DE240560C - - Google Patents

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- M 240 560 CLASS 21 /. GROUP

Process for the manufacture of incandescent lamps.

Patented in the German Empire on May 14, 1908.

The filament, which is injected with the help of organic substances, such as z. B. carbon filaments or some of the recently used tungsten filaments contain even after carbonation, d. H. after they have been annealed in the furnace, there are still considerable amounts of hydrocarbons, which escape when the lamps τ are on and then cause malfunctions give. In order to remove the hydrocarbons from the carbon threads, it is proposed It has been suggested that the filaments are annealed in the electric furnace, however this is only possible on a very large scale and therefore also relatively expensive to carry out. It has also been proposed to anneal the metal filaments in nitrogen or ammonia gas. However, this procedure only works with the metal threads, while the carbon threads are destroyed in this process would. Furthermore, the ammonia gas or nitrogen gas has the disadvantage of a relatively to be a good conductor of electricity, so that only threads of low tension in these gases can be annealed. So it must be the threads of the metal filament lamps can always be annealed individually, while in the process described below it is possible is to glow all the threads of a lamp at once.

This new process is based on the fact that the threads after their carbonization in phosphorus trichloride or phosphorus tribromide are calcined.

This procedure is inconsistent with the well-known malignancy procedure. confound.

of H ₂ 0

The purpose of the latter is to remove only the air residues from the lamps. The hydrocarbons, however, which are in the threads, are not leached out by the phosphorus, since the phosphorus only mixes with hydrogen when it is added
connects.

The composite halogen gases have a different effect. These decompose in the warm state avid hydrocarbons, so that the hydrocarbons contained in the threads can be quickly destroyed when glowing.

It is important that enough gas is let into the bell jar during this process that under no circumstances can a gas-free space be created during the process.

When using carbon threads, it is advantageous to carry out this process before the preparation to be carried out, as the hydrocarbons can be removed more easily from the threads, as if the pores of the threads are partially blocked by the preparation.

The process can also be combined with the pumping process by using the Lamps evacuated well at first, then let the gas into them in excess, whereupon the threads are annealed. According to this, those in excess must be in the lamp Any gases located in turn are sucked off. In this case, however, it is allowed to especially if base metals are used in the lamps, not too much gas into them Lamps are let in, otherwise an opaque deposit on the glass wall would arise. This precipitate appears to be composed of halogen compounds of the base

Metals to exist and does not let itself through Warm up, but simply remove it from the lamps with water.

As a result of the very poor electrical conductivity of the above-mentioned composite halogen gas, it is possible to glow bright white in the gases on 220 volt lamps without the current going over from one pole to the other.
Since the chloride is more powerful than the bromide, the chloride is to be preferred. Free halogen gases can be used for

·. do not use this process, as they are on the one hand better conductors of electricity and on the other hand destroy the metal parts of the pumps in a short time, while the assembled, The above-mentioned halogen gases in a cold state destroy the metal parts the pumps do not effect; the oil can also be used for a long time.

Claims (1)

Patent claim: Process for the production of incandescent lamps, characterized in that the Filaments after their carbonization in phosphorus trichloride or phosphorus tribromide to be annealed.