The invention relates to a vehicle headlamp in accordance with the precharacterizing clause of patent claim 1.
Such a vehicle headlamp is disclosed, for example, in the laid-open specification EP 0 235 855 A1. This specification describes a halogen incandescent lamp of the Hi type, which is used in motor vehicle headlights for producing the lower beam or upper beam. This halogen incandescent lamp has a lamp vessel having an incandescent filament arranged therein and a lamp base, which has a metallic sleeve in which a sealed end of the lamp vessel is fixed. The power supply lines of the incandescent filament which protrude out of the lamp vessel are welded to welding lugs integrally formed on the base sleeve. In addition, the welding lugs are also used for dissipating the heat produced by the incandescent filament away from the sealed end of the lamp vessel.
It is the object of the invention to provide a generic vehicle headlamp having improved heat dissipation in the region of the sealed end of the lamp vessel. In particular, the thermal load on the sealed end of the lamp vessel should be reduced in the region of the molybdenum foil fuse seals.
This object is achieved according to the invention by the features of patent claim 1. Particularly advantageous embodiments of the invention are described in the dependent patent claims.
The vehicle headlamp according to the invention has a lamp vessel, a luminous means arranged within the lamp vessel and a lamp base, the lamp vessel having a sealed end, which has at least one molybdenum foil seal, which comprises at least one molybdenum foil and a power supply wire, which overlaps and is connected to said molybdenum foil and protrudes out of the sealed end of the lamp vessel, the lamp base having a metallic base sleeve, in which the sealed end of the lamp vessel is fixed and which has at least one aperture in the region of the sealed end. According to the invention, the metallic base sleeve is equipped with at least one integrally formed tab, which protrudes into the aperture of the metallic base sleeve and bears against the sealed end of the lamp vessel in the region of overlap between the at least one molybdenum foil and the power supply wire.
As a result, the thermal load on the sealed end of the lamp vessel is reduced in the region of the molybdenum foil fuse seal and in particular in the region of overlap between the at least one molybdenum foil and the power supply wire during lamp operation. The abovementioned tab which is integrally formed on the metallic base sleeve allows for improved dissipation of heat away from the sealed end of the lamp vessel. In particular, it is therefore possible for the temperature in the abovementioned region of overlap between the molybdenum foil and the power supply wire to be reduced during lamp operation and for the risk of the occurrence of oxidation and cracks in the region of the connection between the molybdenum foil and the power supply wire, which is preferably formed by welding, to be reduced. The life of the lamp is thereby extended.
In order to achieve optimum cooling of the joint between the abovementioned molybdenum foil and the power supply wire, the at least one tab, which is integrally formed on the metallic base sleeve, advantageously bears against the sealed end of the lamp vessel in the region of this joint, which is preferably formed by welding.
The metallic base sleeve of the vehicle headlamp according to the invention preferably consists of stainless steel or brass since these metals have good processing properties and a high degree of corrosion resistance.
The invention will be explained in more detail below with reference to a preferred exemplary embodiment. In the drawings:
The preferred exemplary embodiment of the invention depicted in FIGS. 1 to 7 is a halogen incandescent lamp of the H1 lamp type, which can be used in vehicle headlights for producing the lower beam, the upper beam or the foglight.
This lamp has an essentially cylindrical lamp vessel 1 consisting of quartz glass, which has an essentially circular-cylindrical interior 10 and is closed at one end by means of a pinch seal 11. An axially aligned incandescent filament 2 is arranged in the interior 10 of the lamp vessel 1, and its ends are each welded to a molybdenum foil 112, 113 via an inner power supply line 21, 22 consisting of tungsten. The molybdenum foils 112, 113 are part of the pinch seal 11, which is in the form of a molybdenum foil seal. They are embedded in a gas-tight manner in the pinch base 11. Two power supply wires 23, 24 consisting of molybdenum protrude out of the pinch base 11, are each welded to one of the molybdenum foils 112 and 113, respectively, and are used for supplying power to the incandescent filament 2. The pinch base 11 is fixed in a metallic base sleeve 3 with a clamping fit. The base sleeve 3 has in each case one aperture 30 in the region of the pinch base 11 at two opposite side walls such that the broad sides 110 of the pinch base 11 are essentially uncovered by the base sleeve 3 in the region of the molybdenum foils 112, 113 in order not to impede the output of heat from the broad sides 110 of the pinch base 11. The base sleeve 3 essentially surrounds only the narrow end sides 111 of the pinch base 11. The base sleeve 3 has two tabs 32, which each extend into one of the apertures 30 and bear against the pinch base 11 in the region of overlap between the power supply wires 23, 24 and the molybdenum foils 112, 113. These tabs 32 are each integrally formed on one edge of the respective aperture 30 in the base sleeve 3. They are used as cooling plates for reducing the thermal load on the welded joints between the power supply wires 23, 24 and the molybdenum foils 112, 113.
The power supply wire 23 is electrically conductively connected to a contact tab 31, which is integrally formed on the base sleeve 3 and points into the interior of the base sleeve 3. The base sleeve 3 and therefore also the power supply wire 23 and the inner power supply line 22 are at ground potential, for example, during lamp operation. For this purpose, the contact lug 5, which is electrically conductively connected to the power supply wire 24 and is electrically insulated from the base sleeve 3 by means of the base insulator 6 consisting of ceramic, forms the opposing electrical pole. An annular base flange 4 is fixed to the base sleeve 3 and is used for aligning and fitting the Hi lamp in a motor vehicle headlight. The lamp base comprises the base flange 4, the base sleeve 3, the base insulator 6 and the contact lug 5. The base sleeve 3 preferably consists of stainless steel or brass. The base flange 4 consists of nickel silver, and the contact lug 5 consists of stainless steel. FIGS. 2 to 7 illustrate details of the lamp base and the lamp vessel 1.
Details of the base sleeve 3 are depicted in
Number | Date | Country | Kind |
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10 2004 006.438.5 | Feb 2004 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE05/00058 | 1/17/2005 | WO | 8/4/2006 |