DE1965229A1 - Electric halogen lamp - Google Patents

Description

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TOKYO SHIBAURA ELECTRIC CO. LTD., Kawasaki-shi / JAPAN Electric halogen lamp

This invention is concerned with a lamp, but is more particularly concerned with an electric halogen lamp.

So far, the most varied designs of electric halogen lamps have been proposed, for example, in which such halogens, such as iodine (I), bromine (Br), chlorine (Cl) and non-bromide iodine (IBr) or such hydrocarbon halides, such as methyl bromide (CH ₃ Br), methylene chloride (CH ₂ Cl ₂ ) together with nitrogen or a protective gas, which / which has to bring about a halogen regeneration process for these halogens, are enclosed in glass flasks. However, these previous lamps have had the disadvantages mentioned below.

It should be especially pointed out that halogens are very harmful, even if only in one very small amount are available. It should also be pointed out that the chemical affinity or binding capacity of the halogens to other substances is very strong. So that the workers are not endangered, must for this reason absolutely in the manufacture of such halogen lamps greatest care must be taken. Because these properties and characteristics especially for iodine, bromine and iodine bromide apply, these substances not only require careful handling, they also react to Sealing elements made of metal or rubber and cause their corrosion. They also make these properties

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and features during operation of the lamps incomplete the halogen regeneration process. But this is, for example, with electric lamps, where the
The operating temperature of the bulb wall becomes greater than 250 ° C, making it difficult to control the amount of trapped halogen.

If the amount of halogens is too small, blackening appears on the wall. On the other hand, if the amount of halogen is too large, this leads to parts of a relatively low temperature, for example
the anchors for the filament or the joints between the filament and the anchors,
corrode under the action of halogen atoms. Halogen lamps with two connecting pins - these lamps for use in cinematographs - have the problems of corrosion and blackening described above
In addition, the electrical insulation between the
inner legs of the lead respectively on these pins are destroyed and an electric arc is thereby caused, so that it is necessary to use the halogen gas
also to melt or enter a carrier gas of a special composition. Such a carrier gas is composed, for example, of 86% by weight argon
™ and 14% by weight nitrogen. This carrier gas has to prevent arcing.

This invention aims to make halogen lamps larger
To create efficiency which are not subject to problems or blackening and corrosion and
which can ensure a satisfactory halogen regeneration process. In the context of this invention, the halogen enclosed in the flask together with a nitrogen gas and / or protective gas, for example argon, is chlorine and fluorine. This chlorine and this fluorine become

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each in quantities from 0.05 χ ΙΟ "to 1.00 χ 10 Gramma tomen used per cubic centimeter of internal volume of the piston or in amounts from 0.05 χ 10 ~ to 1.50 χ 10 ~ Gram atoms per cubic centimeter of internal volume of the piston.

According to another aspect of this invention, chlorine, fluorine and carbon (hydrocarbon?) Are considered organic Compounds used, so that to the merit of avoiding the corrosion problem and the blackening problem already described above, the advantage of Organic compounds are added, which is that they are colorless and not harmful to humans ε ind.

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The features and objects of the invention are best understood after reading the description given below and the drawings accompanying this patent application can be used as an aid. In detail are:

Fig. 1 is a front view of a halogen lamp falling within the scope of this invention.

2 shows a perspective illustration of an altered and modified embodiment of the subject matter of the invention.

As already described above, within the scope of this invention, together with nitrogen gas and / or protective gas, 0.05 10 ~ gram atoms to 1.00 χ 10 ~ gram atoms of chlorine and 0.05 χ 10 gram atoms to 1.50 10 gram atoms of fluorine per cubic centimeter of internal volume of the glass bulb. However, it is advantageous to use chlorine and fluorine in combination with carbon (hydrocarbon?). Hydrocarbon halides or compounds of fluorine, chlorine and carbon (hydrocarbon?), For example dichloridfluoromethane (CF ₂ Cl ₂ ) or 1,2-dichloro-l, 1, 2, 2-tetrafluoroethane (C ₂ Cl F ₄ ), are colorless, so that glass bulbs which are filled with these hydrocarbon halides no longer have a light absorption, as is the case with the conventional and conventional iodine lamps, and have a very high light output. In addition, because of the harmlessness of these hydrocarbon halides, their handling is completely harmless. Because these hydrocarbon halides are also very chemically stable at room temperature, there is never any corrosion of metals, so that the maintenance and upkeep of the gas sealing device is also ensured. In the end

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is particularly pointed out that 500 does not come with these hydrocarbon before heating to temperatures of more than 600 ⁰ C to a chemical degradation. In this way, however, parts with a relatively low temperature, for example mountings and anchors, are not corroded. Only in parts of the lamp that reach high temperatures during operation of the lamp, for example the middle part of the tungsten filament, are the constituents of tungsten fluorine and tungsten chlorine resulting from chemical decomposition subjected to a satisfactory halogen regeneration process, which in turn also causes blackening is avoided.

Referring to Fig. 1, an embodiment of a halogen lamp of this invention which has a conventional appearance is shown. In short, this lamp consists of a cylindrical glass bulb or of a cylindrical envelope 1 made of glass, in which a filament designed as a tungsten filament 2 is installed in the transverse direction. The opposite ends of the filament or the coil are guided over the connecting wires 3 on metal foils 4 in the pinched part or in the pinch foot of the glass bulb 1. The aforementioned foils t are connected to the connecting pins 5 which protrude from the base of the lamp. Enclosed or melted in the glass flask under a pressure of 600 to 700 mm mercury column 0.10 χ 10 " ⁶ mol dichlorodifluoromethane (CF ₂ Cl ₂ ) per cubic centimeter of internal volume of the flask, and also argon gas.

After an operating time of 70 hours, lamps which were filled with these gases and for 24 V, 150 W,

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33 lm / W were designed, no tendency to blacken the wall and for corroding parts at low temperatures. They also showed satisfactory halogen regeneration .

In lamps of the construction described above, gases of the compositions mentioned below were filled. the The lamps produced in this way were tested.

Type of gas

Monochlorofluoromethane (CHF-C1) dichlorofluoromethane Dichlorotetrafluoromethane

Filled
(Micromoles j
meter) lot
e cubic centi- 1, £ away 1, 04 0.11 0, 53 1. 02 0110 0, 50 04 0.10 0, 49

Lamps with a filling of CF ₃ Cl ₂ and C ₂ Cl ₂ F ₁ . showed no tendency to blacken, while lamps with a filling of CHF ₂ Cl or a combination of hydrogen with the addition of chlorine and fluorine, however, tended to blacken. As for these cases, however, it has been found that the blackening phenomenon can be avoided if the molar weight ratio of fluorine and hydrogen is selected in a range from 4: 1 to 5: 1. In other words: hydrogen can be present with other elements with a suitable choice of quantity within the scope of the invention.

On the other hand, the lamps described above used iodobromide as a halogen gas. The test result showed that conventional lamps lead to the formation of arcs and the destruction of the filament filament has come to an end, while such difficulties have not been observed with lamps of this invention have been.

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Another and modified embodiment of the subject of the invention, which is designed for 100 V, 500 V /, is shown in FIG. This changed and modified embodiment includes a cylindrical tube 10 made of transparent glass or transparent glass, into which a tungsten coil 12 is inserted. This filament 11, designed as a tungsten coil, is held in its length by the anchorages 12 in such a way that the filament is arranged in the longitudinal axis of the glass tube. At the two opposite ends of the glass bulb or the glass tube has the pinch parts 13, in which molybdenum foils 14 are hermetically enclosed. The opposite ends of the filament filament 11 are guided via the connecting wires 15 to the respective foils 14. The connecting pins 16 are connected to these foils 14. Inside the glass tube there is an atmosphere of the type described above or a mixture of argon and CF ₂ Cl ₂

The lamps of this design were also subjected to the same endurance test under the same nominal voltages. To an operating time of 10 hours was that on the low temperature parts the lamp caused so little corrosion that it did not affect its normal operation. One No blackening was observed in any case. It has been found that the lamps of this design are special are advantageous for use as high-performance lanes with more than 25 lm / W.

For comparison, iodine bromide was added to the lamps of the same construction, but these lamps were also rejected, because corrosion and blackening had been found.

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From the description given above it can be concluded that the object of this invention can be achieved as long as the filled and enclosed gas consists of 0.05 10 "to 1.00 χ 10" gram atoms of chlorine per cubic centimeter and 0.05 χ 10 to 1.50 χ 10 Gram atoms of fluorine per cubic centimeter. In order to more clearly put it: with less than 0.05 χ 1O ^- gram atoms / cubic centimeter of both chlorine and fluorine, the object of this invention can not be achieved while a chlorine content of more than 1:00 χ 10 ~ gram atoms 8ND a fluorine content of more than 1:50 χ 10 "gram atoms leads to an excessive amount of halogen and thus to severe corrosion of the low-temperature parts of the lamps. For chlorine and fluorine, the upper limits are generally as described above, and those that are fogged in this area, can easily determine the appropriate amount within the range given above, depending on the output, luminous output, construction and design as well as the nominal output of the lamp. However, the preferred amounts are in the range from 0.05 to 0.2 χ 10 "gram atoms per cubic centimeter for chlorine and from 0.05 to 0.40 χ 10 ~ gram atoms per cubic centimeter for fluorine. The best results are achieved when less than 01 gram atoms per cubic centimeter of chlorine and copper are used.

If, because of the getter effect of the carbon, the Addition of a suitable amount of carbon to the chlorine and to the fluorine appears advantageous, so it turns out however, an excessive amount of carbon settles on the high temperature parts of the lamp bulbs and causes blackening, which in turn reduces the lighting effect. It has been experimentally confirmed that

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that when it is used in the form of a halogenated hydrocarbon, there will not be any problem. Even if CHF-Cl, which contains fluorine, chlorine, carbon and hydrogen, cannot be used individually due to the failure to observe the ratio of fluorine and hydrogen, experiments have shown that CHF ₂ Cl can then be used if, by mixing with CF ₃ Cl ₂ and / or C Cl ₃ F _1+, the molecular ratio between fluorine and hydrogen is U: 1 to 5: 1.

The reason for that the blackening of the glass bulb wall and the corroding of the low-temperature parts belonging to the lamp when used with halogenated hydrocarbons, which in a combined manner fluorine, chlorine and contains carbon using the aforesaid fluorine, chlorine and carbon when using the aforementioned fluorine, chlorine and carbon-containing hydrocarbon instead of the conventional one halogenated compound in the same amount, can be completely avoided, is attributable to the fact that compared to the conventional halogen compound because of the intense binding force of fluorine The area of complete decomposition or complete degradation is narrowed. This can be done differently as follows expressί because the fluorine atoms only move at high temperatures can decompose, the fluorine atoms become effective by being associated with impurities Create stable connections in the glass bulb or with that of the high-temperature parts of the filament or filament evaporated tungsten react and thereby build up the halogen regeneration process better than the chlorine cycle.

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It should be noted in particular that CF ₀ Cl ₀ and C ₂ Cl ₂ F _{1+ are} themselves fluorine compounds or compounds of fluorine, chlorine and carbon and have excellent electrical insulation properties. In this regard, it has been confirmed that the inclusion of a very small amount of a halogenated hydrocarbon greatly improves the insulation breakdown voltage, which can completely avoid the problem of arcing in the aforementioned two-pin lamps for conomatographs.

It should be noted that this invention is never, and in no way intended to be limited to the specific embodiments of the subject matter of the invention described above. For example, instead of the compounds fluorine, chlorine and carbon can be added individually to the glass flask, where it is then made to react. Alternatively, suitable mixtures of CF ₂ Cl ₂ , C ₂ Cl ₂ F ₁₊ or CHF ₂ Cl can be used. Furthermore, another compound can be added to the mixture without departing from the spirit of this invention. For example, trichlorofluoromethane (CFCl ₃ ), chlorotrifluoromethane (CF ₃ Cl), 1,1,2-trichloro-1,2,2-trifluoromethane (C ₂ Cl ₃ F ₃ ), 1-chloro-1-difluoromethane (C. ₀ H ₀ F ₀ Cl) and chlorofluoromethane or the like are used

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will. Furthermore, fluorine and chlorine can be entered as compounds of other substances, for example silicon fluoride (SiF ₄ ) and silicon tetrachloride (SiCl ₁₊ ). Such silicon compounds have less corrosion properties than the input of fluorine and chlorine. In addition, the silicon will not affect the properties and characteristics of the lamp.

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In addition to argon, krypton and nitrogen can be used as protective gas, for example either individually or in combination.

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Claims (8)

21 695 1 QC c i on 12/23/1969 - a -r- TOKYO SHIBAURA ELECTRIC CO.LTD., Kawasaki-shi / JAPAN claims 1) A halogen lamp, consisting of a glass bulb in which there is a filament or a filament as well as nitrogen and / or protective gas and a halogen gas. The halogen lamp
characterized in that the halogen gas is at least chlorine and eluor; to the aforementioned second gas 0.05 χ 10 to 1.00 χ 10 gram atoms of chlorine and 0.05 χ 10 to 1.50 χ 10 "gram atoms of fluorine per cubic centimeter of volume of you of the aforementioned lamp envelope. -A 2 - 009833/1354 21 695 December 23, 1969 9ü52 29 bh. - A 2) A halogen lamp according to claim 1, characterized in that the aforementioned second gas contains carbon. 3) A halogen lamp according to claim 1, characterized in that the aforementioned second gas is a hydrocarbon halide is which contains chlorine and fluorine. 4) A halogen lamp according to claim 3, characterized in that the aforementioned second gas is selected from a group consisting of monochlorofluoromethane and Dxchlorotetrafluoromethane is formed. 5) A halogen lamp according to claim 3, characterized in that that the hydrocarbon halide continues to be hydrogen contains, molar ratio of halogen to hydrogen where 4 · ί 1 to 5: 1. 6) A halogen lamp according to claim 5, characterized in that the hydrocarbon halide is a monochlorodifluoromethane is. 7) A halogen lamp with a transparent glass bulb, with a filament or a filament in this glass bulb, with two electrically conductive foils, which are fused to opposite ends of the glass bulb are, with two connecting wires, which connect the aforementioned helix to the aforementioned foils as well as with two connecting pins, which are connected to the foils and through the outer ends of the glass QQ9833 / 13E4 - A 3 - _ßW3 21,695 19Ü5229 December 23, 1969 bh.bi piston are led to the outside with argon gas and with a halogen gas. The halogen lamp is characterized in that the aforesaid is a mixture ₉ which is chlorine - ■ R - R and fluorine in the amounts of 0.05 10 "to 1.00 χ 10" gram atoms per cubic centimeter of internal volume of the piston and from 0.05 10 "to 1.50 χ 10" gram atoms per cubic centimeter of internal volume of the glass envelope. 8) A halogen lamp according to claim 7, characterized in that the filament or the helix is arranged in the longitudinal direction of the already mentioned glass bulb and held by several anchors, which are present along the filament at certain intervals will. - End - 009833/1354