SU606472A1 - Thermostable inlet of gas-discharge bulb - Google Patents

Description

one

The invention relates to gas discharge devices, in particular, improves the heat-resistant injection into a gas discharge lamp with a quartz glass bulb and can be used in the manufacture of high-intensity light pulsed and arc sources.

The introduction of an electrode into a vacuum discharge apparatus is known, in which the metallic elements of the current lead are connected with glasses or enamels, then with a steatite tube, and then again with glass or enamel, and finally with the metal case of the apparatus, the connection being made during removal .

However, the known input does not allow the current lead to be connected directly to a quartz glass bulb, which is not sufficiently reliable, since sudden temperature changes cause high voltages that lead to the destruction or depressurization of the input. This is because the temperature dependence of CTE of steatite and metals does not coincide. There are always temperature regions where CTE of steatite and metals differ greatly.

A welded entry is known in which the connection of the current lead to a quartz glass bulb is carried out with the help of a cylindrical cup made of thin molybdenum foil 2. Such an input is very difficult to manufacture, has a low climatic resistance, and due to the large difference of the CLRT of the materials to be connected (molybdenum quartz glass) can cause large stresses and, as a result, crackling and detachment with leakage.

The closest in technical essence and the achieved result to the invention is a heat-resistant input to a gas discharge lamp containing an electrode and a current lead vacuum-tightly connected to a cylinder of square glass by means of a transition element of variable composition based on glass and metal. These current leads have insufficient reliability and heat resistance.

The aim of the invention is to increase the reliability and heat resistance of the input.

The goal is achieved by the fact that in the current lead, the transition element contains a layer of quartz ceramics on the side of the cylinder.

FIG. 1-3, various embodiments of heat-resistant input are shown.

Heat-resistant input contains current lead 1 with working electrode 2, vacuum-connected to cylinder 3 of quartz

glass using the transition element 4 through quartz ceramics 5.

Transition element 4 is located coaxially with cylinder 3 inside it and contains quartz ceramics 5, vacuum-tightly connected to cylinder 3. Metal part of transition element 4 is directly connected to working electrode 2, and current lead 1 - with working electrode 2 (fng. 2) or the metal part of the transition element 4 (Fig. 3). Moreover, in the case of the heat-resistant input of FIG. 1 or 3 it is possible to use the current lead as a shingle for pumping out and filling la.mpa with working gas.

The proposed design of an input to a gas discharge lamp eliminates (drawbacks of the known devices: increases reliability, heat resistance, durability, operating temperature, climate resistance, mechanical strength, simplifies the design, reduces the cost, makes it possible to automate the process of manufacturing metal-stengel lamps, skips almost any current through the current lead (depending on the diameter of the transition element).

Claims (3)

1. The patent of Germany No. 767896, cl. 21 g 14, 1957. 2. USSR author's certificate number 395938, cl. H 01J 61/36, 1972. 3. USSR author's certificate number 183915, cl. OZS 27/04, 1965. 1 J F (/ r.2 fig.Z