SU1626465A1 - Microwave pulse former - Google Patents

Abstract

The invention relates to a technique for protecting objects from discharges of atmospheric electricity and can be used in the construction of underground cable lines. The aim of the invention is to improve the reliability of cable protection against direct lightning strikes. For this, a layer 3 is placed between cable 1 and the ground with a specific electrical resistance lower than that of the ground. At the same time between the soil and protective conductors 2 put a layer of material with an electrical resistance greater than that of the soil. 1 hp f-ly, 1 ill.

Description

The invention relates to techniques for protecting objects from discharges of atmospheric electricity and can be used in the construction of underground cable lines and other objects for various purposes, in particular communication cables.

The aim of the invention is to increase the reliability of cable protection from direct lightning strikes.

The goal is achieved in that in a device for protecting underground cables from lightning discharges containing a cable sheath and protective cables, a layer of well-conducting material is additionally placed between the cable sheath and the ground, in addition, a layer of weakly conducting material is placed between the protective cable and the ground.

The drawing shows a diagram of the device.

The device consists of a shielded cable 1, lightning protection cables 2 located in the ground, and a layer of well-conducting material 3 (for example, coke) between the cable and the ground.

With a direct lightning strike in a multi-electrode system, the probability of damage to the protected object is largely determined by the development of oncoming leaders from this object and lightning protection cables, and to increase the reliability of protection against direct lightning strikes, it is necessary to ensure the priority development of leaders from protective electrodes (cables) and reduce the likelihood of a leader from protected object.

When laying communication cables to protect the cable sheath from mechanical stresses, the cable can be placed in a sand cushion, while the cables are located in the ground with high electrical conductivity. Considering this, and based on the physics of the process when lightning strikes objects in the ground, in the known device, due to the high sand resistance, discharge processes begin earlier at the cable surface, the resulting leader processes capture a significant amount around the cable. including, apparently, and protective cables. This will help to serve as the main cause of lightning breaking through the cable protection.

The device operates as follows.

When a lightning bolt discharges into the ground near the cable due to the flow of current from the surface of the cable sheath and protective cables and the occurrence of high field strengths in the adjacent zone of the earth, discharge processes begin at the surfaces of these elements. Moreover, since the cable is surrounded by a well-conducting material with a specific resistance much lower than that of the soil, discharge processes begin earlier in time at the surface of the cable, which ensures reliable shielding of the cable from direct lightning damage.

Thus, the use of the proposed device can improve the reliability of cable protection from direct lightning strikes.

Claims (2)

Claim 1. The device is protected from direct lightning strikes of underground cables containing a cable sheath and grounded protective cables, characterized in that, in order to increase the reliability of cable protection. between the soil and the cable sheath is placed a layer of material with a specific electrical resistance less than that of the soil. 2. The device pop Poplichayuschiesya in that between the soil and the protective cable is placed a layer of material with a specific electrical resistance greater than that of the soil.