DE902527C - Positive arc electrode with Beck effect - Google Patents

Description

Positive arc electrodes with Beck effect (high-performance carbons) have long been known, and these coals always consist of a coat and a relatively large core or wick. The great electrical load (It is mostly about r Amp. per square millimeter of positive carbon cross-section and more) causes what is known as crater formation, i.e. H. the positive coal wears away is bowl-shaped and in this bowl sits: a glowing ball of steam, causes by escape of metal vapors from the effect wick or core. The luminances, what can be achieved with these coals are considerable. The disadvantage of this Coals, however, is that the, luminance. about in the middle of the coals.-ach: se am is highest and then drops off too rapidly after the crater rims. Desirable however, the luminance is as constant as possible over the entire crater cross-section and the shortest possible and: rapidly decreasing edge drop.

Attempts have been made to achieve this ideal by reducing the core diameter has enlarged more and more; Attempts have also been made, without a jacket, that is to use homogeneous effect carbons as high performance carbons. While it is with the former with a correspondingly high load, a somewhat broader light distribution diagram succeeded to preserve this crater, the success is not yet as great as desirable. The homogeneous effect coals do not form any craters, they splash strongly and have a very poor rest.

The invention now represents a high-performance carbon, which, in practice seen from a number of small high-performance carbons connected in parallel Beck = effect exists. So there is a spread of positive charcoal on the crater Number of Beck craters, which as a result of the high cross-sectional loading of the entire Coal, each for himself, are filled with a layer of vapor. Through this arrangement from: Beck craters to close to the edge of the, coal is reached that, over the cross section seen from the coal, there are several luminance maxima and that maxima too still occur close to the edge zone. The loading capacity of such coal is very large, so that there are also high averages! for the luminances result. It does not matter what form and arrangement the individual items are: Have Beck craters. The only advantage is that they are fairly even over the. Cross-section are distributed. The cavities can be made with effect cores or soft wicks provided, depending on the desired current load, brightness and the required Burn resistance.

For a long time, coals have been known which: have several cavities on the carbon cross-section, but these are always ordinary effect coals, which are loaded with a relatively low current strength. In doing so, the arc euwurzed slowly wanders around on the crater surface and repeatedly touches another wick cavity or wick rib, from which the arc then superficially takes its arc support. In contrast to this, the Hocb: Leistungsü: ngskohilei is so loaded that the entire cross-section of coal carries electricity and that the metal salts evaporate already behind the crater surface. begin and collect in the individual crater bowls to form steam balls.

It has been shown that, you! Wick hollows circular, semicircular, can form segment-like, rectangular or ivabeniför @ mig. You can also use the individual cores or wicks provided with fine channels (Käp # i! 1! laren) :.

For special purposes it has been found to be. proven advantageous, To keep the metal salt content of the outer wicks higher or lower than that. the inner wicks, because this has a positive effect on the light distribution leaves. In addition, the charcoal can also be formed in such a way that the outer wicks with soft wick, the inner ones with harder wick, d '. H. Cores to be provided :.

This arrangement-, of wicks. is both applicable for rotating as well as for fixed positive carbons.

The drawing with FIGS. 1 to 4 illustrates some exemplary embodiments Inventive wick charcoal with a large enlargement of the cross-section; included is always a the pure cabbage-entciil, b are the wicks or kernels.

Claims (4)

PATENT CLAIMS: i. Positive arc electrode with Beick effect, characterized in that the normally collected in a crater. Be: c.1c effect is divided into several Beck effects. 2. Positive arc electrode with Beck effect according to claim i, characterized in that the subdivision of this Beck effect is achieved by several effect wicks or effect cores in the carbon. 3. Positive Lichtbabgnelectrode with Beck effect according to claims i and 2, d @ adiurch gekennzeichne @ t, that the effect cores or docks are circular, semicircular, segment-like, right-angled or have a honeycomb cross-section. 4. Positive arc electrode with Beck effect according to claim 1 to 3, characterized in that the wicks or cores with fine. Capillaries are provided. Positive arc electrode with Beck effect according to claim i to 4, d! a: denoted by geken, that the metal salt content of the outer wicks; larger or smaller than that of the inner wicks.