SU1739399A1 - Metal halide lamp - Google Patents

Description

Figures 1 and 2 show the lamp, respectively, with annular and spherical protuberances.

The working surface of the bulb 1 is provided with annular or spherical convexes 2. Two electrodes 3 are hermetically sealed in the lamp, the current to which is supplied with high-current inputs 4. The flask is filled with xenon and radiating additives or xenon, mercury and radiating additives.

When applied to a mains voltage lamp, high-frequency and high-voltage voltages are simultaneously applied to the electrodes. The gas to the flask breaks through, a high-frequency conductive channel arises in it, which transfers the lamp power supply to the independent high-current combustion mode. The metal halides from bulges 2, evaporated, enter the plasma, decompose and emit. Condensation and evaporation occur over the entire surface of the flask, so the metal halides easily get directly into the plasma. The surface temperature of the protuberances should be slightly lower than the temperature of the electrode sections.

The proposed design is effective for all lamps, including lamps with an inter-electrode distance of 1500 mm and more, and for maple tubular lamps of any power, operating without ballast. The technology of making lamps is simple. The process of making bulbs with bulges is easily mechanized.

Claims (1)

A metal halide lamp containing a flask with hermetically mounted electrodes, filled with inert gas, mercury and / or at least one metal halide, characterized in that, in order to increase the light output and simplify the manufacturing technology, the working surface of the flask is provided with annular or spherical convexities uniformly distributed along the length. J 2