DD205772A1 - LOW-PRESSURE GAS DISCHARGE LAMP, ESPECIALLY SMALL PERFORMANCE FLUORESCENT LAMP - Google Patents

Abstract

THE INVENTION CONCERNS A SINGLE-SIDED LOW-PRESSURE GAS DISCHARGE LAMP IN COMPACT FORM. THE OBJECT OF THE INVENTION IS TO DETERMINE THE METAL PARTIAL STEAM PRESSURE OR TO DETERMINE MERCURY PARTICLE VAPOR PRESSURE IN LOW-PRESSURE DISCHARGING DIFFICULTIES SO THAT CRITICAL MERCURY VAPOR VAPOR PRESSURE MAKES OPTIMAL CONVERSION OF ELECTRICAL PERFORMANCE IN METAL OR METHODS. MICROSOLE RESONANCE RADIATION WILL NOT BE EXCEEDED, OR ONLY SUBSTANTIALLY EXCEEDED. OBJECT OF THE INVENTION IS GEOMETRICALLY DESIGNED THE DEGREE OF DISCHARGE, THAT A LARGE SURFACE COZY AREA IS CREATED THAT DOES NOT AFFORD TO REDUCE THE LIGHT EMITTING SURFACE OF THE DISCHARGE DAMAGE. THIS IS ACHIEVED THAT THE DISTANCE OF THE ELECTRODES FROM THE DANGEROUS IS 2.0 TO 4.0 FAXES OF THE INTERNAL DIAMETER OF (6-16) MM OF THE THREAD-BENDING PARALLEL PIPES OF THE DISCHARGE FAILURE, AND THAT DIFFERENT PART FROM THE DANGEROUS TO THE ELECTRODES, HOWEVER, AT LEAST THE 2 SIZE OF THE INTERNAL DIAMETER OF THE SHEET-FORMAL PARALLEL PIPE COMPONENTS OF THE DISCHARGE TREATMENT IS ENVISAGED WITH A HEAT-PERMANENT SHELL.

Description

Title of the invention

Low-pressure gas discharge lamp, in particular low power fluorescent lamp

Field of application of the invention

The invention relates to a one-capped low-pressure discharge larape in a compact form.

Characteristic of the known technical solution

Fluorescent lamps with parallel rod-shaped pipe parts, which are connected to one another with an arcuate part or another transmitting connection, are described in DE-PS 858 105,. DE-OS 30 11 382 and DE-OS 30 11 described. The aim of all three inventions was to create a cooling zone to stabilize the mercury partial pressure in the lamp. This has been achieved in that the ends of each rod-shaped pipe part above the junction are not included in the gas discharge. A disadvantage of such a geometric structure, that these parts acting as cooling zones pipe parts contribute only slightly to the light generation. Another disadvantage is that the surface of the cooling zone must remain relatively small in order to obtain the largest possible surface for the light output.

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Thus, operation of the lamp with high thermal stress is possible only with a strong decrease in the light output.

Object of the invention

The aim of the invention is to regulate the metal partial vapor pressure or mercury partial pressure in low-pressure discharge vessels having inner diameters (6 -16 mm) so that the critical mercury vapor pressure for optimal conversion of supplied electrical power into Metallbzw. Mercury resonance radiation is not or only slightly exceeded and that no additional measures such. B. amalgam formation to metal or mercury vapor pressure regulation necessary.

Explanation of the essence of the invention

The invention has for its object to make the discharge vessel geometrically so that a cooling zone is provided with a large surface, which does not lead to the reduction of the light-radiating surface of the discharge vessel.

Erfindungsgeraäß this is achieved in that the distance between the electrodes of the vessel ends 2.0 to 4.0 times the inner diameter of 6 to 16 minutes of stabf local parallel tube parts of the discharge vessel and this vessel part from the vessel ends to the electrodes, however, at least the 2 times the inner diameter of the rod-shaped parallel tube parts of the discharge vessel, is surrounded by a heat-dissipating sheath. Thus, for example, a mercury partial vapor pressure of (1 - 2) Pa is set, the z. B. in Rohrinnendurchiifessern of (8 - 12) mm is optimal. This solution is advantageous in particular in the case of capped lamps, where the lower ends must be stably supported and these do not contribute to the generation of light.

Ausführungsbeispie1

The invention will be explained in more detail with reference to an embodiment.

Fig. Ι shows a fluorescent lamp with two parallel associated rod-shaped Rohr.teilen S and 7, whose inner surfaces are coated with phosphor 8. At the opposite ends of the electrodes _c . Pipes 6 and 7 are connected to a discharge-passing connection.

At the other end of the rod-shaped pipe parts 6 and 7 are the electrodes 1 and 2, whose distance from the vessel ends 3 and 4 is 2.0 to 4.0 times the inner diameter of the rod-shaped pipe parts 6 and 7. The vessel parts of the rod-shaped pipe parts 6 and 7 of the vessel ends 3 and 4 to 3 times the inner diameter are wrapped in this embodiment of a metal sleeve 9 (aluminum).

The heat dissipation from the outer walls and the rod-shaped pipe parts 6 and 7 is effected by the direct contact with the metal sleeve 9 and additionally by a heat-dissipating mixture 10 of 20 % silicone rubber and 80 % aluminum powder.

Claims (7)

invention claim A low-pressure mercury vapor discharge lamp consisting of two or more parallel rod-shaped pipe parts connected to one another with either an arcuate portion or another discharge-passing joint; characterized in that the distance of the electrodes (1, 2) from the vessel ends (3, 4) is 2.0 to 4 times the inner diameter of the rod-shaped parts and that the discharge vessel part is from the vessel ends (3, 4) to the electrodes (1, 2), but at least from the vessel ends (3, 4) to 2 times the inner diameter of the rod-shaped tube parts (6, 7) in the direction of the electrodes (1, 2) is surrounded by a heat-dissipating sheath. 2. Low-pressure discharge lamp according to item 1, characterized in that the heat-dissipating sheath is a mixture of a binder or adhesive and a heat-conductive filler. 3. Low pressure discharge lamp according to item 1 and 2, characterized in that the mixture consists of a part of silicone rubber and the other part of aluminum powder or - chips. 4. low-pressure discharge lamp according to item 1 to 3, characterized in that the mixture 10 - 50 % binding or adhesive material and 50 - 90 % heat dissipating filler contains. 5 · low-pressure discharge lamp according to item 1, characterized in that the heat-dissipating sheath is a metal sleeve which has direct contact with the surface of the discharge vessel « / Λ / / I / / 6. Low-pressure discharge lamp according to item 1 to 5, characterized in that the heat-dissipating sheath consists of a metal sleeve in conjunction with a mixture of a binding or adhesive material and a heat-dissipating filler. 7. Low-pressure discharge lamp according to item 1, characterized in that the distance of the electrodes (1, 2) from the vessel ends (3, 4) is preferably 3 times the inner diameter of the rod-shaped pipe parts (S, 7) of the discharge vessel and the electrodes (1, 2) a double helix or a triple helix with a tungsten core in the primary helix are « - In addition 1 sheet drawing -