SU1753524A1 - Base of electric installation - Google Patents

Abstract

SUMMARY OF THE INVENTION: The base of an electrical installation comprises a volume of bulk material disposed on natural soil, the bottom layer of which is made of an electrically conductive porous material, and a grounding element located in the bottom layer. The bottom surface of the lower layer of bulk material volume is located below the base freezing. 3 z.p.ft ly, 3 il. cl

Description

The invention relates to power engineering and can be used for the device base for electrical installations.

The base of an electrical installation is known, which contains a grounding element placed in natural ground 1.

A disadvantage of the known base of an electrical installation is that it can be installed onto an electrical installation only in the case of high-quality natural soil.

The closest in technical essence to the present invention is the base of the electrical installation, containing a volume of high-quality bulk soil material intended for location on natural soil, and a grounding element

2

A disadvantage of the known base design is its high resistance to current spreading and insufficient potential equalization on its surface. When a soil material freezes, its electrical conductivity decreases, which reduces the grounding quality.

The purpose of the invention is to increase the efficiency of the base by reducing its resistance to current spreading and improving the potential equalization on its surface.

This goal is achieved by the fact that at the base of an electrical installation containing a volume of bulk material intended for location on natural soil and a grounding element, the lower layer of bulk bulk material is made of electrically conductive porous material, there is a grounding element forming the bottom layer bulk material grounding, while the bottom surface of the lower layer of the volume-H

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This bulk material is located below the freezing boundary of the base.

The bottom layer of bulk material is made of metallurgical slag, the electrical installation base is provided with additionally introduced drainage pipes made of conductive material located in the lower layer of bulk bulk material and connected to the grounding element, and the electrical installation foundation is made of electrically conductive concrete.

 FIG. 1 shows the base of a group of electrical installations, a section; figure 2 - section aa in figure 1; FIG. 3 shows the basis of a group of electrical installations in the case of building foundations of installations in the form of plates of electrically conductive concrete.

The base of a group of electrical installations located on foundations 1 contains a volume of bulk material in the form of an upper sand-gravel layer 2 and a lower layer 3 made of electrically conductive porous bulk material in which the grounding element is located in the form of a metal mesh 4. Layer 3 is located on soil 5, and its lower surface 6 is located below the boundary 7 of the base freezing.

The electrically conductive layer 3 is made of metallurgical slag and, together with the grid 4 and the grounding conductors 8, forms the grounding conductor of electrical installations.

The base is provided with additionally introduced drainage pipes 9, which are made of conductive material, are located in the lower layer 3 volumes of bulk material, are enclosed in filters 10 of their coarse-grained metallurgical slag and are connected to the grid 4 /

Foundations 1 for electrical installations can be made in the form of plates 11 (fig.Z) of electrically conductive concrete interconnected by conductors 12.

The base of the electrical works as follows.

Current I from the electrical installation first through conductor 8 flows onto the metal grid 4 and drainage pipes 9, and then into the conductive layer 3, then through the entire bottom surface 6 of layer 3 current I flows into the natural ground 5.

LayerZ has an electrical conductivity that is many times greater than the electrical conductivity of the surrounding soil, so it is almost uniformly saturated with electric current and has almost the same potential. At the same time, the porous material of layer 3 protects the natural soil 5 from seasonal freezing, the drainage pipe 9 prevents the layers 2 and 3 from becoming saturated with water and, consequently, the formation of ice in them is also prevented.

Therefore, the material of layer 3 and natural soil 5 have constant conductivity throughout the year.

When making the foundation in the form of a plate 11 made of electrically conductive concrete, the current

I flows from the electrical installation first into the concrete slab 11, and then through its outer surface into the electrically conductive layer 3 and

further into the ground 5. At the same time, a metal mesh device is not required.

With a lower efficiency, fuel slag, off-grade coal and graphite, expanded clay with metallized sputtering and others can be used as an electrically conductive material of layer 3.

When constructing a base for electrical installations on soils with high resistivity, for example, on permafrost or rocky soils, the area of the lower

the surface 6 of the electrically conductive layer 3 is determined by calculation, based on the value of the permissible resistance to current spreading on the surface b.

Claims (3)

1. An electrical installation base comprising a volume of bulk material intended to be located on natural soil and a grounding element, characterized in that improving the efficiency of the base by reducing its resistance to current spreading and improving the potential equalization on its surface, the lower layer of bulk material volume made of electrically conductive porous material, there is an earthing element in it that forms a grounding conductor with the bottom layer of bulk material, while the bottom surface of the bottom layer of bulk material is located below the freezing boundary of the base. 2. The base of claim 1, about aphids, in that the bottom layer of bulk material is made of metallurgical slag. 3. A base according to claim 1, in which it is provided with drainage pipes made of a conductive material located in the lower layer of the bulk bulk material and connected to the grounding element. 4, Base according to claim 1, characterized in that its foundation is made in the form of a slab of electrically conductive concrete. J5 If9 b 6 Riga.1 g    V: A:. o; V- iV ;; ; V- f;. “. F , , t °. . "", . . ° -l ./......- ;. f ...: -.g .. v // y // S /. //// fST // //// 5 10 A-A 2