RU187851U1 - GAS DISCHARGE CIRCUIT BREAKER WITH TWO-GLASS CONFIGURATION OF HOLE HOLES - Google Patents

Abstract

A useful model of the device relates to gas-discharge pulsed technology, in particular to gas-discharge switches of low pressure of a thyratron type. It can be used as a switching device in high-voltage pulse generators with an inductive energy storage in order to increase the maximum breaking current and increase the stabilization of the current breaking process. The gas discharge switching device comprises an anode, a cathode and a grid unit. The mesh and the screen are made holes in the form of a straight longitudinal slot. The edges of the holes are rounded. Grid and screen thickness increased. The area of the hole in the grid of the described device significantly exceeds the area of the hole of the grid of the device with a slotted hole configuration. In the presented device, the area of the hole in the grid is commensurate with the area of the hole in the screen, while in the device with a slotted configuration of holes, the total area of holes in the screen of the mesh unit significantly exceeds the area of the mesh hole. Compared with the grid unit of the device with a slotted hole configuration, the width of the slots of the holes in the grid unit of this device is increased.

Description

A useful model of the device relates to gas-discharge pulsed technology, in particular to gas-discharge switches of low pressure of a thyratron type. It can be used as a switching device in high-voltage pulse generators with an inductive energy storage in order to increase the maximum breaking current and increase the stabilization of the current breaking process.

Known gas discharge device with a slotted configuration of the holes of the mesh node containing the anode, cathode, mesh node (Fig. 1). In the grid and the screen holes are made in the form of a straight slot. The width of the slots in the grid is less than the width of the slots in the screen. The area of each hole in the screen exceeds the area of the mesh hole. The cross-sectional area of the discharge channel reaches a minimum in the mesh hole [1].

The disadvantages of using the device with a slotted configuration of the holes of the mesh unit are a small heat dissipation, heating of the edge sections, which leads to a decrease in the maximum breaking current.

The above indicates that the design of the grid unit has the greatest influence on the operation of gas-discharge thyratron-type current switches in the circuit of a high-voltage pulse generator with inductive energy storage. The purpose of the utility model is to increase the maximum breaking current, increasing the stabilization of the current breaking process. The solution to this problem is provided by the use in the proposed device of the mesh node with a two-slot configuration of the holes of the mesh node.

A drawing of a mesh assembly with a double-slotted hole pattern of the mesh assembly is shown in FIG. 2. In the grid and screen holes are made in the form of a straight longitudinal slot. The edges of the holes are rounded. Grid and screen thickness increased. The area of the hole in the screen slightly exceeds the area of the mesh hole. The area of the hole in the grid of the described device significantly exceeds the area of the hole of the grid of the device with a slotted hole configuration. The area of a single hole in the screen of the grid node of the presented device is slightly smaller than the total area of two holes in the screen of the grid node of the device with a slotted hole configuration. Compared with the grid unit of the device with a slotted hole configuration, the width of the slots of the holes in the grid unit of this device is increased.

A feature of the gas-discharge device presented is the fact that due to the absence of a second hole in the screen in this device, the combustion of the discharge is constant, thereby significantly reducing the temporary instability of the current interruption process in the device. The minimum cross-sectional area of the discharge channel, located in the region of the hole in the grid, is one third larger than in a gas-discharge device with a slotted hole configuration, which makes it possible to increase the maximum breaking current. To compensate for the increased heat release, the wall thickness was increased [2]. The edges of the holes are rounded to reduce their heating and increase the threshold for the occurrence of field emission under the action of high pulsed voltages, which in turn reduces the likelihood of re-ignition during current interruption and increases the stability of the device [3, 4].

Bibliography

1. Patent No. 170980 U1 RU

2. Vogelson T.B., Breusova L.N., Vagin L.N. Pulse hydrogen thyratrons. M: Owls radio. 1974

3. Vereshchagin N.M., Kruglov S.A. High-voltage pulse generator with inductive energy storage and thyratron // PTE. 2002. No2.

4. Riser Yu.P. Physics of gas discharge: Textbook. guidance for universities. Ed. 2nd, rev. and add. M .: Science. Ch. ed. Phys.-Math. lit. 1992.536 s.

Claims (1)

A gas-discharge switching device comprising an anode, a cathode, a grid unit, characterized in that the holes in the grid and the screen are made in the form of a straight longitudinal slot with rounded edges, while the area of the hole in the grid is comparable with the area of the hole in the screen.

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