SU1640764A1 - Controlled high-voltage arrester - Google Patents

Description

one

(21) 4427886/07 (22) 05.23.88 (46) 07.04.91. Bull number 13

(71) Kharkiv Polytechnic Institute. V.I. Lenin

(72) C. D. Bespalov, V. V. Ledenev, and L. A. Katsyzna

(53) 621.316.933 (088.8)

(56) Technique of large pulsed currents and magnetic fields. / Edited by V.S. Komel'kova - Moscow: Atomizdat, 1970, p. 472. USSR author's certificate No. 502435, cl. H 01 T 7/00, 1973.

(54) CONTROLLED HIGH-VOLTAGE DISPLAYER

(57) The invention relates to high-voltage impulse technology. The purpose of the invention is to simplify the design, expand the scope and increase the reliability of operation in the frequency mode. By using liquid as an initiator supplied by the dropping dispenser to the horizontal arrangement of the spark gap across the electric field lines, the initiation of the sample is facilitated, and the discharge is also self-cleaning. without the use of a purge. 1 silt

The invention relates to high-voltage impulse technology and can be used in various electrophysical installations for producing plasma, creating strong pulsed magnetic fields for scientific and technological purposes, in high-voltage test installations.

The purpose of the invention is to simplify the design, expand the scope and increase the reliability of operation in the frequency mode.

The drawing shows a schematic diagram of a controlled high-voltage arrester.

The arrester contains two electrodes 1 and 2 of arbitrary shape, a vessel 3 with a dropping dispenser 4. The vessel 3 is made by an initiator, which uses liquid 5. The electrodes 1 and 2 form a horizontal spark gap in a gas that is connected to a high voltage source 6 load 7

The discharge works as follows

When a high voltage is applied to the discharge gap formed by electrodes 1 and 2 of arbitrary shape, the electric field strength in the gap does not reach the decay value, since the electrodes are separated from each other by a distance excluding the breakdown. When the drip dispenser 4 is opened from the vessel 3, a drop of liquid 5 flows out. Falling into the discharge gap, a drop of fluid polarizes and distorts the electric field in the gap The intensity of the electrical field becomes higher than the breakdown gap and a breakdown of the discharge gap occurs. In addition, there is another effect that facilitates breakdown. The main electrodes and droplets form a two-gap arrester, the total air gap of which decreases in comparison with the initial one (in the limiting case of a droplet (L

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generally shrinks the bit gap).

Fluid 5 can be either purely dielectric (e.g. glycerol) or purely conductive (e.g. mercury or electrolyte).

Thus, in the case of a purely dielectric fluid 5, the mechanism of the sample is due to the polar field distortion due to the droplet polarization. In the case of very small gaps (the gap is smaller than the diameter of the drop), breakdown is possible over the surface covering the drop gap occurring at lower values of the electric field strength compared to the breakdown gap. In the case of a well conducting fluid, the conditions of the discharge gap are also facilitated by dividing it into two consecutive gaps.

The best (the simplest, cheapest and environmentally friendly) liquid option is tap water. A drop of such water in an electric field will polarize, but, on the other hand, this water is a conductor, albeit a bad one. Thus, in this case, both of the above mechanisms for the spark gap gap will take place.

By adjusting with the help of a dropping dispenser the frequency of supplying drops to the discharge gap, it is possible to provide a corresponding (sufficiently high) discharge frequency of the arrester, which is especially important, for example, when testing high-voltage pulsed capacitors for life.

In the proposed template compared with the known. the construction is simplified and cheapened due to the absence of a complex system that allows the conductive body to be inserted into the discharge gap, the size of the switch is reduced.

The method used in this discharge to initiate the discharge of liquid droplets is applicable to discharges with a very small spark gap (v1 mm), which is almost impossible for a spinning disc starting system.

In addition, the microparticles of the liquid, settling after the discharge, carry away the products of the arc and thus promote the self-cleaning of the discharge without the use of a purge, which also contributes to the reliability of the discharge of the discharge in the frequency mode.

Claims (1)

Invention Formula A controlled high-voltage discharge containing two electrodes forming a spark gap in a gas, and a starting system made in the form of an initiator with its feed mechanism into the discharge gap across the electric field lines, characterized in that, in order to simplify the design, the application and increase the reliability of operation in the frequency mode, a liquid is used as the initiator, the spark gap triggered is located horizontally, and the initiator feed mechanism in the spark current is formed as a vessel with a drip spout located above the spark gap StartUp.