RU2040835C1 - Method of grounding of wire communication installations - Google Patents

Abstract

FIELD: communication. SUBSTANCE: new method of grounding of wire communication installations in permafrost soils uses heat of ventilation stream originating from building where installations are mounted. Ventilation air is supplied over system of parallel pipes laid in soil which are simultaneously both sources of energy for defrosting of surrounding soil and grounding connections. As a version of method there is proposed to use separate grounding rods arranged within zone of heat effect of system of pipes. EFFECT: simplified design. 2 cl, 2 dwg

Description

 The method relates to the arrangement of grounding (protective and working) of various installations of wired communication, placed in heated buildings.

 Advantageously, the method can be used to equip protective and working groundings of telephone exchanges located in areas of permafrost.

 The aim of the invention is to increase the reliability of the grounding of wireline communication installations located in buildings operating in the permafrost distribution zone.

 This goal is achieved according to the first embodiment in that horizontally laid hollow pipes, to which the grounding units are connected, are connected to a single ventilation network with access to the surface, and ventilation air coming from the building is supplied through them.

 According to the second variant, this goal is achieved by the fact that the pipes horizontally laid in the ground are connected into a single ventilation network with an outlet to the surface, and ventilation air coming from the building is supplied through them, and additionally inserted ground rods are placed in the heat-affected zone of the ventilation pipes, to which they are connected grounded installations.

 The advantage of the proposed method is that the waste heat coming from the building of the ventilation stream is used to the maximum; To ensure high-quality grounding, a constant (throughout the year) melt zone of the rocks is formed, which has a reduced resistivity (on average, thawed rocks have an resistance of 8-15 times lower than frozen).

 In FIG. 1 presents a schematic diagram of the implementation of the method according to the first embodiment. Near the building of the electronic ATS-1, a pipe system 2 is laid in the ground, which is connected through the connecting pipes inlet 3 and outlet 4 to the building and the surface. Air from the building enters through the pipes and is released through the ventilation pipe 4 to the outside. When air passes through pipes laid in the heat-affected zone of each other, thawing of rocks occurs, forming a continuous talik 5. To reduce the influence of the surface, a heat-insulating layer is erected at the pipe laying site 6. The pipes themselves are the grounding, the size and quantity of which are determined by special calculations known methods, depending on the operating conditions of the telephone exchange and the temperature conditions of the region.

 In FIG. 2 shows a schematic diagram of the implementation of the method according to the second embodiment. From the building of the ATC 1, through the pipe system 2 through the ventilation shaft 3 serves warm air that exits through the barrel 4 and is released into the atmosphere. Around the pipes a thawed rear pillar 5 is formed, to increase its size and reduce the influence of atmospheric air, thermal insulation 6 is erected on the surface, the grounding rods 7 are placed in the talik, in the heat-affected zone of the pipes, which ensures reliable year-round grounding of the plant equipment by reducing the resistivity during the transition him from a frozen state to thawed.

Claims (2)

 1. METHOD FOR EARTHING OF WIRELESS COMMUNICATION INSTALLATIONS located in the building, which consists in horizontal laying hollow pipes into the ground to which grounded installations are connected, characterized in that the hollow pipes are connected to a single ventilation network with an exit to the surface and supplied through them coming from building ventilation air.  2. The method of grounding the wire communication installations located in the building, which consists in horizontally laying hollow pipes in the ground, characterized in that the hollow pipes are connected into a single ventilation network having an exit to the surface, and ventilation air coming from the building is supplied through them, and in the zone thermal influence of ventilation pipes is provided by additionally introduced grounding rods, to which the building's grounding units are connected.

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