SU261535A1 - Diff - Google Patents

Description

The invention relates to gas discharge devices, designed to protect electrical communication lines.

One of the main requirements for protective dischargers is a high potential for extinction, i.e., the ability of the arrester to extinguish at voltages greater than the voltage of the remote power supply of the LINK communication.

It is known that spark discharges are used to protect communication lines from lightning discharges, in which the extinction potential is low (on the order of 200 V), therefore their use for equipment protection in remotely powered lines is limited. To increase the extinction potential of protective arresters, air and magnetic blast are used, multi-gap discharge gaps, etc., which complicates the design, makes it cumbersome and not always convenient to use.

In the proposed design, in order to increase the voltage of the extinction between the electrodes, a diaphragm made of a dielectric, for example, ceramics, provided with channels arranged parallel to the axis of the discharge gap, is placed. These channels have a diameter in the range of 0.1-1.5 mm, and a length of 0.5-10 mm or more.

The nickname depends on the balance of the power supplied to the discharge from the source to the power lost due to thermal conductivity, radiation, etc. The greater the power loss, the

the greater the voltage, the balance is established and, consequently, the greater the potential for extinction.

Losses due to heat removal from the discharge column increase dramatically if the discharge relates to

the walls of the balloon bulb. In addition, in narrow channels, the ratio of the surface of the discharge column to its volume is larger, which increases the role of the heat sink. As the relative loss of energy on the walls increases with

by decreasing the channel diameter, the discharge quenching voltage in narrow tubes should be higher than in wide ones.

The drawing shows the proposed pattern.

It is a two-electrode structure including a cylindrical glass body 1 with covarers 2 welded from the ends. made of a dielectric, for example, ceramics, equipped with channels,

terrible. The size of the diaphragm is chosen so that the discharge is only possible through the channels in the diaphragm. By changing the length of the channels and their diameter, one can obtain the necessary value of the extinction potential. The diameter of the capillary can be from 0.1 to 1.5 mm. The capillary diameter above 1.5 mm has almost no effect on the extinction potential. When the capillary diameter is less than 0.1 mm, the plasma temperature in them during the spark discharge increases to such an extent that the material of the diaphragm is destroyed.

The length of the capillary is chosen from 0.5 to 10 mm and more, since the extinction potential is proportional to the length of the channels. Inert gases or hydrogen are used as a filler. Among the inert gases, helium and neon are best.

The proposed arrester can withstand several thousand hours of breakdown with a maximum pulse current of up to 5000

and, at the same time, the potential for extinction is more than 400 c.

Subject matter

Claims (2)

1. Discharge, for example, to protect electrical communication lines, in the case of which, filled with gas, electrodes are placed. an anode and a cathode, characterized in that, in order to increase the extinction voltage, between these electrodes is placed a diaphragm made of a dielectric, for example, ceramics, provided with channels arranged parallel to the axis of the discharge gap. 2. Distribution according to claim 1, characterized in that said channels have a diameter in the range of 0.1-1.5 mm, and a length of 0.5-10 mm and more.