WO2005022587A2 - Halogen lamp - Google Patents

Abstract

The invention relates to a halogen lamp whose lamp vessel (100) has a cylindrical section (101) configured in the form of a reflector.

Description

halogen bulb

The invention relates to a halogen incandescent lamp according to the preamble of patent claim 1.

I. State of the art

Such a halogen incandescent lamp is disclosed, for example, in European patent application EP 1 255 279 A2. This document describes a miniature halogen incandescent lamp, the dimensions of which are at most 6 mm across its longitudinal extension. This lamp is intended for use in a flashlight.

European patent EP 0495 194 B1 describes a reflector lamp consisting of a reflector which is formed by a parabolic or ellipsoidal glass dome and a halogen incandescent lamp which is arranged in the optical axis of the reflector. π. Presentation of the invention

It is the object of the invention to provide a reflector lamp with as few components and dimensions as possible.

This object is achieved by the features of claim 1. Particularly advantageous embodiments of the invention are described in the dependent claims.

The halogen incandescent lamp according to the invention has a translucent lamp vessel sealed on one side with at least one incandescent filament arranged therein, the lamp vessel according to the invention having a cylindrical vessel section designed as a reflector. In comparison with a conventional reflector lamp, the reflector in the halogen incandescent lamp according to the invention is designed as a component of the lamp vessel. This allows the conventional onelle reflector lamp can be dispensed with. The halogen incandescent lamp according to the invention therefore requires fewer components, is less expensive and has smaller dimensions than the conventional reflector lamps. It can be used in downlights, for example, instead of the conventional reflector lamp. Correspondingly smaller openings can be used in the false ceiling. The dimensions of the halogen incandescent lamp according to the invention are no more than 12 mm transverse to its longitudinal axis. In addition, the halogen incandescent lamps according to the invention can also be used, for example, in furniture luminaires in order to achieve directional light radiation.

The light-reflecting effect of the cylindrical vessel section is most easily achieved by means of a light-reflecting coating which is arranged at least on part of the aforementioned vessel section. The light-reflecting coating is preferably designed as a metallic coating, for example made of aluminum or silver, or as a dichroic coating on the outer surface of the cylindrical vessel section, since these coatings have a high degree of reflection for all light wavelengths. For such coatings, there are known manufacturing processes from reflector technology which can also be used in the coating of lamp vessels. Since the coating is preferably arranged on the outside of the lamp vessel, it is not exposed to the corrosive effect of the halogen filling. The light-reflecting coating extends over a maximum of 50 percent of the circumference of the cylindrical vessel section in order to avoid light shading by the coating.

The incandescent filament is preferably aligned axially within the lamp vessel and is offset parallel to the cylinder axis of the cylindrical vessel section. As a result, the axis light intensity can be increased by more than 90 percent.

The sealed end of the lamp vessel is advantageously designed as a base in order to ensure the smallest possible dimensions and to keep the number of components as small as possible. iπ. Description of the preferred embodiments

The invention is explained in more detail below on the basis of a preferred exemplary embodiment. Show it:

1 shows a side view of a first embodiment of the halogen incandescent lamp according to the invention in a schematic representation

Figure 2 The first embodiment in a side view rotated by 90 degrees compared to Figure 1

Figure 3 is a side view of a second embodiment of the halogen incandescent lamp according to the invention in a schematic representation

Figure 4 The second embodiment in a side view rotated by 90 degrees compared to Figure 3

The first exemplary embodiment of the invention shown in FIGS. 1 and 2 is a halogen incandescent lamp with an electrical power consumption of approximately 20 watts. This lamp has a lamp vessel 100 made of quartz glass, which is sealed gas-tight at one end by means of a pinch seal 101. The lamp vessel 100 also has a circular-cylindrical vessel section 102 and a pump stem attachment 103 arranged diametrically to the pinch seal 101. An incandescent filament 110 is arranged within the lamp vessel 100, the ends of which are each connected via a power supply wire 121, 122 to a molybdenum foil 123, 124 embedded gas-tight in the pinch seal 101. The molybdenum foils 123, 124 are each connected to a contact pin 125, 126 of the halogen incandescent lamp protruding from the pinch seal 101. The circular cylindrical vessel section 102 is provided with a light-reflecting silver layer 104 on its outer surface. The silver layer 104 extends over 50 percent of the circumference of the circular cylindrical vessel section 102 and extends to the pump stem attachment 103. In other words, the silver layer 104 covers a half-shell of the cylindrical lamp vessel portion 102 and is continued up to the pump stem attachment 103. The filament 110 is axially aligned and arranged parallel offset with respect to the cylinder axis AA of the circular cylindrical vessel section 102. The outer diameter of the lamp vessel 100 is 9.5 mm and its wall thickness is 1 mm. The axis of the incandescent filament 110 is shifted parallel by 2 mm with respect to the cylinder axis AA in the direction of the silver layer 104. The pinch seal 101 is designed as a G4 base.

The exemplary embodiment depicted in FIGS. 3 and 4 is also a halogen incandescent lamp with an electrical power consumption of approximately 20 watts. This lamp has a lamp vessel 200 made of quartz glass, which is sealed gas-tight at one end by means of a pinch seal 201. The lamp vessel 200 also has a circular cylindrical vessel section 202 and a pump stem attachment 203 arranged diametrically to the pinch seal 201. An incandescent filament 210 is arranged within the lamp vessel 200, the ends of which are each connected via a power supply wire 221, 222 to a molybdenum foil 223, 224 embedded gas-tight in the pinch seal 201. The molybdenum foils 223, 224 are each connected to a contact pin 225, 226 of the halogen incandescent lamp protruding from the pinch seal 201. The circular cylindrical vessel section 202 is provided on its outer surface with a light-reflecting silver layer 204. The silver layer 204 extends over 50 percent of the circumference of the circular cylindrical vessel section 202 and extends to the pump stem attachment 203. In other words, the silver layer 204 covers a half-shell of the cylindrical lamp vessel portion 202 and is continued up to the pump stem attachment 203. The incandescent filament 210 is aligned axially and offset parallel to the cylinder axis A-A of the circular cylindrical vessel section 202. The outer diameter of the lamp vessel 200 is 9.5 mm and its wall thickness is 1 mm. The axis of the filament 210 is shifted parallel by 2 mm with respect to the cylinder axis A-A in the direction of the silver layer 204. The pinch seal 201 is designed as a G4 base.

The two exemplary embodiments explained above differ only in the alignment of the pinch seals 101 and 201 with respect to the light-reflecting coatings 104 and 204, respectively. As a consequence of these different alignments, In the direction of the pinch seals 101 and 201, the power supply wires 221, 222 run in the same plane as the molybdenum foils 223, 224 and are not designed in a step-like manner as the power supply wires 121, 122 of the first exemplary embodiment.

The invention is not limited to the exemplary embodiments explained in more detail above. The light-reflecting coating can also extend over a smaller part of the cylindrical vessel section. Furthermore, an aluminum layer or a dichroic coating can also be used instead of a silver layer.

Claims

claims

1. Halogen incandescent lamp with a translucent lamp vessel (100; 200) sealed on one side, which has a cylindrical vessel section (102; 202), and at least one filament (110; 210) arranged within the lamp vessel (100; 200),

5 characterized in that at least the cylindrical vessel section (102; 202) of the lamp vessel (100; 200) is designed as a reflector.

2. Halogen incandescent lamp according to claim 1, characterized in that the cylindrical vessel section (102; 202) is partially provided with a light-reflecting coating (104; 204).

3. Halogen light bulb according to claim 2, characterized in that the light-reflecting coating is a dichroic coating on the outer surface of the lamp vessel.

4. Halogen incandescent lamp according to claim 2, characterized in that the light-reflecting coating is a metallic coating (104; 204) on the 75 outer surface of the lamp vessel (100; 200).

^• 5. Halogen incandescent lamp according to claim 2, characterized in that the light-reflecting coating (104; 204) is of the cylindrical vessel portion (102; 202) over a maximum of 50 percent of the circumference extends.

6. Halogen incandescent lamp according to claim 1, characterized in that the 20 filament (110; 210) is aligned axially in the cylindrical vessel section (102; 202) and is arranged offset parallel to the cylinder axis (A-A) of the cylindrical vessel section (102; 202).

7. Halogen incandescent lamp according to claim 1, characterized in that the sealed end (101; 201) of the lamp vessel (100; 200) as a base.

25 forms.