SU360886A1 - GAS DISTRIBUTOR - Google Patents

Description

The invention relates to the field of electronics and can be used in the manufacture of high-voltage sealed superhigh pressure arresters.

A gas-filled discharge is known, the shell of which consists of a metal case and an insulator, one electrode mounted on the case and the other in the insulator.

However, the known arrester has a low mechanical strength due to tensile stresses acting on the shell and metal joints with the insulator and not allowing the device to be filled to BbiHie pressures of 10 atm, as well as large dimensions, which significantly increase the inductance of the device.

The proposed arrester differs from the known one in that the insulator is made in the form of a hollow body of rotation, for example a truncated cone, and is placed inside a metal case. At the same time, on a smaller base of the insulator cone, facing the inside of the arrester case, one of the electrodes is fixed, which makes it possible to increase the electrical and mechanical speed of the instrument.

In the drawing ;; e shows the predlagasg: .- ty. Discharge in the section.

glass or ceramic insulator 7.

The metal case of the discharger is made in the form of a cylinder, tightly connected to the insulator 7. The support for the insulator 7 is flanging. The smaller base of the truncated cone of the insulator is facing the inside of the metal housing and is hermetically connected to the electrode 2, which is simultaneously one of the terminals of the discharge device; the second is the metal case. On the opposite side of the junction with the insulator, the metal body is closed by a lid 6, which is welded to it using argon arc welding. Electrode 3 is mounted on the inside of the cover 6. The pumping and filling of the discharger is produced through a metal rod 5, protected from mechanical damage by the cap 4.

The increase in mechanical strength is available; the use of a metal body H placed inside a glass or ceramic insulator. The siMeeT insulator is shaped in such a way that when it is discharged 1-RZO-: insulator and sleep material is used; it is only the compressors that are compressive / xpi, and the strength of ceramics and glass materials at cfiJ falOLL and x desYurz-atsn n is 10-15 times 1 chi than jifjn rzst gng.ayunih. This is an example; to the design of the spa of the Osggozaggtst insulator with a ms. One of the possible variants of the design of such an insulator may be a truncated cone. A similar result can be achieved for parabolic and other insulators.

The proposed insulator design has another advantage. In case of random cracks of the insulator, they are directed along the normal to its surface, and the size of the breakaway part exceeds the size of the hole, and the gas pressure should not be thrown out of the bounds of the bit. This significantly increases the safety in the manufacture and operation of warheads.

High pressure makes it possible to reduce the interelectrode distance and, consequently, reduce the switching time, which is significant when using gaps in nanosecond technology.

The ratio of the interelectrode gap and the distance between the high-voltage output and the housing should be no more than 0.25, which

eliminates external breakdown, increasing the dielectric strength at small size of the arrester.

Subject and s about 6 times e

1. A gas-filled discharge containing a shell consisting of a metal body and an insulator, and at least two

electrode, one of which is fixed to the housing, and the other in the insulator, characterized in that, in order to increase its electrical and mechanical strength, the insulator is made in the form of a hollow body of rotation and is placed inside the metal casing, one insulator base is connected to the end housing, and the other base, on which the electrode is fixed, faces toward the second electrode.

2. The discharge of claim 1, characterized in that the insulator is made in the form of a truncated cone.

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