RU1809482C - Ventilated discharger - Google Patents

Abstract

Essence; electrodes are installed in an insulating casing made with inlets, and one of the electrodes is made with an outlet. The axes of the inlets are oriented so that one of the generatrixes of the side wall of each inlet is tangential to the inner side surface of the housing. 2 ill.

Description

The invention relates to electrical engineering, in particular to pulsed gas discharges. The invention may find wide application in the generation of powerful voltage and current pulses.

The purpose of the invention is to increase the service life of the discharge, during which high response stability is achieved by increasing the efficiency of removal of erosion products and improving cooling of the electrodes.

In FIG. 1 shows a side view and a vertical section of the proposed discharge; Fig. 2 is a top view and a horizontal section of a slug.

The spark gap consists of an insulating casing, a system of electrodes and gas pipelines connected to the holes in the casing. The insulating housing 1 is made in the form of a shell of revolution with flat ends. The electrode system consists of three electrodes: two main 2 and 3 and an ignition electrode 4. The main electrodes are made in the form of bodies of revolution with an outer surface formed by rotation of a plane curve like a parabola. The ignition electrode is made in the form of a flat ring with a sharp inner edge. The gas pipelines 5 serving for the inlet of gas into the gas discharge and the gas pipelines 6 for discharging gas are made in the form of round tubes. In place

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attaching gas pipelines to the insulating casing they are connected to the inlet openings 7, which are also made round. Outlets 8 are arranged at one of the ends of the slug. The total, inlet area is assigned more than the area of the outlet. The central axis of the outlet coincides with the central axis of symmetry of the housing. In the construction of the discharge, the outlet 8 can be directly connected to the atmosphere. One of the generators of the side wall of each inlet 7 is tangent to the inner side surface of the housing 1. In order to ensure maximum gas flow when blowing the discharge, the ratio of the inlet and outlet openings should be assigned based on the condition adopted for centrifugal nozzles in rocketry: . ,

R Guvy

GVH-NBX

 0.4

where R is the radius of the cylindrical part of the discharge,

Gvyh and g vkh - the radii of the outlet and inlet openings,

Mvh - the number of inlets.

The insulating housing can be installed in plastic, the electrodes in metal, for example, tungsten, and the gas pipelines in rubber. As gas insulation in the working chamber, any gas possessing the necessary electrical insulating properties, for example, purified air, can be used.

The slug works as follows. When the outlet 8 is closed, electrically insulating gas is injected into the working chamber through gas pipelines 5 under pressure. After reaching the set pressure in the working chamber, the gas supply is stopped and the gas pipelines are shut off. Between the main electrodes 2 and 3 provide a given electrical potential. An electric voltage is applied to the ignition electrode 4 and a discharge or sequence of electric discharges with predetermined parameters is provided. Open the outlet 8 and through the gas pipelines 5, gas is supplied under pressure into the working chamber under pressure. Gas rotating inside the working chamber around the central axis of the discharge

entrains the erosion products of the electrodes, the insulating casing and gas ions formed during the discharges and carries them out of the working chamber through the outlet 8. After cleaning the working chamber, the cycle

gas pumping - discharge purge is repeated. It is also possible to operate the discharge during continuous purging of the working chamber.

The execution of the discharge in the form of a centrifugal nozzle allows you to purge the entire

the volume of the working chamber, because with such a purge scheme the gas movement is ordered, as a result of which no gas vortex zones are formed that inevitably arise in the prototype discharge, and provides

effective cleaning of the working chamber from the products of erosion of the electrodes and the insulating casing. The high speed of the ordered gas flow in the vicinity of the electrodes allows

effectively entrain erosion products and ionized gas, improve electrode cooling, which increases the stability of operations and increases the service life of the discharge, especially at high frequencies

Claims (1)

tripping, characterized as a rule by significant heating of the electrodes. SUMMARY OF THE INVENTION A ventilated discharger comprising an insulating housing formed in in the form of a hollow body of revolution with gas inlet openings, the axes of each of which lie in a plane perpendicular to the axis of symmetry of the housing, in which opposing electrodes are coaxially mounted, one of which is made with an outlet, the throughput of which is less than the total inlet capacity holes, characterized in that, in order to increase the term service, during which high stability of operation is ensured, the axes of the inlet openings are oriented in the indicated plane so that one of the generators of the side wall of each inlet the holes are tangent to the inner side surface of the housing. figure 1