SU728182A1 - Metal and halogen vapour-filled tube - Google Patents

Description

(54) METAL HALOGEN LAMP

one

The invention relates to gas discharge lamps, in particular, metal halide lamps designed to illuminate various objects with high efficiency (light output) and good color reproduction.

Metal halide lamps are known in which white radiation is produced from the total radiation of indium (blue), thallium (green) and sodium (yellow-red), used as additives to mercury discharge 1, 2 and 3.

The advantage of these lamps is in principle the possibility of obtaining an ideal white color. However, it is necessary to overcome great difficulties in achieving reproducibility of the color of radiation from one lamp sample to another, as well as during the service life. This is explained by the fact that a large input number of radiating fillers (three) and chemical, the sodium activity with respect to the quartz glass of the flask leads to the fact that maintaining the amount of each filler within the required limits of one hundred ovits is almost impossible.

Metal halide lamps are also known in which, instead of three radiating components, two fillers are introduced that provide the white color of the lamp radiation — dysprosium and thallium 4.

This technical solution eliminates the use of sodium iodide along with the characteristic disadvantages described above, and involves the use of an additive of certain amounts of thallium and rare earth iodides, namely, dysprosium, to the mercury discharge. Dysprosium can also be added as dysprosium iodide,

However, the latter is very hygroscopic and this property complicates the technology of its insertion into the lamp, therefore dysprosium is introduced in a metallic form, and the necessary for operation dysprosium iodide is then formed in the lamp by a substitution reaction from mercury iodide.

The disadvantages of the prior art solution, namely the replacement of sodium and indium, are dysprosium:

a) the chemical activity of dysprosium with air oxygen, which creates a problem

storing and recovering it to prevent oxygen from entering the lamp;

b) the hardness of evaporation of iodides of rare earth metals, which causes the lamp to decrease in size to increase the temperature of the flask and which leads to a decrease in service life; c) chemical activity (to a lesser extent than sodium) of metallic dysprosium with respect to quartz glass, which leads to the appearance of dark spots on quartz glass before dysprosium combines with iodine released from mercury or thallium iodide;

d) the cost of metal dysprosis is high.

The purpose of the invention is to simplify the manufacturing technology and increase the durability of the lamp while maintaining high light output and high-quality color reproducibility.

To achieve this goal, in a well-known metal-halogen lamp containing an optically transparent glass flask with electrodes installed in it, filled with inert gas, mercury, iodine, thallium, which determines the green color of the radiation, and metal, which determines the blue-red color of the radiation, as said tin is selected, the gram atomic ratio of iodine, thallium and tin is 20 ± 5%, 0, and 6 ± 5% parts, respectively; in addition, the number of gram atoms of tin relative to the number of mercury grammators is 5-7%. This ratio provides the white color of the lamp radiation. Maximum luminous efficiency of the lamp is achieved if the number of tin grammators to the number of gram atoms of mercury is 5-7 ° C. A specific embodiment of the invention can be a white metal halide lamp with a power of 2 kW containing xenon at a pressure of 45 mm Hg. Art., mercury in the amount of 240 mg, tin - 7 mg, tally - 0.5 mg and iodine - 26 mg.

The use of tin greatly simplifies the technology of the introduction of fillers, since

it does not oxidize in air, does not absorb moisture; in addition, an alloy can be prepared from tin with thallium and used as a starting material for filling with a specified ratio of components (thallium 7–10 w / v, tin — the rest). Tests of the lamp showed that its light output and chromaticity are at the level of the known lamps with dysprosium, however, no traces of reaction are observed for a lifetime of about 2000 hours.

filler (tin) with quartz glass.

Claims (4)

1. A metal halide lamp containing an optically clear glass flask with electrodes installed in it, filled with inert gas, mercury, iodine, thallium, which determines the green color of the radiation, and metal, which determines the blue-red color of the radiation, characterized by that. That, in order to simplify the manufacturing technology and increase the durability of the lamp while maintaining high light output, tin is selected as the specified metal, the gram-atom ratio of iodine, thallium i and tin is 20 ± 5%, 0%, and 6 ± 5% respectively. 2. The metal halide lamp according to claim 1, wherein the number of tin grammators with respect to the number of gram atoms of mercury is 5-7%. Sources of information taken into account in the examination 1.Patent of Japan No. 46-19392 Cl. 93 D 221, 05.31.71. 2. For Japan No. 48-1915, 5th grade 93 R 221, 01.20.73. 3. For Japan No. 49-18193, cl. 93 D 221, 08.05.74. 4. US patent number 3452238, cl. 313-229 1970.