DE102005062638A1 - Electric discharge lamp e.g. ultraviolet light, has discharge chamber and outer side of discharge chamber arranged with electrodes - Google Patents

Abstract

Electric discharge lamp has discharge chamber and the outer side of the discharge chamber is arranged with electrode (2). The casing of the discharge chamber has a bulge (3) in which an electrode is arranged towards the backing electrode. Independent claims are included for the following: (1) high performance emitter (2) method for production of electric discharge lamp.

Description

The The present invention relates to a gas discharge radiator, in particular for ultraviolet light, with one with filling gas filled Discharge space, with outside the discharge space arranged electrodes and with a to the Electrode connected power source to feed the discharge.

DE 42 22 130 describes such a discharge lamp with means for local field distortion in the discharge space whose walls by an outer 1 and an inner dielectric 2 are formed. It will be a local constriction 12 of the coaxial discharge space is formed. With this ignition aid, the ignition voltage is slightly reduced. This technique is suitable for coaxially arranged discharge spaces where the distance between the inner and outer tubes is up to 5 mm.

It is the task of the invention the ignition voltage to further reduce and increase the power density at a given radiator length.

to solution The task is at least one of the outer electrodes within a projecting into the gas space bulge of the discharge space envelope in the direction the counter electrode laid.

hereby becomes the ignition voltage effectively lowered. this makes possible turn over significantly increased electrode distances the Volume with the same radiator length to enlarge and thus to increase the radiated power per unit length. Power Requirements of 100 W / cm radiator length be enabled especially even up to 500 W / cm. The effect of the invention especially affects coaxial applications. For this purpose is in an inventive development, a recess in the gas space as a support element between the interior and outer tube arranged. The support element stabilized the arrangement of inner and outer tube and allows providing stabilized radiators of great length.

1 shows a cuboid discharge space;

2 shows a coaxial discharge space with a bulge on the inner tube;

3 shows a coaxial discharge space with bulge on the outer tube.

1 shows a cuboid discharge chamber made of quartz glass 1 in which on two opposite outer sides electrodes 2 are arranged. The inner surfaces of the envelope are through a bulge 3 interconnected, wherein in the bulge a metallic conductor 4 is arranged. Basically, an arrangement according to 1 . 2 or 3 at the one electrode 2 with one towards the counter electrode 2 directed electrical conductor 4 shortens the distance between the electrodes. Arrangements have proven particularly suitable according to 1 to 3 , There is a connected to an electrode conductor 4 within a bulge 3 led into the discharge space to just opposite to the opposite inner wall of the gas space. The bulge can contact the counter wall, so that a mechanical support of the inner tube is achieved. Such an arrangement is suitable for particularly long discharge spaces.

To produce the high-power radiator according to the invention, a quartz glass capillary is used 3 with inside and on one side protruding ladder 4 with the quartz glass body 1 and an electrode 2 connected. In the process, the metal becomes 4 on its open side electrically with the electrode 2 connected and the quartz glass of the capillary close to the lamp body 1 completed. With this measure, the ignition voltage is reduced to about half. For standard lamps with ignition voltage of 6 kV (amplitude) now only 3 kV (amplitude) is required. The capillary length is approximately the same length as the discharge path. The capillary then touches the opposite side of the discharge space so that there is still gas between the capillary and the opposite side of the discharge space, which is in exchange with the gas of the entire discharge space.

Opposite without external insulation in the discharge space placed conductors simplifies the production the gas discharge lamps according to the invention, as in the manufacture of the radiator with inventive ignition aid the application of protective gas is no longer necessary. Furthermore results the advantage that in operation the harmful contamination by Sputtering of the conductor placed in the discharge space is omitted.

For gas discharge emitters with a coaxial arrangement, the discharge space is located between the outer wall of the inner tube 1 and the inner wall of the outer tube 1 , Accordingly, the bulge 3 between the outer wall of the inner tube 1 and the inner wall of the outer tube 1 arranged.

One According to the invention executed Koaxialstrahler with a distance of 10 mm between the outer and inner tube can according to the invention with a Power supply of 3 kV (amplitude) to be ignited.

Claims (5)

Gas discharge with a discharge space and outside the discharge space arranged electrodes, characterized in that the enclosure of the discharge space has a bulge, in which an electrode is laid in the direction of the counter electrode. High-power radiator according to claim 1, characterized that its electrode surfaces predominantly 5 mm or more, in particular 10 mm or more, are spaced. High-power radiator according to claim 1 or 2, characterized characterized in that the gas discharge space between two coaxial dielectric tubes is formed. Radiator according to one of claims 1 to 3, characterized that the bulge in the discharge space the inner walls of the Discharge space connects. Method for producing a gas discharge lamp, characterized in that a metallic conductor 4 over a bulge 3 is introduced into the discharge space and is isolated by the bulge from the gas discharge space.