The invention relates to a compact low-pressure discharge lamp comprising a discharge vessel with electrodes and power supply leads, a discharge vessel mount on which the discharge vessel is mounted and a cap, which comprises a housing, connecting contacts and a mounting plate with a ballast arrangement, with the mounting plate being fitted with the ballast arrangement in the interior of the cap housing, and having connections for electrical connection of the mounting plate to the power supply leads and to the connecting contacts.
Low-pressure discharge lamps such as these may also be provided with a reflector or an enveloping bulb. For relatively high wattages, the discharge vessel in this case comprises a tube which is composed of one or more pieces and is bent a number of times, and which is held in the housing with the aid of a mount part, whose shape is complex and which is composed of plastic or metal. One example of this is described in U.S. Pat. No. 4,456,854.
The mount part, whose shape is complex, for the discharge vessel leads firstly to correspondingly large dimensions for the low-pressure discharge lamp and secondarily necessitates manual assembly of the lamp. The production costs for such compact low-pressure discharge lamps are thus relatively high.
The object of the invention is therefore to provide a compact low-pressure discharge lamp comprising a discharge vessel with electrodes and power supply leads, a discharge vessel mount on which the discharge vessel is mounted and a cap, which comprises a housing, connecting contacts and a mounting plate with a ballast arrangement, with the mounting plate being fitted with the ballast arrangement in the interior of the cap housing, and having connections for electrical connection of the mounting plate to the power supply leads and to the connecting contacts, whereby the compact low-pressure discharge lamp has a compact structure and can be produced easily, and hence cost-effectively.
The object is achieved by a discharge vessel mount that comprises a plate, the discharge vessel mount, which is in the form of a plate, is mounted in a further mount, and the further mount is mounted on the housing of the cap.
Advantageous refinements are described in the dependant claims.
The further mount may be in the form of an enveloping bulb or a reflector for the discharge vessel. This further mount may also be in the form of a closure cap for the cap housing when the compact discharge lamp configuration has no enveloping bulb or reflector.
In the case of a circular cylindrical cap housing, the plate is advantageously circular.
The mounting of the discharge vessel is very simple if the plate has two apertures for holding the ends of the discharge vessel. The ends can then either be mounted on the plate by means of a hot fusion method, as stated in WO 0,101,437, or in a conventional manner by means of cap cement. In the second case, the plate advantageously has a holding edge, for holding the cap cement, around the apertures.
On the side facing the cap, the plate advantageously has holders for contacts for electrical connection of the power supply leads to the electrical connections of the ballast arrangement on the mounting plate. One example of appropriate contact-making can be found in U.S. Pat. No. 6,008,570, where a simple electrical connection is produced between the power supply leads of the discharge vessel and the connections of the ballast arrangement on the mounting plate by means of spring elements which are held in holders on the closure cap.
In order to hold the plate in a simple manner in the further mount, the further mount has an at least partially circumferential groove on the inner face of its casing surface, in which groove at least parts of the edge of the plate engage when the plate is being mounted in the further mount.
In addition, the further mount may have a partially circumferential bead at right angles to its axis of symmetry on the inner face of the casing surface, as a stop for the plate, and the plate may have apertures for holding tools to engage in. This makes it considerably easier to install the mounting plate with the discharge vessel in the further mount, which is in the form of an enveloping bulb, reflector or closure cap.
For assembly of the further mount and cap, the further mount has an at least partially circumferential bead, at right angles to its axis of symmetry, on the outer face of its casing surface close to the end facing the cap, which bead engages in a correspondingly shaped groove on the inner face of the cap housing.
The cap housing also has an at least partially circumferential stop at right angles to its axis of symmetry on the inner face of its casing surface, on which stop the edge of the mounting plate rests in the direction of the connecting contacts. Furthermore, the further mount is designed such that, when the low-pressure discharge lamp is in the assembled state, the edge of its end facing the cap presses the mounting plate against this partially circumferential stop on the inner face of its casing surface. In consequence, once the lamp comprising the further mount and cap has been assembled, this ensures that the mounting plate is seated firmly together with the ballast arrangement in the lamp.
In order to prevent damage to the parts during assembly, the further mount has a number of short slots, distributed over the circumference, parallel to its axis of symmetry at its end facing the cap. This allows appropriate size compensation if the shapes do not match exactly.
The mount is advantageously composed of plastic, in the same way as the further mount, which is in the form of a reflector, enveloping bulb or closure cap.
The optional configuration of the further mount as an enveloping bulb, reflector or closure cap makes it simple during production to change from compact low-pressure discharge lamps without enveloping bulbs to the same lamp type with an enveloping bulb or reflector. The pure plug-in and catching connections allow the lamp to be assembled very much more simply and fully automatically.
Further details, features, refinements and advantages can be found in the following description of a number of exemplary embodiments, which are illustrated in drawings, of the subject matter of the invention, in which:
The edge of the mounting plate 5 is snapped into a circumferential groove 9 on the inner wall of the enveloping bulb 2.
The low-pressure discharge lamp 1 also has an essentially cylindrical cap 10 with a housing 11 and schematically illustrated connecting contacts 12. A mounting plate 13 rests on a circumferential stop 14, at right angles to the longitudinal axis, in the interior of the housing 11. The mounting plate 13 is in the form of a circuit board, with conductor tracks that are fitted with SMD components being formed on the side facing the discharge vessel 3, and circuit elements of a ballast arrangement 15 being mounted on the side facing away from the discharge vessel 3.
The enveloping bulb 2 with the discharge vessel mount 5 is connected in a manner which cannot be detached by those not skilled in the art to the housing 11 of the cap 10 via an annular bead 16 on the outer casing surface of the enveloping bulb close to the free opening, and engages in a corresponding annular groove 17 in the inner circumference of the housing 11. When the enveloping bulb 2 is being mounted on the housing 11 of the cap 10, the mounting plate 13 is also pressed against the circumferential stop 14, and the mount 5, which is in the form of a plate, for the discharge vessel 3 is pressed against corresponding webs 18 on the inner wall of the enveloping bulb 2. In the process, spring lugs, which are not illustrated here, on the contacts are pressed against corresponding conductor track connections, thus producing an electrical connection between the ballast arrangement and the electrodes.
Number | Date | Country | Kind |
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101 63 096 | Dec 2001 | DE | national |
Number | Name | Date | Kind |
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3906275 | Spiessens et al. | Sep 1975 | A |
6008570 | Helbig et al. | Dec 1999 | A |
6144146 | Cserteg et al. | Nov 2000 | A |
6445131 | Wursching et al. | Sep 2002 | B1 |
Number | Date | Country |
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0 044 196 | Jan 1982 | EP |
0101437 | Jan 2001 | WO |
Number | Date | Country | |
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20030117062 A1 | Jun 2003 | US |