SU415753A1 - - Google Patents

Description

one

The invention relates to gas-discharge devices, iB in particular, to an end-output emulsified light sources, in which the gas discharge of a nlazm is limited to the walls of a tubular bulb.

The proposed source is intended mainly for irradiation of high-power light flashes of directional radiation of gases or liquid walls IB by pulsed photolysis. It can also be used for probe studies or as a high-temperature image; BUT: a new source of spectral radiation distribution.

Known radiantly emitting light sources are known, containing a tubular alba filled with a working gas and electrode assemblies placed at opposite ends of the discharge gap, one of which is made in the form of a hollow center or drike part, on the end of which an optically transparent window is mounted for radiation output.

Such light sources are operated at a flash duration of about 200 microseconds and more.

For purposes of pulsing photolysis, as well as for using as a high-temperature reference light source in known devices, it is necessary to reduce the flash duration, which, when the discharge energy is saved, causes IK to increase the plasma temperature. In order to obtain high efficiency, converting the supplied electrical energy into light radiation with a short flash duration, in order to operate it in a low-inductance unit, it is necessary that the lamp have a high resistance. This can be achieved by increasing the length and decreasing the diameter of the discharge zone of the light source. Increasing the length leads to unnecessarily large lamp dimensions, and a decrease in the diameter creates a difficulty in the effective irradiation of objects with a large area.

In order to increase the temperature of the emitting plasma and increase the efficiency of the conversion of electrical energy into directional radiation for a short duration of discharge in the proposed gas-discharge light source

the flask is made of three coaxial cylindrical tubes, for example, of quartz glass, and the placement of the end electrode assembly in the inner tube at one of its ends and the annular electrode assembly between

the middle and outer tubes, while the opposite 1 ENDS of the inner and middle tubes, free from the electrode assemblies, are open to flow discharge current in the cavities limited by the said coaxial cylindrical tubes.

To harden the proposed light source — at the open end of the inner tube between it and the middle tube, and also on the open KOiHue middle tube, between it and the outer tube, there are clamps in the form of quartz flows that prevent the said ends from deviating in the radial direction. On the outer surface: a reflective coating is applied to the outer tube, and as this can be used diffusely scattering radiation silicon dioxide, sintered to a zero irradiance.

FIG. 1, a proposed gas discharge light source with an output radiation is shown, longitudinal section; in fig. 2 is a section, along A-A in FIG. one.

The proposed source of light contains three coaxial cylindrical tubes I - 3 made of transparent varshiy glass onticheyuki. At one end of the inner tube 1 there is an end electrode assembly 4 with a thoriated tungsten electrode 5 attached to an euar holder 6. A tin-titanium lip which is poured between a titiobibibi cylinder 7 and tube 1 provides vacuum tight sealing of the electrode assembly 4. 8 in the holder 6 serves for pumping and filling the working light source with the gas. At the opposite end of the tube 1 between it and the tube 2 are placed quartz flows 9, which prevent the tube tube 1 to oscillate in the radial direction and thereby strengthen it from possible damage that may occur during discharge. The short duration of the flash can lead to the destruction of the unfixed tube 1 even at low energy x discharge, due to large bending stresses along 1 impulse 1B of the initial moment of discharge due to its uneven development. Similar quartz nanlyvs 10 reinforce the middle tube 2. The annular electrode assembly 11 with cylindrical G2 thoriated tungsten electrodes planted on the annular portion 13 is hermetically sealed with tin-titanium solder between the outer tube 3 and titanium cylinder 14. at one end. The other end is vacuum-tightly connected to an optically transparent quartz glass window 15 that serves to (emit radiation using an epoxy resin with boron nitride filler. sintered to zero porosity.

Subject invention

Claims (3)

1. A gas discharge source with an end radiation output, containing a cLB filled with working gas and mounted on opposite "discharge gaps" electrode assemblies, one of which is end, and the second is made in the form of a hollow cylindrical part, on which is placed an optically transparent window for radiation output, characterized in that, in order to increase the temperature of the emitting plasma and increase the efficiency of converting electrical energy into directional radiation for a short duration discharge, the flask is made of three coaxial cylindrical tubes, for example, of quartz glass, on one end of the inner, from which the end electrode assembly is mounted, and between the middle and outer The tubes accommodate an annular electrode assembly, the opposite ends of the inner and middle tubes, free from the electrode assemblies, being open for the flow of discharge current in cavities limited by said coaxial cylindrical tubes. 2. The source of the lighting device according to claim 1, characterized in that, for the purpose of reinforcing it, at the open end of the inner tube between it and the middle tube, as well as at the open end of the middle tube between it and the outer tube, are clamps in the form of quartz flows, which prevent the aforementioned tube ends from deviating in the radial direction. 3. The source of light according to. 1 and 2, characterized in that a reflective coating is applied to the outer surface of the outer tube, for example a diffusely diffusing radiation silicon dioxide, sintered to zero porosity. "one Phie 76 J L