SU1115143A1 - Earth connection - Google Patents

Abstract

1. A GROUNDER containing a body formed of a conductive structure in which the reinforcement cage and metal electrodes are placed, characterized in that, in order to increase reliability by reducing the current density flowing from the reinforcement cage through the concrete into the ground, the reinforcement cage rods are located relative to metal electrodes at a distance satisfying the inequality n, a, e,. NUMBER metal elekde P, trod g the number of rods reinforcing. I2go frame; a.ib, diameter and length of metal electrodes; 2 diameter reinforcing bar cores; The thickness of the protective layer of the conductive structure; e. the total length of the earth conductor; specific electrical "/ resistances of the earth and conductive structure, respectively. 2. Grounding conductor pop. 1, characterized in that base bolts are used as the metal electrodes. 3. Grounding conductor according to claim 1, characterized in that reinforcing rods of reinforced concrete columns are used as metal electrodes.

Description

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SAE The invention relates to electrical power, and more specifically to grounding devices of industrial electrical installations of industrial buildings. Closest to the invention is a grounding conductor comprising a body formed by a conductive structure in which the reinforcement cage and metal electrodes are placed. The conductive structure is concrete ij. A disadvantage of the known earthing is the possible reduction in the service life due to an uncontrolled increase in the density of the current flowing down from the reinforcement cage of the reinforced concrete foundation through the concrete to the ground. ... The purpose of the invention is to increase reliability by reducing the density. the current flowing down the armature frame of the reinforced concrete foundation through the concrete. in the ground. The goal is achieved by the fact that in the earthing, containing a body formed by a conductive structure in which the reinforcement cage and metal electrodes are placed, the reinforcement cage rods are located relative to the metal electrodes at a distance that satisfies i2, J3 - the number of metal electrodes; number of cores of the reinforcement cage; diameter and length of metal electrodes; diameter of reinforcement bars; the thickness of the protective layer of the conductive structure; the total length of the electrical impedances of the earth and the conductive structure, respectively. At the same time, foundation bolts or reinforcing rods of reinforced concrete columns can be used as metal electrodes. The drawing shows the proposed earthing. The earthing switch contains metal electrodes 1 and cores 2 of the reinforcement cage, located in the conducting structure 3, which is concrete, and column 4. Foundation bolts or reinforcement bars of reinforced concrete columns can be used as metal electrodes. to the parameters of the earth conductor, which determine the density of the flowing current. refers to the thickness of the protective layer of the conductive structure (concrete) and the distance between the metal electrodes 1 and the rods 2 of the reinforcement cage g-. P bgo.i-m-njdje j5j the number of metal where and, electrodes; the number of reinforcement bars; diameter and length of metal electrodes; diameter of reinforcement bars; the thickness of the protective layer of the conductive structure; total length of the ground; electrical resistivity of earth and concrete, respectively. The device operates as follows. The earth-close current 3 flows into the metal electrode 1 and the zagmem splits into two parts: one part of the current 7i flows through the protective layer D of the conductive structure into the ground, the other 3 through the layer of the conductive structure equal to the distance S between the metal electrodes and the rod of the reinforcement cage, enters the reinforcement cage 2 rods and from this element through the protective layer of the conductive structure d to the ground (. The ratio DI and Tg depends on the ratio of g and 8 if other design parameters are unchanged. Due to that meta design The electrodes and rods of the reinforcement cage of the foundation are determined by the construction requirements, their dimensions are lengths b, and 2 and the diameters o and 2 are given values of the distance between the metal electrodes and the reinforcement cages, S is determined by the requirements for reducing the current density and accepted (selected) values of the thickness of the protective layer of concrete. Intentional determination of the required current density flowing from metal electrodes and reinforcing bars of the framework increases the reliability of the work of the structure ktsii grounding conductors, as well as building service life, bringing it closer to normability. The latter provision is particularly relevant to buildings whose reinforced concrete foundations are located in medium to highly aggressive soils. Under these conditions, it is necessary to determine the current density especially carefully, since it is permissible

The DENSITY of the continuously flowing current. About the reinforcement through the concrete into the earth is 0.1 A / m.

To reconstruct buildings that did not have intentional joints of foundation bolts with reinforcing bars, using the specified inequality, it is possible to establish the possibility of using such foundations as grounding conductors and to refuse to build artificial grounding conductors.

Claims (3)

1. EARTH, containing a body formed by a conductive structure in which the reinforcing cage and metal electrodes are placed, characterized in that, in order to increase reliability by reducing the current density flowing from the reinforcing cage through concrete to the ground, the reinforcing cage rods are relative to the metal electrodes at a distance satisfying the inequality 8 YEAR where and. - the number of metal electrodes; And 2 “the number of bars of the reinforcing cage; (^ and ^. - diameter and length of metal electrodes; d ₂ - the diameter of the rods of the reinforcing cage; Δ is the thickness of the protective layer of the conductive structure; - total length of the ground electrode; p and p g - specific electrical * resistance of the earth and the conductive structure, respectively. 2. The earthing switch according to claim 1, characterized in that the foundation bolts are used as metal electrodes. 3. The earthing switch according to claim 1, characterized in that the reinforcing bars of reinforced concrete columns are used as metal electrodes.