DE527083C - Process for the production of electrical valve resistors - Google Patents

Description

There are valve resistors are known in which between two electrodes there is a thin intermediate layer (see patent 163,882). As a material of this Interlayer are poorly conductive materials, such as. B. metal oxides, metal sulfides, selenium, Selenium compounds have been proposed. The evenness of such fabrics Layers are subject to high demands. If the layer is not of the same material quality everywhere, so the current strength at the individual points of the electrode is different, which increases the risk overheating occurs in individual places. The same thing happens when the shift is thicker in one place than in other places, or if the connection with the Electrodes is not exactly the same in all places, or if the nature of the The surface of the intermediate layer is not exactly the same everywhere. Through such differences there is also the risk that the layer will break down electrically at individual points will. This risk of breakdown is increased by the excessive heating of a point.

The previously known method for producing the intermediate layer Poorly conductive material consists in placing this material on an electrode melts, or that an electrode is subjected to an oxidation process or called Exposure to sulfur fumes, or immersing an electrode in a liquid which it covers with a suitable layer by chemical influence.

These known methods can only very imperfectly meet the requirements to be made here fulfill. Accordingly, only imperfect valve resistors have hitherto been produced.

There is also the fact that the manufacturing process itself involves considerable technical Difficulties arise when the intermediate layer is applied to an electrode for example is to be applied at a higher temperature, tends to converge, i.e. to tend to form droplets, and thus an even distribution on the Makes electrode almost impossible. In the case of selenium, this property is known and very pronounced.

- These difficulties are eliminated according to the invention in that the intermediate layer of poorly conductive material is sprayed onto an electrode. In this process, the material of the intermediate layer is pressurized Gases hurled onto the electrode where it sticks firmly.

Such spray processes are known per se. They are used in the industry e.g. B. to Used to paint or coat any object with metals. In these

In some cases, however, they do not serve to address the technical difficulties mentioned above to overcome.

In the case of the subject matter of the invention, in particular the inclination can be achieved by the spraying process for drop formation or for the mass to converge completely on the electrode be rendered harmless. For this purpose it is advantageous to adjust the temperature of the ίο Keep the electrode on which the material of the intermediate layer is sprayed so deep that that the sprayed-on mass immediately adheres to the electrode in a condition that is not too soft. As a result, the convergence of the crowd is made completely impossible.

Spraying the intermediate layer onto one electrode brings another one considerable technical progress with it.

Namely, it has been found that it is used in some for the intermediate layer coming fabrics of great "value is when the fabric in question is applied the electrode does not react chemically with the electrode. If you wear z. B. a molten mass containing selenium on a metal electrode then, depending on the type of metal, a more or less pronounced Seleiiidbildung can occur. This occurs so stronger the higher the temperature. But it has been shown that this chemical Reaction impairs the valve effect, probably because the through the chemical reaction formed selenide layer reduces the conductivity, so that the current flowing in the permeable direction of the valve is decreased.

The impairment of the valve effect by this circumstance is very considerable, and by choosing the most suitable metals for the electrode only for Partly be eliminated, because precious metals, such as gold and platinum, also become quite strong chemically attacked. However, spraying the intermediate layer onto the electrode offers the possibility of eliminating this evil. Because here substances that are high temperature melt, can be applied to the electrode without this has a similarly high temperature. The union of the intermediate layer with the electrode can therefore be relatively lower despite the high melting point of the spray material Temperature take place so that the occurrence of the chemical reaction between spray material and electrode can be avoided.

It is already known to use the spray process in dry rectifiers. However, this was only done to form an electrode on an intermediate layer poorly conductive material and not used to make the intermediate layer itself. The above However, new technical effects only occur when the material used to form the intermediate layer is made of poorly conductive material Material is sprayed on. In particular, it is only possible in the latter case to meet the high requirements mentioned above to meet that are placed on the evenness of the intermediate layer, because that Spraying an electrode onto an existing intermediate layer made of poorly conductive material Material does not affect the evenness of the latter. Furthermore, the tendency to form droplets can occur in some Layer materials with low conductivity not by the already known method the spraying on of an electrode can be rendered harmless.

Claims (1)

Claim: Process for the production of electrical valve resistors with between Electrodes arranged intermediate layer made of poorly conductive material, thereby characterized in that this intermediate layer is sprayed onto an electrode. Supplementary sheet to patent specification 527 083 class 21g group 11 The patent 527 083 is partially due to a final decision of the Reich Patent Office of January 21, 1937 declared null and void that the patent claim is given the following wording? - "Process for the production of electrical Y-valve resistors with selenium layer arranged between electrodes, characterized in that this selenium layer sprayed onto an electrode id "