DE1589266A1 - Process for manufacturing incandescent lamps with transport gas filling - Google Patents

Description

Process for the production of incandescent lamps with transport gas filling

The invention relates to a method of manufacture of incandescent lamps with tungsten filaments and a halogen-containing transport gas, with the final production steps the lamp is evacuated, then up to the desired pressure with a mixture of inert gas and a halogenated hydrocarbon st off compound is filled from a storage container and then closed, usually by melting a pump nozzle, which until then is a whole with the piston formed.

The bulb of the incandescent lamp obtained in this way remains until the end of the life of the tungsten filament clear when it is ensured that the piston wall when burning the Lamp reaches a temperature everywhere at which the in tungsten halogen compounds formed by the lamp can condense. In the lamp there is after a few Time burning a dynamic equilibrium in which due to thermal decomposition of the tungsten compound in the vicinity the filament, as much tungsten deposited as evaporated will.

Suitable halogenated hydrocarbons are, for example, tribromomethane (OHBr_), monobromomethane (CH, Br), but in particular dibromomethane (CH ₂ Br ₂ ). Other bromohydrocarbon compounds may also be used together

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with a suitable amount of hydrogen can be used «

A disadvantage of the preferably used dibromomethane from a manufacturing point of view is that it is proportionate low vapor pressure of this compound at room temperature. This is only about 40 Torr at 25 G.

Due to practical considerations, the partial pressure of the dibromomethane in the storage containers must not be equal to this vapor pressure. It must be avoided that condensation of the dibromomethane occurs in the storage containers as a result of the decrease in temperature. These temperature drops can occur, for example, at night or on weekends. The consequence of condensation is that the composition of the gas mixture in the storage containers changes in a disadvantageous manner. After a temperature increase, it takes a long time before a homogeneous gas mixture is again present in a container in which condensation has occurred. For this reason, the storage containers are usually filled with dibromomethane to a partial pressure of about 28 Torr, which corresponds to the pressure of this compound at about 16 ⁰ C.

That means in practice, for example, that in one particular case of a container with a content of 8 liters filled with a gas mixture of krypton and dibromomethane up to a pressure of 8.2 atmospheres, taking into account losses approx. 10,000 lamps

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with a volume of about 0.25 cm up to a pressure can be filled by approx. 5 atmospheres.

In this case, the storage container can be used until the pressure in it has dropped to approx. 1.2 atmospheres » Then the container is emptied, with a number of liters of krypton of 1.2 atmospheres, equal to the water content dea container, get lost. It is not possible,

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To refill a container with a pressure of 1.2 atmospheres within a short time with a mixture of krypton and .GHpBr _2, because the vapor pressure of the latter is too low 1O ₀ OOG lamps to replace the storage containers interrupted v / earth.

The invention now aims to reduce these disadvantages, in particular, it aims to fill more lamps from a storage container to prevent the loss of noble gas and limit the number of times that a new gas mixture has been prepared and placed in the reservoir for storage must be given to decrease.

According to the invention, this can be achieved. that a gas mixture is used in which bromine and chlorine either in the form of a mixture of bromine and chlorinated hydrocarbons or in the form of a bromine chlorohydrocarbon available·

The greatest improvement is achieved when bromochloromethane (CH ₂ BrCl) is used. Under comparable conditions, the permissible partial pressure of this connection in the storage containers is approx. 90 Torr. This means that with a reservoir filled to this pressure with bromochloromethane, if the partial pressure of the inert gas is adjusted accordingly, about three times as many lamps with the same halogen percentage as is possible with bromomethane in the manner described can be filled.

In this way, the loss of noble gas drops to about 1/3, while the labor time for replacement, filling and the like can be brought back to 1/3.

However, there is also already a significant saving ■ '-''. . ■ -'- ■■■■■■ ^: '■■ / ■■ ..-. - 4 _

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obtained when the gas mixture contains both dibromomethane also contains dichloromethane with the same partial pressure. In this case, about twice the number of lamps can be used can be filled from a storage container, while working time savings of around half can be achieved for certain parts of the production process

The invention is based on the application of the property that the mixed bromochlorohydrocarbon compounds and the chlorinated hydrocarbon compounds generally have a higher volatility than the corresponding bromocarbon compounds *

It has been found that in lamps containing a bromine Contain transport gas, for example half of the bromine can be replaced by chlorine; with this composition, in which the bromine-chlorine ratio is 1: 1, are get additional benefits. The hydrogen / halogen ratio is preferably in gram atoms also 1: 1.

It turns out that when using such Ratio the total amount of halogen (bromine together with chlorine) in gram atoms in the lamp can be smaller than with just bromine, with a constant service life and luminous efficiency of the lamps.

The process according to the invention is of course not restricted to the use of bromochloromethane (CH ₂ ClBr) or mixtures of CH ₃ Br ₂ and CH ₂ Cl ₂ . For example, mixtures of CHBr and CHCl, optionally with the addition of hydrogen to the gas mixture, can also be used. Mixtures of CHBr ₂ Cl ₂ and CHBrCl or higher hydrohalocompounds or higher mixed halogenated hydrocarbon compounds can be comparable

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On the basis of the exemplary embodiments that now follow, in which Reference is made to the drawing, in Figo 1 schematically the filling (with transport gas) of the lamps according to the Invention and FIG. 2 show a filling valve, the invention will now be explained in more detail.

In Figo 1, a device for filling incandescent lamps with filling gas is shown schematically. The device essentially consists of a storage container 1 and a pipeline 2, 6 and 7. In the pipeline 2, a reducing valve 3 and a filling valve 4 are arranged. The pipe 2 is connected by means of a three-way valve 5 to a pipe 6, which is used to convey the filling gas to the incandescent lamps to be filled, and to a pipe 7 'which is connected to a vacuum pump, not shown, which is used to evacuate the system. In a specific case, the pressure in the reservoir 1 with a content of 8 liters is initially 24.6 atmospheres. The gas mixture consists of krypton and 0.45% by volume of _{CH 2 BrCl.} The reducing valve 3 ensures that the pressure between the reducing valve and the filling valve 4 is a constant 1.2 atmospheres, as long as the pressure in the storage container has not fallen to this pressure.

In Fig. 2 is a schematic section through a filling valve 4 shown. The filling valve consists essentially of a spindle 8 in which a cavity 9 with a content of 2 cm is available, which rotates in one with two openings 10 and 11 adjoining the lines 2 seat 8a is located. The filling tap is further provided with a pipe 12 which is connected to a vacuum pump. The spindle 8 can move when filling do not loosen it from the seat 8a.

With the help of this tap 4, a metered amount of filling gas

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into the rest of the system. When filling the Incandescent lamp proceed as follows: Incandescent lamp 16 is connected to the pipeline 6 by means of the pump nozzle 13 connected »The filling system is now evacuated from the filling valve 4, including the incandescent lamp, until the pressure is approx. TO Torr is. The pipeline 7 is then closed by means of the three-way valve 5. The filling valve 4 is now like this rotated that the room 9 is connected to the evacuated part of the system. Since the lamp 16 (content approx. 0.25 cm) must be filled to a pressure of about 5 atmospheres at room temperature, this is in a vessel 15 with liquid air 14 provided. Waking up a few seconds, the pump nozzle is immediately above the surface of the liquid Air 14 in the vessel 15 is melted shut with the aid of a gas flame (not shown). The lamp is now ready for use.

Taking into account losses, more than 30,000 lamps can be filled from just one storage container. At a pressure of 8.2 atmospheres in the container, which is the _{maximum possible when using CH 2} Br ₂ , this number is approx. 10,000 lamps.

In the case of incandescent lamps with a gas filling of approx. 1 atmosphere, which consists of a gas mixture of, for example, argon and GH ₂ Br ₂ or CH ₂ BrOl, it has been found that CH ₂ Br _? can be replaced by a smaller amount of CHpBrCl.

In a practical example, as a photographic lamp of 1000 W at 225 V with a Färbtemperatur of 340O ⁰ K can, which consists of 700 Torr Ar + 8 vol. # IT ₂ + 1 VoI "fo CH ₃ Br ₂ gas filling through 700 Torr Ar + 8 _{Vol. $ N 2} + 0.5 Vol. $ CH ₂ BrCl are replaced. A lower halogen partial pressure, which is built up from chlorine and bromine in a ratio of 1: 1, is sufficient to maintain the cycle, while the light output of the lamp is approx. 32 lumens per Y / att and the service life approx. 30 hours is maintained at least . - 7 -

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Another advantage of the method of the invention lsi; still, -that certain lamps only thanks to this process can be produced. ,. . .

E ε vmr so far, not possible with bromine or iodine-containing S ¹ UlIgas to produce elongated cylindrical lamps for burning in a vertical position with a very high load and a high noble gas pressure. With this type of lamp, segregation occurred, as a result of which the iodine or bromine concentration at the top and bottom of the burning lamp differed greatly over time. As a result, the lamp began to blacken at one of the filament ends due to a local lack of halogen, while the other end of the filament was severely attacked by an excess of atomic halogen. This then resulted in lamps with a black end and a relatively short lifespan ο ...

It has now been found that in such lamps the tungsten halogen cycle is caused by chlorine _; and bromine can be maintained together without blackening of the bulb and attack of the incandescent body. The good effect of the vertically burning lamp is guaranteed, despite the segregation of the gas filling of the lamp. The segregation, however, is such that the tungsten halogen cycle runs on one side of the lamp in the v / es between tungsten and bromine and on the other side of the lamp chamber the cycle runs essentially between tungsten and chlorine. In the middle of the lamp, both cycles play a role.

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Claims (1)

- ■ 8 .- claims 1. Process for the manufacture of incandescent lamps with tungsten filaments and 'a halogen-containing transport gas, where as last manufacturing steps the lamp evacuated, then up to the desired pressure with a mixture of inert gas and a hydrogen halide compound is filled from a storage container and then closed, characterized in that a gas mixture is used in which bromine and chlorine are either in the form of a mixture of bromine and chlorine carbon, water or in the form of a Bromochlorohydrocarbons are present. 2. The method according to claim 1, characterized in that that a gas mixture is used in which the bromine-chlorine ratio in gram atoms is 1: 1 and where the Hydrogen-halogen ratio is also 1: 1. 5. The method according to claim 1, characterized in that that a gas mixture is used in which bromochloromethane is present » 4. The method according to claim, characterized _r that a gas mixture is used in which dibromomethane and dichloromethane in a ratio of 1: are in gram-moles ~ 1 ktilen present. 5. By the method according to the preceding claims 1 to 4 lamps produced, in particular also vertically burning lamps » New documents (ArtriiAbfciNr.TSrtradMÄrKiwuno ^ w.v.4.9.19571 'O -Q - 9 8 · 1 .U / .1 O-5 T