DE226134C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 21 /. GROUP

THEODOR LEUCHS in NUREMBERG.

The invention aims to produce electrodes, namely pins for. electrical lighting, which is one of the known electrodes with high performance compared to have many times longer burning time. This purpose is intended as a raw material for the manufacture of the Electrodes to be used are used because of their peculiar composition and generation almost insensitive to the highest when using the electrodes possible temperatures, but is nevertheless very conductive. These seemingly 'contradicting conditions is after, the invention in the way met that for the production of the mass primarily metallic raw materials, so good conductors, find use, but with heat-resistant materials at temperatures which significantly exceed that of the electric arc, to a uniform Mass to be united. It is an important peculiarity of the procedure, that the mass on the aforementioned high tempefatur not by external influence, but is brought about by a combustion process, to which the mass in 'its entirety is subjected. By virtue of the peculiar composition of the mass the combustion process with extremely high heat generation, and it brings at the same time produces the effect that the product of combustion which forms the usable part of the mass remains in the form of a powder mixed with semolina, which can optionally be used without further ado and in a known manner Way in the manner of the powder-shaped previously used for the production of electrodes Substances can be processed further. The following are used as metallic components Elements in themselves or in their connections into consideration:

Magnesium, lead, platinum ,. Selenium, while being heat-resistant or the flammability of the Components that determine the mass, especially graphite, carbon, silicon and sulfur appear suitable.

When exercising the procedure, it is expedient to proceed in such a way that the the aforementioned raw materials in a suitable consistency (powder) and in a certain amount, Ratio intimately mixed with each other, then on a fire-resistant surface in Form a continuous layer and the latter by means of a The flame is ignited. The mass then burns itself extremely under development high degrees of heat that cannot be measured and at least that of the electrical Arc far exceed, and it remain as. Residues coarse semolina and a uniformly fine powder from the one used for the manufacture of electrodes, if necessary suitable quality. As mentioned at the beginning, the powder is very conductive and more resistant to the effects Temperatures so insensitive that, as tests have shown, those produced with them Arc lamp electrodes are still completely unchanged in their properties even after an unusually long burning time are and no noticeable wear

demonstrate. As a result of the high performance, such electrodes result in the same Power consumption is roughly double that of conventional carbon pencils greater luminosity.

A suitable composition of the mass is obtained if one uses the for production the same required basic materials S in the following form and the enclosed ίο proportions applies: Magnesia 29 parts, carbon 14, graphite 10, lead 15, sulfur flower 8, silicon 5, platinum sponge 7, selenium 13.

Loses through the burning process this mass is about half of its original weight.

By changing the proportions, of course, the mass can be in your Modify properties.

Claims (3)

Patent-to sayings: i. Process for the production of a highly conductive and heat-resistant electrode mass, through this . characterized that metallic components with combustible and heat-resistant components too a combustible mixture which, after it has been ignited, under the action of the high temperature resulting from its own combustion is transformed into a powder, As is the case for the electrode manufacture, which is otherwise to be carried out in a known manner suitable is. 2. Method according to claim 1, characterized characterized that the metallic components ■ magnesium, lead, platinum and Selenium, as a heat-resistant component or as a constituent that determines and promotes flammability Graphite, carbon, silicon • and sulfur are used. 3. The method according to claim !, characterized in that 28 unfired parts Magnesia with -14 parts carbon, 10 parts graphite, 15 parts lead sheet, 8 Parts sulfur flower, 5 parts silicon, 7 parts platinum sponge and 13 parts Selenium in its forms suitable for the required further treatment and Compounds intimately mixed and then on a fire-resistant .Uunterlage in thin layer, which burns off after inflammation with high heat generation and as a back • In addition to Griesen, this would represent further processing to be carried out in a known manner immediately leaves suitable powder.