DE1120015B - Anode for high-performance carbon arc lamps - Google Patents

Description

Anode for high power carbon arc lamps The aspirations in the field the coal development, the cross section of the anode the picture window dimensions of the projector are not new. There are a number of embodiments known, in which the cross-sectional format of the carbon jacket and / or the wick based on the format of the image window.

That still only the round jacket anode is still used in practice today round wick or core is used, is known to be due to the unfavorable crater formation and the poor stability of the arc with which it is between the cathode and picture window-shaped anode burns. Both disadvantages preclude the use of such Anodes for cinema projection.

A sheathless anode for effect light is also known; the anode is traversed lengthways by fine capillary tubes around which the Effect salts evaporating from the zone adjacent to the crater exit into the To lighten craters and in this way to promote the calmness of light. Also an anode this type is not satisfactory if its cross-sectional dimensions - the modern picture window format adapted - exceed the aspect ratio 1.5: 1, as on the one hand the enlarged The anode cross-section must be loaded correspondingly higher, on the other hand with the Arc current increasing light unrest does not allow this.

The invention relates to an anode for high-power carbon arc lamps without a coat with 20 to 70 percent by weight of salt added for the basin effect, the is traversed by cavities running parallel to its axis.

There are probably positive arc electrodes with a Becke effect known, which are also traversed by cavities running parallel to their axis, however These are electrodes made from a large number of smaller wick coals are bundled. Since the individual wick coals have a round cross-section, This inevitably results in the cavities between the individual wick coals. With regard to the current load, they are completely meaningless.

Effect electrodes for long-life arc lamps are also known which consist of a plurality of cores, which are the poorly conductive lighting accessories and those of a very thin coat of pure or small amounts are enclosed by coal containing additives. The coat is designed here so that he has as much strength as possible everywhere. For this reason, for example in one embodiment, several triangular cavities are arranged around the central core, so that the jacket on which the arc wanders burns evenly and the lighting accessories also evaporate evenly.

The invention consists in that the cross section of the anode carbon is designed in a manner known per se similar to the rectangle of the picture window and that this carbon is used to create the optically effective surface of the anode (hatched Area in Fig.l) compared to that reduced by the cross-sectional area of the cavities To increase the cross-sectional area of the solid coal (hatched area in Fig. 2). This succeeds while maintaining the current density specific for the anode material (Amperage per mm = cross-sectional area of the solid coal), the whole optically effective To have the area of the anode available as a light source for cinema projection. Instead of a load of corresponding to the optically effective area of the anode For example, 170 Amp. and insufficient light rest will result in the same light output Achieved at 120 amp. load with good light rest. The cavities, which are round, oval, can be elongated, slit-shaped or otherwise designed, interfere with the projection screen illumination not because their surfaces are outshone by the glowing gas ball in the anode crater.

In this way it has become possible for the first time to use a high-performance anode, whose cross-section is approximately adapted to the projector picture window, also cinematically to use, because the anode shows that favorable crater formation, and the arc burns with such stability that the picture window-shaped light source with a as high degree of calm light and advantageously distributed luminance as it shines for the use of the anode for widescreen projection is a prerequisite, but what was not met by previously known designs. A row of embodiments of the anode according to the invention is shown in the drawing (Fig. 3 to 7) each shown in cross section, without the invention being applied to these embodiments to restrict. As shown in the drawing (Fig. A to 12), there are also rows adjacent cavities with round, oval or angular cross-sections possible. In Figs. 3 to 12, a denotes the cross-sectional area of the cavities, while b represents the cross-sectional area of the solid anode body.

It has proven to be expedient to use the surface of the sheathless To seal the anode by applying a known resin, tar or tar-pitch-bound Carbon paste, which is expediently a subsequent thermal treatment is subjected. This applied skin has the purpose of lateral exit of the evaporating effect salts - except in the direction of the crater - from the anode to prevent. Impregnation of the edge pores of the anode with the aforementioned carbon paste serves the same purpose. In this case, too, it is useful to post the anode to subject the impregnation to another thermal treatment.

Claims (4)

PATENT CLAIMS: 1. Anode for high-power carbon arc lamps without a jacket with 20 to 70 percent by weight of salt added for the basin effect, that of parallel is traversed to its axis extending cavities, characterized in that the cross-section of the anode carbon in a manner known per se, similar to the rectangle of the picture window is designed and that this coal is used to optically effective area of the anode versus that of the cross-sectional area of the cavities (a) Reduced cross-sectional area of the massive coal (b) to enlarge it. 2. anode according to claim 1, characterized in that the cross-section of the cavities is round, is oval, elongated or slot-shaped. 3. anode according to claim 1 and 2, characterized in that the anode is applied to the anode surface by a Carbon paste that is subsequently subjected to thermal treatment, is sealed against the lateral escape of effect salt vapors. 4. Anode after Claim 1 and 2, characterized in that the anode is impregnated by the Surface pores with a carbon paste, which is subsequently a thermal Treatment is subjected to the lateral escape of effect salt vapors is sealed. Publications considered: German Patent No. 914 037; French patent specification No. 406 995.