SU1008819A1 - Gas-discharge device - Google Patents

Description

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The invention relates to the electrical industry and can be used in the production of quartz light sources of pulsed and continuous radiation. Gas-discharge lamps are known that contain a xenon-filled quartz tubular flask in which electrodes are installed at opposite ends, each of which is connected to an external outlet by means of a current lead, which is hermetically mounted in the leg. With the latter, the electrode is connected using a rod holder, on which a metal disk is tightly mounted, the outer diameter L is smaller than the inner diameter of the bulb stem l. These discs, being centering parts, facilitate the installation of electrodes during welding in the center of the flask, however, since the disc diameters are smaller than the internal diameter of the flask, the lamp is not reliable enough at increased mechanical loads. The most common to the proposed software is a gas discharge lamp containing an optic transparent flask, at opposite ends of which electrodes mounted on rod holders placed inside an axial orifice are fitted with current leads made of heat-resistant dielectric material with the largest outer diameter, close to the inner one. dia ru bulb. The disk is provided with openings for communicating the volume behind it with the remaining volume of the lamp 2. This design provides centering of the electrode along the axis of the bulb, which is necessary, for example, when using a double-layer electrode in a lamp with an unactivated working layer facing the discharge cavity and an activated igniter Lm layer from the current lead side, for reliable operation of such electrodes. However, the assembly of the famous lamp is difficult. To fix the disk, it is necessary to firmly fasten it on the rod holder, which is technologically difficult. In order to ensure a tight placement of the disk in the flask, it is necessary to reduce to a minimum the variation of the internal diameters of quartz tubes or to select disks according to diameter. All this reduces the manufacturability of the lamp and its cost of production. The purpose of the invention is to improve the manufacturing technology of the lamp. This goal is achieved by the fact that in a gas-discharge lamp containing an optically transparent flask filled with working gas, for example, a quartz tubular flask, in which electrodes are installed at opposite ends, each of which is connected to an external outlet by means of an electrode inlet connected to it. by means of a rod holder, on which between the electrode and the current lead is installed an axial bore fitted with an axial bore made of a heat-resistant dielectric material, for example ke The bulb with the largest outer diameter with a diameter close to the inner diameter of the flask, the bulb from the current lead side is equipped with an internal protrusion, at the point of contact with which the outer surface of the centering part has at least one helical groove and the diameter smaller than the largest diameter of the centering part not less than 1 , 5 times, and the diameter of the axial bore of the centering part. At least 2 times the diameter of the rod holder. Equality of the inner diameter of the tubular part of the leg and the disc protrusion of the centering part is ensured at the highest permissible temperature of the lamp. The drawing shows the proposed lamp. In a tubular quartz flask 1 at its edges in legs 2 foil sealed current leads 3 are stamped, to which conclusions 4 are outside, and molybdenum rod holders 5 of two-layer electrodes b, between which and current leads 3 on holders 5, centering ceramic parts are installed. 7 with a disk part 8 having the largest diameter and a part 9 provided with screw grooves 10. The legs 2 are crimped around the circumference of their tubular body parts so that in the space 11 of the cylindrical parts 9 quartz adjoins the ceramics, while m is provided for fixing parts 7, since helical grooves 10, partially filled with quartz, prevent movement of parts 7 when a gap between quartz and ceramics appears after welding and cooling due to the difference in thermal expansion coefficients, which is smaller in quartz. Ceramic parts with screw grooves are made integral by converting the mass in such a way that the proposed design ensures fixation of integral ceramic parts, which makes it possible to refuse composite centering parts, i.e. lamp design and assembly are simplified. Axial hole

Details 7 are not less than 2 times the diameter of the holder 5. As tests of prototypes show, with such a ratio of sizes, through the gap between the holder 5 and part 7, sufficient volume is provided for part 7 (where the sputtered getter can be placed) with the remaining lamp volume without additional holes in the centering part, which simplifies its design. The alignment of the electrode is ensured by the fact that the length of the axial channel is 5-10 times greater than the diameter, therefore the greatest possible feather holder 5 in the hole of the part 7 is insignificant. The diameter of part 9 of the largest diameter of the centering part is 1.5 times or more. Under this condition, as revealed by the fabrication of prototypes, when the knife 2 part J9 is compressed, the diameter of the adjacent part of the quartz tube also decreases until it touches part 8, which ensures a strong fixation at elevated temperature. In the off state of the lamp, when cool. to normal temperature

a slight gap is formed between the disk part 8 and the quartz bulb, i.e. the centering of the electrode is not disturbed (the size of the gap depends on the brand of ceramic). Thus, 5 in the non-operating state of the lamp, the electrodes are centered along the axis of the bulb, and when the lamp is burning, the reliability of the centering increases, but without the danger of the bulb breaking if the centering part expands, the latter is at the same time. but it protects the current lead from the regeneration to these contributes to maintaining the reliability of the lamp sealing. The proposed lamp design

5 allows to increase its mechanical strength. This ensures that the electrode is safely centered on the rod holder without any accessories, when welding,

Therefore, the possibility of uneven loading of the electrode and destruction of the Luba in the area of the electrode core is eliminated. All this increases the reliability of the lamp in operation, when

5 this technology of its manufacture is simplified in comparison with the known lamps in which the electrode is also centered.

Claims (1)

A GAS DISCHARGE LAMP containing an optically transparent flask, at the opposite ends of which electrodes are hermetically sealed using current leads mounted on rod holders located inside the axial bore of the corresponding centering part of a heat-resistant dielectric material with the largest outer diameter close to the inner diameter of the bulb, different And I with the fact that, in order to increase the manufacturability of its manufacture, the bulb on the side of the current lead is equipped with an internal protrusion, in the place of contact with by which the outer surface of the centering part has at least one helical groove and a diameter smaller than the largest diameter of the centering part by at least 1.5 times, and the diameter of the axial hole of the centering part is not less than 2 times the diameter of the rod holder. “KTAOO I TTS ¹ *”>