DE3617662A1 - Discharge lamp - Google Patents

Abstract

The invention relates to a discharge lamp having a gas-filled housing (1) in which two electrodes (4, 5) are sealed. The electrodes (4, 5) are arranged on that side (2) of the housing (1) which faces away from the light outlet. A separating wall (6) projects from the base (2) between the electrodes (4, 5) into the discharge space and ends in front of the top (3), which is opposite the base (2). This results in a discharge which is approximately in the form of a point. <IMAGE>

Description

The invention relates to a discharge lamp, in particular Flash lamp, with a gas-filled housing, in which two Electrodes are melted.

Efficiency and service life of a discharge lamp Kind are strong on the focal length and cross section of the Unloading dependent. As a rule, one exists light output is an optimal pair of values from Brennlän ge and discharge cross section. Do you want from this optimum deviate, be it to reduce the size of the lamp or a certain geometry of the radiating surface Realize, this almost always has to be a decline efficiency and lifespan.

The invention has for its object a Entla training lamp of the type mentioned in such a way that without a loss in efficiency and lifespan approximately point-like discharge occurs.

An almost punctiform discharge can be caused by egg ne very short focal length can be realized, however ver the efficiency and life deteriorate duration.

The object underlying the invention is thereby solved that the electrodes abge the light exit facing side of the housing and that between separating the electrodes from this side protrudes into the discharge space in front of the opposite the top ends. In the Entla The lamp is at least one separator for plasma guidance  wall provided so that the discharge to an imaginary Center is led around. The partition will be there acted on both sides by the plasma. With that, the thermal load and gas pressure symmetrically ver Splits. The partition can therefore be made relatively thin be avoided, dead spaces are avoided.

A bundled light emission without an additional reflector is achieved when in the top of the discharge lamp a converging lens is arranged.

A plurality of partitions can also be provided from the bottom and from the top in the gas discharge protrude space and in this way a zigzag-shaped ge form folded discharge gap.

The partition or the partitions can be made of glass hen, especially from the same glass as the outer walls de of the housing. It is particularly useful if for the partition or for the partition walls quartz glass or a ceramic material is used. These substances wi they are particularly good with the hot plasma. It can a ceramic can be used, the thermal expansion of which Glass of the outer walls of the housing is adapted. The parting wall or the partitions can with the outer walls of the Housing must be fused at all points of contact to penetrate the discharge at these points prevent. The same applies to all internal touch put the partitions. The partition or partitions can also be integrated in external parts of the housing, e.g. B. at the location of the current feedthroughs.

The invention is explained in more detail below with reference to four exemplary embodiments shown in FIGS. 1 to 5.

In FIG. 1, a discharge lamp is shown with a housing 1 having a bottom 2 and an upper side 3. In the bottom 2 , two electrodes 4 , 5 are melted, which ra in the interior of the discharge lamp. Between the electrodes 4 , 5 lying side by side in the bottom 2 , a partition 6 projects into the discharge space, which ends in front of the top 3 . The discharge ver runs around the partition 6 . So there is a U-shaped discharge that is very close to a point. The partition 6 and the bottom 2 are integrally and hermetically fused to the glass dome forming the housing 1 .

In the discharge lamp shown in FIG. 2, parts that are the same as parts in FIG. 1 are designated by the same reference numerals. The housing is formed by a hollow cylindrical jacket 7 , in the upper side of which a converging lens 8 is melted. The partition 6 and the bottom 2 are made of highly reflective, white ceramic. The jacket 7 is made of glass and is covered on the outside with a mirror layer 9 . Since the light generated by the lamp can only exit through the converging lens 8 . The mirror layer 7 can also be used as an ignition electrode, e.g. B. flashlights, who used the.

FIGS. 3 and 4 show a gas discharge lamp, in section and in plan view in which the lower part 11 a is formed in lumps with integrated partition 10. It is melted at its top with a converging lens 11 a ver. The material for the lower part 11 is white, highly reflective ceramic. The shape of the inner walls of the lower part 11 is designed to be favorable for the light radiation. The converging lens 11 a has a rectangular format that can be adapted to a common photographic image format. In FIG. 4 the rectangular format is clearly visible.

The discharge lamp shown in FIG. 5 again has the two electrodes 4 , 5 in the base 12 , which are also melted here. Four partition walls 13 protrude from the floor 12 into the gas discharge space and end in front of the upper side 14 . From the top 14 protrude four white partitions 15 in the gas discharge space, which end in front of the floor 12 . In this way, an eight fold folded zigzag discharge is achieved in the glass cylinder 16 , which is very close to a luminous point. The Bo 12 and the top 14 can be transparent or reflective, depending on the desired radiation conditions.

In the example according to FIGS. 3 and 4, a mirror 17 is seen on the outside of the lower part 11 , which can also serve as an ignition electrode.

Claims (7)

1. Discharge lamp with a gas-filled housing ( 1 , 2, 3, 7, 8, 11, 11 a, 12, 14, 16 ), in which two electrodes ( 4, 5 ) are melted, characterized in that the electrodes ( 4 , 5 ) on the side facing away from the light exit ( 2, 11, 12 ) of the housing ( 1 , 2 , 3 , 7 , 8 , 11 , 11 a , 12 , 14 , 16 ) and that between the electrodes ( 4 , 5 ) a partition ( 6 , 10 , 13 ) from this side ( 2, 11, 12 ) protrudes into the discharge space, which ends in front of the opposite top ( 3 , 8 , 11 a , 14 ). 2. Discharge lamp according to claim 1, characterized in that in the gas discharge space several partitions ( 13 , 15 ) from the bottom ( 12 ) and from the top ( 14 ) protrude, which form a zigzag-shaped discharge path. 3. Discharge lamp according to claim 1 or 2, characterized in that the partitions ( 6 , 10 , 13 , 15 ) are made of quartz glass or ceramic. 4. Discharge lamp according to one of claims 1 to 3, characterized in that the partitions ( 6 , 10 , 13 , 15 ) at the points where they touch the housing wall are hermetically sealed with this ver. 5. Discharge lamp according to one of claims 1 to 4, characterized in that the upper side of a converging lens ( 8 , 11 a ) is formed. 6. Discharge lamp according to one of claims 1 to 5, characterized in that the housing ( 1 , 2 , 3 , 7 , 8 , 11 , 11 a , 12 , 14 , 16 ) is mirrored on the outside at suitable points and this mirroring treatment ( 9 , 17 ) is used as the ignition electrode. 7. Discharge lamp according to one of claims 1 to 6, characterized in that the partitions ( 6 , 10 , 13 , 15 ) with parts of the housing ( 2 , 11 , 12 , 14 ) are in one piece.