DE7111645U - HIGH PRESSURE DISCHARGE LAMP - Google Patents

Description

Patent trust company for electrical light bulbs mbH, Munich High pressure discharge lamp *)

The innovation relates to a high-pressure discharge lamp, preferably one Sodium vapor or a metal halide discharge lamp, where the Discharge vessel is surrounded at a small distance by an envelope, whereby an additional heating of the discharge vessel is effected.

With metal halide discharge lamps with an ellipsoidal hair dryer Enveloping bulb surrounds the cylindrical discharge vessel with a wide gap, it is known to introduce the bromide of the metal as a halide. The bromine is in a stoichiometric ratio to the metal introduced "It is emphasized that failure to observe the stoichiometric This ratio brings disadvantages, namely with more bromine the red part of the spectrum is weakened, with less bromine brown spots appear on the Lamp inner wall on.

In contrast, the high-pressure discharge lamp, preferably sodium vapor or Metal halide discharge lamp, with one of a envelope bulb surrounding discharge vessel, the ratio of envelope bulb inside diameter and burner outside diameter 3 ti to 1.05 t 1, thereby characterized that in a metal halide discharge lamp the discharge

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The charge vessel contains at least rare earth bromides and a bromine excess of 0.1 to 3 mg / cm which exceeds the stoehiometric ratio of the combination of bromine and rare earths. The bromine excess is preferably 0.2 to 0.8 mg / cm. The amount of bromides of the "rare earths", 'äj *> £. £ 10 sg / es:, vursügsvisiss ~ t3 to 5 mg / cm. The preferred rare earths are dysprosium, holmium,

Thulium, used alone or in coordination. Also includes the

3 3

Discharge vessel 1 to 8 mg / cm of mercury, preferably 1 to 6 mg / cm,

and possibly, to stabilize the arch, up to 6 mg / cm, preferably up to 4 mg / cm, of cesium halide, generally as cesium iodide, as well as a noble gas as ignition gas.

In the figure, an embodiment of the innovation is given.

The discharge vessel 1 made of quartz glass has a pinch seal at each end 2, 3 closed, through which the power supply lines 4, 5 are vacuum-tight are led. There are pen-shaped electrodes from non-activated Tungsten used. The filling introduced into the discharge vessel consists of 1.5 mg thulium, 7 ng mercury bromide (HgBr), 4 mg

Cesium iodide (CsI), 1 mg mercury and 50 torr argon. The discharge

vessel has a volume of 2 cm. The mercury bromide reacts in the discharge vessel with the thulium according to the equation 2 Tm + 3 HgBr>

2 TmBr + 3 Hg, the amount of HgBr is such that after the reaction

tion with complete conversion an excess of 0.5 mg / cm bromine in the discharge vessel is available. The ends of the discharge vessel 1 are provided with a heat-accumulating coating 6 made of ZrO. The power supply lines 4, are electrically conductive at their ends located outside the discharge vessel 1 with a disk 7 made of metal, e.g. made of nickel or molybdenum tied together. The disc 7 is provided on its circumference with several supports 8, which are used to resiliently hold the discharge vessel 1 in the surrounding Serving envelope bulb 9 made of quartz glass. With the power supply lines 4, a conductor 10 or 11 is connected via the disk 7 j ^, which in turn are guided vacuum-tight by means of the film pinches 12 and 13 through the ends of the envelope piston. The ceramic bases are on the pinches 12, 13 l4, 15 attached. With l6 aas is located within the envelope

' borrowed getter. The envelope piston 9 is evacuated. The inner diameter of the envelope bulb 9 is 20 mm, the outer diameter of the discharge vessel 1 is 13.5 mm, so that the distance between the two vessels is approximately 3.3 mm. The entire lamp has a length of about 16 µm. The lamp is operated in a horizontal position and with a power consumption of 250 W and an operating voltage of around 100 V has a light output of around 80 lm / V.

In contrast to the prior art, the bromine excess has surprisingly been found According to the innovation in lamps with the increased wall load on the discharge vessel due to the narrow envelope, it is very advantageous proven. Up to now, as already mentioned, with the usual lamps there has been a loss of intensity in the red spectral range with an excess of bromine and corrosion on the internal parts of the lamp. With the increased wall load of the lamps designed according to the innovation, the familiar occurs Halogen cycle already at such a low excess of bromine that the disadvantages of using bromine above the stoichiometric Ratio hitherto opposed to be avoided. With the lamps according to the innovation, this is also after 1000 burning hours and frequent switching - in contrast to similar lamps with iodine filling - no blackening of the inner wall of the discharge vessel and none caused by it Noticeable drop in light output.

- Protection claims -

Claims (4)

1. High pressure discharge lamp, preferably sodium vapor or metal halide vapor Discharge lamp, with a discharge vessel surrounded by an envelope, in which the ratio of the envelope inner diameter and burner outer diameter is 3 * 1 to 1.05 J 1, thereby characterized in that in a metal halide discharge lamp the discharge vessel at least bromides of the rare earths and one the stoichiometric ratio of the compound of bromine and rare Earth contains excess brons of 0.1 to 3 mg / em. 2. High pressure discharge lamp according to claim 1, characterized in that that the discharge vessel has a bromine excess of 0.2 big 0.8 mg / cm contains. 3 high pressure discharge lamp according to claim 1, characterized in that that the discharge vessel 0.2? up to 10 mg / cm bromide of rare earths, 3 3 an excess of bromine of 0.1 to 3 mg / cm, 0 to 6 mg / cm cesium halide, preferably cesium iodide, 1 to 8 mg / cm of mercury and contains a noble gas as ignition gas. 4. High-pressure discharge lamp according to claim 2, characterized in that the discharge vessel 0.5 to 5 mg / cm bromide of rare earths, a bromine excess of 0.2 to 0.8 mg / cm, 0 to 4 mg / cm cesium halide, preferably cesium jo «
contains a noble gas as ignition gas. halide, preferably cesium iodide, 1 to 6 mg / cm of mercury and High-pressure discharge lamp according to Claims 1 to 4, characterized in that that the discharge vessel contains the bromides of dysprosium and / or holmium and / or thulium. Dr. Hz / Mü