RU1295978C - Controlled discharger - Google Patents

Description

respectively, the first and second rod tungsten control electrodes 5 are placed. Ceramic bushings 6 and 7 are glued on the surfaces of the holes of the anode 1 and cathode 2 and the side surfaces of the control electrodes, protecting the electrode surfaces from electroerosion. The ends of the ceramic bushings 6 and 7 are mounted flush with the working surfaces of the respective electrodes 1, 2 and 5 "

The diameters D of the holes in the anode 1 and cathode 2, the diameters d of the control electrodes 5, the distance S between the anode 1 and the cathode 2 and the distance 1 between the control electrodes 5 are selected in accordance with the ratio D - d 15-S, namely D 6 mm, d 1 mm, S 1, 5 mm „

A capacitive energy storage device 8 is connected to the anode 1. and the return current conductor 3, and a load of 9 ° is connected to the cathode 2 and the return current conductor 3. The control electrodes 5 are connected to the start circuit, which consists of a series-connected storage capacitor and a controllable switch

Spiral swirling air is supplied to the annular gzhaly between the bushings 6 and 7, cooling the bushings and the working surfaces of the anode 1 and cathode 2

The slug works as follows

When a voltage pulse with an amplitude of 10-16 kV is applied to the control electrodes 5 from the start circuit, a breakdown O occurs between them, and in this case, the discharge plasma in the form of a cylinder propagates explosively and symmetrically in the direction perpendicular to the discharge channel “Since the edge Since the holes of the anode 1 and cathode 2 are located at a small distance from the ends of the control electrodes 5, the plasma quickly reaches the edges of these holes and reliably shorts the anode 1 and cathode 2 ,. In this case, there is also illumination of the gap between the anode 1 and the cathode 2 by ultraviolet radiation from the discharge plasma between the control electrodes 5, but the main role is played by the reliable starting of the discharge when the voltage between the anode 1 and the cathode 2 is 10-100 V - for example - burning the pulse arc - play the short-circuiting of the anode 1 and cathode 2 with an electrically conductive plasma of an igniting discharge between the control electrodes 5 о

At 10 V, between the anode and the cathode, the arrester is triggered via μs. at 100 V - through 2-C μs, and at 2000 V - after 0.1-0.2 μs with a spread of 0.05 MKS Повыш By increasing the power of the ignition discharge, for example, by reducing the inductance of its oscillating circuit, reduce start-up delay time at low voltages

The short start-up time of the burst at low voltages on the main electrodes makes it possible to switch on such bursts in parallel, for example, each section of several capacitors has its own burst, and also as a crobar “

If one of the several parallel-connected dischargers starts earlier than the others, then the voltage between the main electrodes of the other dischargers drops sharply to 10-100 V, i.e., to the arc burning voltage, in such difficult conditions to start the discharges the scatter of the launch time is sometimes thousands of times, which leads to the failure of the experiment, deterioration of quality, and even to marriage in products made by the method of magnetic pulse processing of metals

The proposed spark gap is free from these drawbacks. At a certain power of the ignition spark, the spark gap starts regularly, without gaps at low voltages, within strictly limited limits of the delay of the start. An increase in the power of the ignition spark reduces the delay of the start. The maximum delay time is determined by the speed of the spreading plasma and the distance from the axis of the ignition gap to the edges of the holes of the anode and cathode

1

The proximity of the reverse current lead 3 to the anode 1 and cathode 2 in this controllable discharge makes it possible to obtain a low-inductance design of the discharge circuit in which the discharge plasma moves between the anode and the cathode under the action of its own magnetic field in the direction from the reverse current lead This reduces the thermal effect plasma on UP512959786

The equalizing electrodes and workers give the durability of rp r dnkn and the surface of the anode and cathode, which increases the reliability of its operation

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Compiled by Editor OoFilippova Tehred MoMorgental

Order 2828 Mintage

VNIIIPI of the State Committee for Inventions and Discover at the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-ZB Rauska nab ,, d, k / S

Production and Publishing Plant Patent, Uzhhorod, st. Gagarina, 101

Corrector. A. Motyl