DE546515C - Process for the production of rectifier elements for dry-plate rectifiers with a rectifying layer produced by heating - Google Patents

Description

In the manufacture of rectifier elements for dry plate rectifiers according to a method in which the rectifying layer is heated and then sudden or gradual cooling is generated, it is for effectiveness of the rectifier elements is of great importance, in which way the derivation from the outer surface of the rectifier element

to mentes is accomplished. When annealing copper plates z. B. is known to arise the effective layer of copper oxide is a thin outer skin of non-conductive copper oxide which must be removed. Thereafter there is the task of creating an as possible on the exposed surface of the rectifier layer to attach good contact-making discharge, whereby the rectifier effect also by choosing the suitable conductive material " the arrangement can be increased. To remove the non-conductive skin are chemical and mechanical Funds have been proposed. The non-conductive skin has also become known by a reducing agent used during the cooling process following the annealing process into the starting metal, e.g. B. copper. Metals other than copper could after those previously known Process can only be applied in a separate operation, whereby mechanical, chemical or physical means were used. In contrast According to the present invention, it is easy to find a suitable foreign metal to precipitate the rectifying layer if one for it after the glow has ended ensures that a reducing agent and a suitable metal at the same time during the cooling process or a metal compound is present. With a suitable working method, the Manage the process so that the outer, non-conductive skin is reduced while at the same time a suitable foreign metal is deposited on the surface.

If you bring the glowing plates into contact with a coolant, which at the same time has reducing properties or contains a reducing agent and is also provided with a metal connection which, when in contact with the glowing rectifier plates, deposits metal is decomposed, the rectifier plate is covered on the surface with a Layer of foreign metal with which the coolant was coated. If you bring z. B. the red-hot plates in an aqueous solution of grape sugar, which also contains ammonia and contains a silver salt, the plate is covered with a thin layer of silver. One can also work in such a way that one has a metal suspension or a colloidal metal solution used, e.g. B. a solution of colloidal silver. You can also use oils, fats or waxes as coolants, where mercury, for example, is emulsified

greed. You can also use gases as coolants to which gaseous or vaporous metal compounds have been added, e.g. B. Vapors from Zinkäthyi 5 or mercury diethyl. Particularly simple process designed if no liquid or gaseous cooling ^mail: used moderate but solid heat sink. If you occupy the cooling surface of the

ίο printing plates with a reducing material, For example paper, which decomposes due to the heat of the glowing metal plates is and thereby the outer skin of the same is reduced, and impregnates this reduced-

“5 rende material with a metal, be it as metal powder, colloidal metal solution or in the form of a decomposable metal compound, Thus, when the glowing metal plates are pressed and cooled, the outer skin between the cooling plates prepared in this way is removed the non-conductive oxide coating freed and with an extremely tight fitting and a highly conductive layer of this foreign metal. To impregnate the cover of the cooling surfaces, for example Use zinc dust, powdered tin, magnesium powder, and the like, or colloidal solutions of silver, gold, platinum and similar, including solutions, such as those used for gold-plating and platinum-plating of glass or Porcelain can be used in the manner of the well-known Westhaversian gloss platinum solution, finally, prepared pastes such as those used as solder. You get in this way a firmly adhering and highly conductive outer layer, which in the most intimate Is in contact with the crystal structure of the rectifying layer.

Claims (11)

Patent claims: 1. Method of manufacturing rectifier elements for dry plate rectifiers with a rectifying layer produced under heating, in which the cooling the heated plates is done by a coolant which has reducing properties or a reducing agent contains, characterized in that the coolant simultaneously contains a material which is in contact with a metal is deposited on the heated plates. 2. The method according to claim 1, characterized in that coolant, reducing agent and the substance containing the metal are gaseous or vaporous at the temperature used for cooling. 3. The method of claim 1, wherein a liquid coolant is used, which has a reducing effect at the same time or contains a reducing agent, characterized in that a substance is dissolved or suspended in the coolant which is in Contact with the heated rectifier plates deposits a metal. 4. The method according to claim 3, in which a substance is used as the coolant, which has self-reducing properties, such as oil, characterized in that this substance contains a metal dissolved or suspended so that in contact with The metal is deposited on the heated rectifier plates. 5. The method according to claim 4, characterized in that the coolant is colloidal Silver, gold, platinum or the like is mixed in. 6. The method according to claim 1 to 5, characterized in that the coolant organometallic compounds such as alkyl compounds of zinc and mercury o. The like., are added. 7. The method of claim 1, wherein the heated rectifier plates between Plates of solid material are cooled under pressure and in which the contact surfaces the cooling plates are covered with a reducing material, thereby characterized in that the reducing material also includes an agent or metal compound which is in contact a metal is deposited with the heated metal plates. 8. The method according to claim 1 and 7, characterized in that the for covering The material used for the cooling surfaces is covered with a metal powder such as zinc dust, tin powder or the like. 9. The method according to claim 1, 7 and 8, characterized in that the for covering material used for cooling surfaces in a colloidal metal solution, such as silver colloid, Gold carbon, platinum colloid, etc., is soaked. 10. The method according to claim 1 and 7 to 9, characterized in that the for covering the cooling surfaces serving material is provided with a metal-containing paste. 11. The method according to claim 1 and 7 to 10, characterized in that the one used to cover the cooling surfaces Material contains a shiny gold, shiny platinum or the like. Solution, as used in the glass or porcelain industry will.