DE202011108074U1 - High pressure discharge lamp - Google Patents

Abstract

High-pressure discharge lamp with a lamp vessel unit (116), which is fixed with a first end in a lamp base (110), and a power supply (115), which is led out of a second, distal end of the lamp vessel unit (116), the power supply (115) has a rectilinear section which is arranged outside the lamp vessel unit (116) and is surrounded by electrically insulating material (114), characterized in that the electrically insulating material is glass.

Description

The invention relates to a high-pressure discharge lamp according to the preamble of claim 1.

I. State of the art

Such a high-pressure discharge lamp is for example in the EP 0 571 964 A1 disclosed. This publication describes a single-ended high-pressure discharge lamp for motor vehicle headlights with a lamp vessel fixed in a lamp vessel unit, wherein the lamp vessel unit consists of a two-sided sealed discharge vessel and an outer vessel surrounding the discharge vessel. From a socket-remote end of the lamp vessel unit, a power supply is led out, which has a rectilinear, covered by electrically insulating material portion. The electrically insulating material is formed as a ceramic tube, which closely surrounds the rectilinear current supply wire section.

II. Presentation of the invention

It is an object of the invention to provide a generic high-pressure discharge lamp with improved electrical insulation of the rectilinear power supply section.

This object is achieved by a high-pressure discharge lamp with the features of claim 1. Particularly advantageous embodiments of the invention are described in the dependent claims.

The high-pressure discharge lamp according to the invention has a lamp vessel unit which is fixed at a first end in a lamp base, and a power supply, which is led out from a second, distal end of the lamp vessel unit, wherein the power supply has a rectilinear portion arranged outside of the lamp vessel unit is enveloped electrically insulating material which is glass according to the invention.

The use of glass increases the high-voltage strength of the electrical insulation compared to a ceramic tube, because the voids that are common in the ceramic tube do not occur in the case of insulation made of glass.

According to a preferred embodiment of the invention, the electrically insulating material is formed as a glass tube and more preferably is a quartz glass tube. The glass tube or quartz glass tube can be made free from voids in a known manner directly from the molten glass, its dimensions can be easily adapted to the dimensions of the power supply. Quartz glass offers the advantage of a particularly high heat resistance compared to other types of glass.

Alternatively to the glass tube or quartz glass tube can be used as an electrically insulating material for the outside of the lamp vessel unit arranged power supply of the high-pressure discharge lamp according to the invention also made of glass fibers, for example, a glass tube, in particular a quartz glass tube. The glass tube or quartz glass tube has the additional advantage that it can be used as electrical insulation for the curved or angled power supply sections due to its flexibility.

The glass tube or quartz glass tube or the glass tube or quartz glass tube are preferably adapted to the diameter of the rectilinear current supply section, that they surround this power supply section at a small distance, thereby to ensure contact protection.

As a further alternative, the electrically insulating material of the rectilinear current supply section of the high-pressure discharge lamp according to the invention arranged outside the lamp vessel unit may be formed as a coating consisting of glass on the surface of the aforementioned current supply section. A glass coating of the aforementioned rectilinear power supply section provides as good an electrical insulation as a glass tube or a glass tube. In addition, a coating consisting of glass can also be extended to curved or angled power supply sections of the high-pressure discharge lamp according to the invention in order to also make them electrically insulated and protected from contact. A coating made of glass has the further advantage that it can be extended to welded joints of the power supply to other metallic components of the high pressure discharge lamp, so that they are arranged electrically insulated and protected from contact.

The aforementioned, consisting of glass coating the power supply is preferably designed for manufacturing reasons as enamel, glaze or liquid glass coating.

III. Description of the Preferred Embodiment

The invention will be explained in more detail below with reference to a preferred embodiment.

In the illustrated in the figure preferred embodiment of the lamp according to the invention is a high-pressure discharge lamp, in particular a metal halide high-pressure discharge lamp, which is preferably used as a light source in a motor vehicle headlight and has an electrical power consumption of about 35 W.

This high-pressure discharge lamp has a two-sided sealed discharge vessel with a gas-tight discharge space, in which two gas discharge electrodes and a discharge medium for generating a light-emitting gas discharge are included. The discharge vessel is surrounded by a hollow cylindrical outer bulb, which is fused at its ends to the discharge vessel. The outer bulb and the discharge vessel therefore together form a lamp vessel unit 116 ,

One end of the lamp vessel unit 116 is by means of a metal cuff 118 and four metal tabs welded to it 119 in a lamp base 110 made of plastic. For this purpose, the metal sleeve encloses 118 the lamp vessel unit 116 with press fit and the metal tabs 119 are with an annular flange 120 of the lamp socket 110 welded.

From the other end of the lamp vessel unit, remote from the base 116 is a power supply 115 led out, one outside the lamp vessel unit, straight and running from a quartz glass tube 114 has enveloped power supply section. The power supply 115 is designed as a wire and serves to supply voltage to one of the two gas discharge electrodes. The rectilinear section of the power supply 115 extends into the lamp base 110 and is connected there to an electrical connection of the high pressure discharge lamp.

The quartz glass tube 114 has an outer diameter of 1.95 ± 0.1 mm, an inner diameter of 0.85 ± 0.18 mm and a wall thickness of 0.55 ± 0.04 mm. The length of the quartz glass tube 114 is 55.0 ± 0.5 mm. The inner diameter of the quartz glass tube 114 is only slightly larger than the diameter of the rectilinear portion of the power supply 115 ,

The invention is not limited to the above-explained embodiment of the invention. For example, instead of quartz glass, another type of glass, for example aluminosilicate glass, can be used for the glass tube. In addition, the dimensions of the glass tube, in particular the length of the glass tube, vary with different lamp types. For example, the quartz glass tube 114 in the case of a high pressure discharge lamp, in its lamp cap 110 Components of an ignition or operating device are housed, be formed shorter or longer than in the case of a high-pressure discharge lamp, in the lamp base 110 no such components are housed. Further, instead of the quartz glass tube 114 a glass tube, in particular a quartz glass tube or a glass existing coating of the power supply 115 , for example in the form of enamel, glaze or liquid glass coating. Furthermore, in addition to the rectilinear portion of the power supply 115 also the angled section of the power supply 115 located in the immediate vicinity of the base end of the lamp vessel unit 116 arranged, by means of a glass tube or a coating consisting of glass, as for example in the Ofenlegungsschrift EP 0 571 964 A1 is described. Finally, in all of the above embodiments, the glass may contain color pigments or other coloring additives to provide color isolation.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0571964 A1 [0002, 0018]

Claims (8)

High-pressure discharge lamp with a lamp vessel unit ( 116 ) with a first end in a lamp base ( 110 ) is fixed, and a power supply ( 115 ), which consists of a second, socket-distal end of the lamp vessel unit ( 116 ) is led out, wherein the power supply ( 115 ) one outside the lamp vessel unit ( 116 ) has a rectilinear portion which is made of electrically insulating material ( 114 ), characterized in that the electrically insulating material is glass. High-pressure discharge lamp according to claim 1, wherein the electrical insulating material ( 114 ) is designed as a glass tube. High-pressure discharge lamp according to Claim 2, the glass tube ( 114 ) is formed as a quartz glass tube. High-pressure discharge lamp according to claim 1, wherein the electrically insulating material ( 114 ) is designed as a glass tube. High-pressure discharge lamp according to claim 4, wherein the glass tube is a quartz glass tube. High-pressure discharge lamp according to one of claims 1 to 5, wherein the glass tube or the glass tube surrounds the rectilinear current supply section at a small distance. High-pressure discharge lamp according to claim 1, wherein the electrically insulating material ( 114 ) as a coating on the surface of the rectilinear portion of the power supply ( 115 ) is trained. High-pressure discharge lamp according to Claim 7, the coating ( 114 ) is designed as an enamel or glaze or liquid glass.

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