SU606471A1 - Flash discharge lamp - Google Patents

Abstract

1. RPG-SHUNT GAS-DISCHARGE LAMP filled with working gas or steam, containing two coaxial cylindrical tubes of optically transparent material, outwardly of which at their opposite ends are hermetically connected to the terminals of the electrode assemblies, and the opposite ends of the inner quartz tube are mechanically fixed in the working part of the electrode shaft, characterized in that, in order to increase the durability of the lamp, the inner tube is made of three sections, separated from one another by quartz partitions, abut the metal cups, which are the working parts of the electrode assemblies, covered at the side surface by the extreme of these sections, and the bases of the metallic cups are fixed on the leads of the electrode assemblies, and the quartz partitions have through holes. 2.Lamp pop.1, a distinctive so that, in order to filter out shortwave radiation, the outer cylindrical tube is made of quartz doped with lanthanide oxides. 3. The pop lamp 1, which, in order to simplify the lamp manufacturing technology, External Expansion cylindrical tube made of stekla.i (La: > & oO5 4 ^ ^

Description

The invention relates to high-intensity light sources used for pumping lasers, irradiating photochemical media, and also in light-signaling equipment. A pulsed gas discharge lamp is known, consisting of two coaxial tubes made of optically transparent quartz. The outer tube is sealed to the electrode leads. The inner tube is mechanically fixed by conical electrodes, the front part of which is inserted into its ends. In the middle of the inner tube, a quartz wall is made in order for the discharge to flow in the coaxial cavity. It is also known if a large. honestly coaxial (cavity) lamps, in which the discharge is carried out in a coaxial cavity, and the inner tube is designed to accommodate the irradiated medium. Closest to the invention is a gas-dynamic flash lamp made of two coaxial tubes of optically transparent material, the inner of which has openings for the passage of working gas during discharge into the coaxial cavity and back. The lamps listed above have significant drawbacks that do not allow for obtaining greater durability of light sources. The service life of pulsed gas discharge lamps depends on the dynamic loads on the light source bulb associated with the rapid expansion of the discharge channel and the generation of powerful shock waves and plasma flows, the promotion of which is limited by the external bulb and electrode nodes. In addition, during the operation of the gas discharge lamp, erosion of the electrodes occurs, and metal particles are separated by gas flows throughout the entire discharge gap on the flask. As a result, the light transmission of the bulb decreases and the fraction of the light energy absorbed by the shell increases, which leads to an increase in thermal stresses in the bulb. At the same time, due to the contact of the shell material with the plasma, at the plasma – quartz interface chemical reactions occur, whose products deposited on the walls of the lamp shell,. also reduce its light transmission. These causes reduce the durability of high-intensity gas-discharge light sources and do not allow materials with low thermal strength, such as glass, which are used for light sources with a low discharge intensity, to be used as the lamp shell. The purpose of the invention is to increase the durability of the lamp. The goal is achieved by the fact that a pulsed gas discharge lamp filled with working gas or vapor and containing two coaxial cylindrical tubes of optically transparent material, externally at their opposite ends, is hermetically connected to the leads of the electrode nodes and the opposite ends of the inner quartz tube are mechanically fixed in the working part of the electrode assemblies, the inner tube, limiting the discharge zone, is made of three sections, separated from one another by two quartz partitions metal cups, which are the working parts of the electrode assemblies, covered by the extreme sections of the tube, with the bases of the metallic cups attached to the outputs of the electrode assemblies, and the quartz partitions have through holes. In addition, the outer cylindrical tube can be made of quartz doped with lanthanide oxides to filter shortwave radiation or glass to simplify manufacturing techniques. Tests have shown that the proposed device has a durability several times greater than light sources with the same dimensions of the discharge part with the same operating modes. The drawing shows a pulsed gas discharge lamp. The outer cylindrical tube 1 of glass is vacuum-tightly connected to the molybdenum leads 2 and 3 of the electrode assemblies, to which the metal cups 4 and 5 are made of steel. The internal quartz discharge tube 6 is divided into three sections by two quartz walls 7 and 8, in which there are openings 9 and 10 for electrically connecting these sections. Quartz dividers 7

Claims (3)

1.PULSE GAS DISCHARGE LAMP, filled with working gas or steam, containing two coaxial cylindrical tubes of optically transparent material, the outer of which at its opposite ends is hermetically connected to the terminals of the electrode assemblies, and the opposite ends of the inner quartz tube are mechanically fixed in the working part of the electrode assemblies, characterized in that, in order to increase the lamp life, the inner tube is made of three sections separated from each other by quartz partitions, I abut metal cups, which are the working parts of the electrode assemblies, covered along the lateral surface by the extreme of the indicated sections, the bases of the metal cups being fixed at the terminals of the electrode assemblies, and the quartz partitions have through holes. 2. Lamp pop. 1, characterized in that, in order to filter out short-wave radiation _{x the} outer cylindrical tube is made of quartz doped with lanthanide oxides. 3. Lamp pop. 1, characterized in that, in order to simplify the manufacturing technology of the lamp, the outer cylindrical tube is made of glass. 60647.1