solving the task at hand is. With magnesium again the protective skin effect is that under the influence of oxygen should arise, does not exist. The chrome-nickel alloys behave. Well. Molybdenum, tungsten and gold are also found to be useful through the experiments.

According to the invention, the above deficiencies are remedied in that silver is closed from the air by metal. This metal must i. corona safe, 2. be temperature resistant.

All metals that are resistant to nitrogen and oxygen are corona-safe are chemically and electrochemically resistant to the air.

For the purposes of this invention, temperature-resistant substances are those whose melting point is the same as or higher than that of silver. From the range of suitable metals, only gold, nickel, molybdenum and tungsten are here and chromium-nickel alloys.

According to the invention, the fuse element is made with one of these metals surrounded so that the reactants of the air only with the corona-resistant coat come into contact and prevents the formation of a reaction layer on the silver is. The metals mentioned have a higher melting point and are consequently temperature resistant up to the melting point of silver.

The production of the coatings presents no difficulty to J. The coatings can be galvanically cast down, drawn over according to the Leonean method or manufactured in a similar manner.

The advantage of the invention over what is known can be seen in that the silver is completely encased and surrounded by a material that both Corona safe as well as temperature resistant up to the melting point of the silver and its shell, since the substance itself is conductive, the volume of the fusible conductor mass not unnecessarily enlarged and also not through the fusible link as before an insulating layer separates the filler, but the metallic contact with it maintains this, so that the electrical behavior and the heat dissipation to the Filler does not experience any loss or change with regard to the limit current either. Nickel and gold have been used for manufacturing reasons for this purpose proven to be most suitable.

Claims (2)

PATENT CLAIMS: e.g. Corona-safe silver fusible conductor for high-voltage fuses, characterized in that the silver is coated with a metal, the material of which is corona-safe and the silver is temperature-resistant. 2. Corona safer Silver fusible link for high voltage fuses according to claim i, characterized in that, that the jacket consists of molybdenum, tungsten, chromium-nickel alloys, nickel or gold.