SU1663643A1 - Electrode for gaseous-discharge lamp - Google Patents

Abstract

The invention relates to the electrical industry and can be used in the manufacture of gas-discharge light sources, in particular, high-pressure xenon lamps. The purpose of the invention is to increase the reliability and service life of the lamp. The electrode for the gas discharge lamp comprises a cylindrical molybdenum body 1. The tungsten rod 2 is pressed into the length of its working part into the body and stands for its boundary from the discharge side. On the entire outer surface of the molybdenum body deposited layer 3 of tungsten with a thickness of 0.002 - 0.006 diameter of the body. 1 il.

Description

The invention relates to the electrical industry and can be used in the manufacture of gas-discharge light sources, in particular, high-pressure xenon lamps.

The aim of the invention is to increase the reliability and service life of the lamps.

The drawing shows an electrode for a gas discharge lamp,

It is a molybdenum cylindrical body 1 in which, on one side (on the discharge side), a tungsten rod 2 is pressed. The surface of the molybdenum body from the outside, including at the place of pressing in the working rod, is covered with a layer of 3 tungsten.

The presence of a layer of tungsten on the outer surface makes it possible to significantly reduce the sputtering process, since

evaporation of tungsten at anode operating temperatures of about 2000 ° C is significantly higher than that of molybdenum. This makes it possible to use the advantages of molybdenum as an electrode material with a combination of the positive properties of tungsten with minimal use of the latter.

The presence of a tungsten layer in the place where the tungsten rod is pressed in ensures a reliable thermal contact between the rod and the housing during operation of the lamp due to the presence in the place of contact of the material (tungsten) with the same coefficient of thermal expansion. The presence of a good thermal contact between the rod and the housing ensures the necessary temperature regime of the working end of the rod and, thereby, increases the reliability and service life of the lamp.

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The limits of the thickness of the tungsten layer are chosen from the following considerations. On the one hand, they should provide a positive effect of the design - reduce the rate of evaporation of the molybdenum body, provide the necessary thermal contact between the insert and the body, and on the other, minimize the consumption of tungsten. From these considerations, and the selected limits - the lower 0.002 and upper 0.006 of the diameter of the body. The relationship between the thickness of the layer with the diameter of the body is chosen experimentally and provides a positive effect on the entire power range of xenon lamps from 0.25 to 10 kW. This provides a greater layer thickness with a larger diameter of the anode body.

In the actual design of the anode of lamps, for example, with a capacity of 3 kW

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defined by the following value. Diameter of the molybdenum case is 24 mm. Therefore, the thickness of the layer lies between 48 and 144 microns. Such coating thickness is easily provided either by plasma spraying tungsten on molybdenum, or by electrical engineering.

Claims (1)

An electrode for a gas discharge lamp comprising a cylindrical molybdenum body with an axial groove in which a tungsten rod protruding from the body is pressed for a length equal to the length of the pressed part, characterized in that, in order to increase reliability and service life, the surface of the body covered with a layer of tungsten with a thickness equal to 0,002-0,006 shell diameter. g