DE1128560B - Arrangement on gas discharge lamps - Google Patents

Description

Arrangement on gas discharge lamps When operating gas discharge lamps, especially fluorescent lamps, occurs after a long period of operation Blackening of the lamp inner wall by atomization of the electrodes, which one Loss of radiation through absorption. This absorption sets the light or radiation efficiency of the discharge lamp used is considerably reduced, so that because of this radiation loss, which increases with progressing operation, the operation an otherwise functional gas discharge lamp for lighting or irradiation purposes is so uneconomical that you have to replace the lamp, just the blackening because of, is forced. With the widespread use of gas discharge lamps for lighting or irradiation purposes means reducing or slowing down the blackening the vessel walls represent a significant economic advance. The so far in this The precautions taken require a considerable amount of additional effort, since it was always about built-in components inside the lamp.

It is already known to use an openwork to reduce the blackening classify metallic structure inside a discharge vessel. One such however, metallic structures cannot surround the electrodes, otherwise a the correct operation disruptive potential distribution, but it must be arranged between the electrodes in the discharge space itself, where it is inevitable the light output is impaired.

In addition, a cold cathode for gas discharge lamps is known which is surrounded by a cylinder protruding beyond the cathode, in order to reduce the blackening of the vessel walls decrease due to cathode evaporation ..

On the other hand, there are various embodiments of gas discharge lamps known, in which auxiliary ignition electrodes as conductive sheaths around the outer Vessel walls are provided. For example, they are galvanically connected to one another Sheaths designed as mounting clamps and at the ends of a tubular Discharge vessel arranged. With those attached to the outer wall of the vessel The ring width is small compared to the axial extent of the auxiliary ignition electrodes Running electrodes. There is no reduction in the blackening of the vessel wall intended.

It has now surprisingly been found that the harmful effect cathode sputtering affects the radiation output of gas discharge lamps a very simple measure outside of the discharge vessel or the Cathode sputtering concentrated on relatively small parts of the lamp wall that hardly contribute to the light output.

According to the invention, this measure consists in that in per se known Way on the outside around the tubular envelope vessel at the level of the electrodes, ring-shaped, conductive and galvanically interconnected sheaths are arranged such that these sheaths the electrodes around the diameter of the cylindrically extending Protruding electrode fusible sheaths in the direction of the discharge space.

An exact scientific interpretation of this progressive effect has not yet taken place, but the concentration of the Cathode knocked out particles on the parts of the lamp wall, which from the metal sheaths are surrounded by an electrostatic field effect be. It has been found that the prevention of blackening of the remaining part the gas discharge lamp, which initially works with direct current operated mercury vapor - Low-pressure burners have been observed that have a U-shape, even with elongated ones or otherwise designed gas discharge lamps occurs; Likewise, the effect is likely not to a certain filling of the discharge vessel, to a certain vapor pressure, tied to a certain electrode material or to operation with DC voltage be. On the contrary, when operating on AC voltage, the inner wall of the vessel is charged, which in itself would have to counteract the intended effect, can be safely avoided. Likewise, it does not matter whether cold or hot electrodes are used.

There are various options for attaching the metallic sheaths Execution options. According to a preferred embodiment the metallic conductive sheaths consist of sheet metal sleeves, which at the same time are provided for holding the discharge lamp.

Another advantageous way of attaching the metallic conductive sheaths consists in using thin metal foil that rings is glued around the vessel wall.

Finally, there is also the option of using the metallically conductive Manufacture sheaths by a vapor deposition process. In addition, it would be a painting of conductive lacquers or the like. To be mentioned as a simple embodiment.

Although it is not for the effect to be aimed for with the invention of is crucial, it is advisable to use the galvanic connections of the metallic sheaths to be grounded. This way they become uncontrollable Charging effects reliably avoided: In the following, a schematic Representation of an embodiment of the arrangement according to the invention described in more detail. It is a U-shaped bent mercury vapor low pressure burner. The U-shaped burner vessel 1 is above the two melt-in shells 5 of the electrodes 2 surrounded on its outside with the metallic sheaths 3, which by the connection 4 have galvanic contact with each other. When operating this arrangement shows that the deposition of cathodic sputtering from the electrodes knocked out particles mainly on the inside of the part of the vessel wall is concentrated; those on the outside of the metallically conductive sheath 3 is surrounded. The metallic conductive sheath protrudes over the electrodes around the Diameter of the fusible shells 5 in the direction of the discharge space. Such The height of the metallic sheaths has been found to be sufficient to accommodate an ins To prevent weight-dropping blackening of the uncoated parts of the vessel wall.

Claims (6)

PATENT CLAIMS: 1. Gas discharge lamp with an arrangement for prevention the blackening of the inner wall of the piston, characterized in that in on in a known manner around the outside of the tubular envelope vessel (1) at the level of the electrodes (2) ring-shaped, conductive and galvanically interconnected sheaths (3) are arranged such that these sheaths the electrodes (2) around the diameter of the cylindrically extending electrode fusible sheaths (5) in the direction of the discharge space tower above. 2. Arrangement according to claim 1, characterized in that the metallic Conductive sheaths (3) consist of sheet metal sleeves, which are also used for holding serve for the discharge lamp (1). 3. Arrangement according to claim 1, characterized in that that the metallically conductive sheaths (3) consist of metal foil, the rings is glued around the vessel wall. 4. Arrangement according to claim 1, characterized in that that the metallically conductive sheaths (3) produced from a vapor deposition metallic layer. 5. Arrangement according to claim 1, characterized in that that the metallically conductive sheaths (3) consist of a metallically conductive layer exist, which is created by painting on conductive varnishes. 6. Arrangement according to Claim 1 or the following, characterized in that the galvanic connections (4) the metallic conductive sheaths are earthed to one another. Into consideration printed publications: German Patent No. 832 457; Austrian patent specification No. 135 807; French Patent Nos. 968127, 997 513; British patent specification No. 677 044.