DE366626C - High resistance - Google Patents

Description

High resistance. So far, high-value resistances are mainly by applying a conductive layer, such as. B. carbon, on an insulating Document, e.g. B. the inner surface of a glass tube has been made. After this the inventor had found that with such layers there was constancy of resistance can only be achieved at all if it is carefully freed from moisture and sealed against atmospheric air, their manufacture could be too great Perfection to be developed. This high degree of precision made that possible Finding that for some purposes layers made up of mixtures of different substances are of particular advantage. However, earlier is occasional it has been proposed to make resistors from mixtures of oxides. It could but at that time it was not clearly recognized what the advantages of such mixtures are, because, as mentioned above, work was not carried out to the full against atmospheric air became.

A case in which such a mixture leads to successes on no other way could be reached is the mixture of a conductive substance - for example finely divided carbon or Kadani.-umoxydes - with one not at all or very little conductive substances, preferably an oxide, such as finely divided acnorphic silicic acid, iron oxide, suitable oxygen compounds of heavy metals, but also with kaolin. Such mixtures partly fulfill the purpose of uniform Distribution of the conductive material and its better adhesion to the substrate effect, such as in the case of the mixed with cadmium oxide or carbon Kaolins. In addition, such mixtures are ideal for the production of extremely high resistances useful when otherwise the high amount of resistance is only due to such a considerable amount Weakening the layer of a conductive substance would be too much to achieve that thin layer would cease to be cohesive. In such a case it will by producing a mixture of the type described above, the conductive one Substance suspended in the non-conductive powder and thus diluted, so to speak that very high amounts of resistance can be achieved with strong and well connected Layers .: With such high resistances, the line is of course along the surface of the glass To consider: This is why the outer surface of the glass tubes is heated in the Condition completely or partially with good insulators, e.g. B. shellac, coated, or instead of glass, pipes made of ouarz, porcelain and the like are used; also recommends it is necessary to have such resistances even on the layer that is not covered with a conductive layer Side, for example by enclosing it in a container filled with dry matter, keep dry.

Another case in which the production of layers is made Mixture recommends, occurs when it comes to the manufacture of resistors acts with a low temperature coefficient. Experience teaches that mixtures Find let in which the temperature coefficient is much smaller is than that of pure substances, for example a mixture of carbon and cadmium oxide, which is best achieved by adding kaolin can be made adherent and diluted as required.

Mixing can be done in two ways. You either mix the substances to be applied, e.g. soot and cad @ mium oxide, with one another, before they are applied to the non-conductive surface, or there will be the one of the substances or both only formed subsequently by adding compounds to the layer be applied, which subsequently decompose when heated or at the Oxidize air and thus provide the conductive layer in its final state. Thus, the metals supplying the oxide can be used as colloidally suspended hydroxides Hydrates. Carbonates or applied as organic compounds and then decomposed or are oxidized. The carbon can also get into the mixture on the way that one adds organic compounds which decompose when heated and leave coal distributed in the layer. In the case mentioned, cadmium oxide-carbon It is advisable to add organic binders (sugar etc.) and then subject the mixture to such a heating, that the deposited carbon penetrates the cadnium oxide layer. This method has the advantage of delivering particularly intimately mixed layers.

It must be noted, however, that such carbon and a proportionate easily reducible oxide (cadmium oxide) containing resistors for heavy loads are not usable because with high heating reduction of the oxide occurs. Should cadmium oxide resistors are made for heavy loads, so is not only to avoid carbon, but also easily oxidizable organic binders. It is then advisable to use resins that harden at high temperatures (Bakelite, Resinite) or inorganic substances (silicates).

Claims (1)

PATENT CLAIMS: t. High-resistance resistors consisting of thin conductive layers applied to a non-conductive base sealed against atmospheric air, characterized in that the resistance layer is well dried and consists of mixtures of different oxides with one another or one or different oils with carbon or silicon. Resistors according to Claim r, characterized in that the mixture consists of finely divided, conductive and non-conductive components, the non-conductive components (silica, kaolin) in particular for the purpose of diluting the conductive components (carbon black, cadmium oxide) and thereby producing resistors high amount can be used. 3. Resistors very high amount according to claim a, characterized in that the conductive layer is applied to a non-conductive in atmospheric air on its surface insulator (quartz, porcelain), and that optionally also the insulator surface not coated with the conductive layer of the Moisture is complete. .I. Resistors according to claim r, characterized in that two or more conductive components (carbon black and oxides or different oxides with one another) are mainly used mixed for the purpose of lowering the temperature coefficient, advantageously with the addition of a non-conductive component which increases the adhesion of the layer (kaolin) wherein as a binder not öxydierbare substances (inorganic silicates) or very difficult o xy 'Dierbare organic substances (hochhärtende resins) are applied. 5. A method for producing the resistors according to claim r to 3, characterized in that the metal supplying the oxide in the form of another compound (hydroxide, nitrate, carbonate, organic compound) is applied as a layer and then converted into the oxide by heating. 6. Resistors according to claims s to d., Characterized in that the carbon either only partially or not at all as such is added to the mixture, rather part or all of the carbon addition is produced by reducing an organic compound added to the oxide.