DE193624C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 193624 - CLASS 21 /. GROUP

ANDRE BLONDEL in PARIS.

Patented in the German Empire on March 7, 1902.

The addition of light-increasing mineral or metallic compounds to the carbon of arc lamp electrodes has been known for a long time. Usually, however, these admixtures were kept in fairly low limits, so exceeds the content of such substances when in the wick of the electrode is inserted, usually not 10 percent of the total

Electrode ground. When adding these substances to the batter of the electrode body For a long time, one has used roughly the same proportion of at most ip percent satisfied (see e.g. the investigations by W e d d i η g in the E. T. Z. 1901)

From some sides, however, especially from Head & Sounderson. (American patents 421469 and 422302) was an addition of up to 20 percent mineral salts recommended for the electrode body. But with arc lamps, their electrodes have strong admixtures (10 to 20 percent and above) of slag-forming metal compounds the metal salts contain, the Ubelstand occurs very annoying that once with increasing Mineral content also increases the specific resistance of the electrodes and that on the other hand A massive build-up of slag makes the formation of the arc more difficult and under certain circumstances can cause it to be extinguished entirely can bring. These inconveniences are particularly pronounced with lamps that are stacked on top of each other Electrodes on. Numerous proposals of various kinds have already been made to remedy these deficiencies. the ones, of which none could completely eliminate the disturbances and most of them also one Bringing the price of the lamp or its operation with it. That is why the Use of electrodes containing more than 10 percent additives in lamps with one above the other Electrodes dispensed with during the past few years and by Bremer the so-called intensive flame arc lamps with side-by-side, downward-facing electrodes into the Technology reintroduced.

It has now been found, "that can be used by a relatively simple means in arc lamps above the other electrodes, such electrodes at" bring any high content of metal compounds or _x Mineralsubstanzeu any of the above-mentioned disadvantages, on the other hand a considerably lower resistance than have the previously known highly mineralized coals and suppress the formation of slag entirely or at least render it harmless.

This means consists in the use of mineralized carbon rods with surrounded by a thin shell of pure or almost pure, in any case not slagging coal are.

(a. Approaches, issued on January 13th igoS.)

One with. A flame arc lamp provided with such coals has (apart from one Mechanism that allows the creation of a long arc) two vertically over, one on top of the other ■ carbon electrodes, the upper ones of which are protected by a protective device (shell, Crucible, protective plate, etc.), which has the purpose of rising from the arc Retain fumes and the arc itself by preventing you from climbing up to make the upper coal more stable. The arc is formed (at. The Anode, the. Cathode. Or both) on a carbon rod, which is used for the purpose of saturating the Arc with mineral vapors more than 20 percent of mineral or metal substances contains; In-depth studies have shown that in this way a higher Luminous efficiency is achieved, in general

ao with the increase of the addition type such Substances grows. Around this strongly mineralized carbon rod is a thin tube made of pure or only very weakly mineralized coal lying around, none of that itself

as slag forms. This coal shell is about to the main purpose, the access of air to the surface of the ■ highly mineralized colile rod and thus to prevent the same from burning up too quickly. Because it has show that the formation of slag from the combustion of the coal particles of the mineralized carbon rod, which then no longer contains the mineral admixtures can hold on. The Kohlcschutzrohr can be made for itself and before attaching the The electrode in the lamp can simply be pushed over the mineralized Kohk rod. However, it has been found that it is advantageous to have the best possible contact between the protective tube and the mineralized carbon rod and for this purpose to connect both firmly together before use, as described below will be.

The decisive condition for the dimensioning of the coal shell is that it is just as short or should burn a little shorter than the mineralized one Carbon rod or core, so that the arc is essentially only on the latter forms.

The. favorable effect of the: coal shell is primarily, as already mentioned, that they allow air to access the highly mineralized core rod and thus that rapid burning of the contained in this.

Carbon prevents, furthermore, that it conducts the current to the burning end of the electrode, why thanks to their lower resistance

. is much better suited than the strong mineralized core rod. Finally, the casing also mechanically prevents the mineral or metal substances from melting out from the rod or core and thus the formation of disruptive slag.

As mentioned above, it is desirable to firmly'mit the mineralized protective cover To connect core rod. For this purpose, the electrode is best made in such a way that that both parts are produced separately and then fixed. connected or both together getting produced. One method of manufacture is in the ordinary Way from one mixed with mineral substances and tar or other glue Charcoal dough to make a mineralized core stick that. possibly with wick holes can be provided, on the other hand on one. Press with a ring-shaped mouthpiece to press a thin pipe of ordinary coal dough, that of tar and suitable Types of coal such as soot, retort carbon, etc. The two so shaped separately Parts can then either separately or after the core rod has been pushed into the Pipe to be burned together. Also the pipe and the core rod can be burned alone Unfired introduced into this or, conversely, onto the fired core rod, the tube applied in a soft state and now the firing can be repeated. Bringing in the core into the tube can be done using a suitable press.

In all embodiments of this method the mineralized core rod must be fired at a sufficiently low temperature, so that no volatilization of the mineral components take place and a Outflow of mineral components can take place, that is the firm connection of the two concentric parts. For the effective creation of a firm connection you can coat the core rod with tar or other adhesive before inserting it into the pipe.

Another manufacturing method is to make the mineralized core rod and the to produce the carbon tube surrounding it together as a two-zone electrode.

This electrode then consists of a homogeneous or wicked rod, which contains more than 20 percent mineral substances or metal compounds (but which may also be contained in the possibly existing wicks in greater proportions) and around which a thin, homogeneous shell of pure or only very weakly mineralized coal is pressed around in a soft state. The application of this mantle, in spite of its small thickness must be equally strong and coherent everywhere is best

be accomplished with the help of special presses, as they are z. B. in the patents 152925 and 160092.

The appropriate thickness of the jacket must depend on the composition of the core, according to the type of carbon used for the jacket and the conditions under which the electrode should burn can be found by trial and error. So get

z. B. a mineralized carbon rod of 7 mm in diameter, possibly with a 1.5 to 2 mm strong mineral wick is provided, a coat 1.25 to 1.5 mm thick if the Electrode should burn as positive below the negative.

A good light output is obtained z. B. with an inner (possibly with one of alkali salts rich wick) carbon rod, which against 50 percent calcium salts (e.g.

Fluorine, phosphate etc.) possibly with a small addition of potassium salts. These electrodes are preferably used for. Suitable for use as lower electrodes because the formation of drops at the tip can be more easily avoided here. However, they can also be used as upper electrodes without a disruptive slag formation taking place.
The electrodes described above differ from the usual wick charcoal on the one hand in the significantly different thickness ratio between core and jacket and on the other hand in the way they are burned off. While the wick of a charcoal wick has only V ₄ to V _{5 of} the total diameter of the charcoal, in the above-described dimension of a two-zone electrode according to the present invention, the relationship between the diameter of the inner rod and the total diameter is approximately 7: 9 or better as 7:10, is slightly more than _^2/3 of the total diameter and about half the mass of the entire electrode. With ordinary wick coals and the wicks made of coal powder and mineral substances, the arc is also largely formed on the cross section of the coal surrounding the wick, by hollowing out a crater of larger diameter than the cross section of the wick, with the wick at the deepest point of the crater lies. With the electrodes described above, on the other hand, the arc is essentially only formed on the heavily mineralized, yet carbon-containing core, which, due to the equally fast or even faster combustion of the jacket, never falls behind the latter, but in the latter case protrudes from the jacket. After all, the percentage of mineral substances in relation to the total electrode mass is greater here than in the usual so-called effect wick.

Furthermore, the coating of the mineralized core rod allows on which the arc forms a much better one with the pure or only weakly mineralized coal mantle .Conductivity of the entire electrode and a much higher enrichment (over 20 percent) of the core rod with metal connections than was previously the case with regard to the strong formation of slag was possible. However, the stronger mineralization brings, as from Inventor through experiments was found to have a correspondingly greater luminous efficacy themselves.

It has been set out above and results from the determination of the coal jacket it goes without saying that it is absolutely uniform in its strength and thoroughly homogeneous and coherent must be to burn evenly and always the same resistance Present. "It is therefore completely out of the question, a more than 20 percent mineral substances containing electrode to be provided with an equivalent jacket that you can after the first fire and between the individual volumes with tar or the like impregnated, like this one, incidentally to a completely different one Purpose and with completely different effects, in the American patent ' Fonts 421469 and 422302 was suggested. The procedure described there serves only to clog the pores of porous electrodes made from a mixture of coke, anthracite and 1 to at most 20 percent light-coloring mineral compounds "Passed by a hard retort-carbon-like flaky carbon. A coherent and homogeneous, evenly thick and evenly conductive one Coat of the thickness suitable to avoid slag formation and made the appropriate qualities of coal mixed with tar and soot is according to that process has not been received and cannot be obtained after the same.

A not unimportant role in the manufacture of the new ones highly mineralized coals with a thin, non-slagging coal jacket but the temperature also plays, with the core no The rod and coat are hard-burned. If this temperature exceeds a certain limit, so the mineral components of the core rod melt out and penetrate the Coal jacket, which naturally secretes slag when it burns in the lamp. One According to the present invention, however, such segregation is precisely to be avoided. As a temperature limit below which the jacket is still sufficient during hard firing

Maintaining conductivity without absorbing mineral substances from your core rod is for multi-zone Electrodes with the addition of fluorspar, phosphoric acid lime, calcium borate, etc., for which has been given an example above, a temperature close to icoo ° C. to be observed. ■>

Claims (4)

Patent claims: i. Flame arc lamp for direct or alternating current with one above the other Electrodes, the upper of which is surrounded by a protective device in the form of a plate or shell, characterized in that that the formation of the arc on a homogeneous or with wicks provided, more than 20 percent mineral substances or metal compounds containing carbon rod takes place from a thin, but thoroughly homogeneous, non-slagging coat made of pure or only weakly impregnated with metallic substances, using tar, pitch or other carbon-containing binders bound carbon is surrounded, which burns as short or shorter than the Rod so that the arc cannot form on the jacket. 2. Lamp according to claim 1, characterized in that only the lower electrode is strongly mineralized and as an anode under a pure or · only weakly mineralized Kphlenkathode is arranged. 3. Heavily mineralized arc lamp electrode with thin, non-slagging Carbon jacket according to Claim 1, characterized in that that the thin cooling jacket surrounding the carbon rod is pressed for itself and then glued to the carbon rod. 4. Heavily mineralized arc lamp electrode with thin, non-slagging Carbon jacket according to claim 1, characterized in that the carbon rod and the thin carbon jacket together as a two-zone or (if there are wicks in the tab) a multi-zone strand Presses are made and then fired at such a temperature that the Kchlemantel cannot secrete any slag even after firing.