RU216820U1 - cable line conduit - Google Patents

Abstract

The utility model relates to electrical installation products, in particular to high-voltage cable lines for the transmission of electricity, mainly used for underground cable routes. The essence of the utility model lies in the fact that in the cable line conduit, which includes a tubular polymer housing, in the wall of which there are through holes distributed along the length of the housing, each of which is filled to its entire depth with an electrically conductive substance that forms an electrically conductive bridge, the inner end section of which has a contact with the inner surface of the housing, and the outer end section has contact with the outer surface of the housing, according to the utility model, a strip made of an electrically conductive material is formed on the outer surface of the housing, while the electrically conductive bridges are installed in a row along the length of the housing at the location of the specified strip in such a way that the outer end portion of each bridge contacts the strip. The technical result achieved in the implementation of the utility model is to increase the reliability of the results of detecting the damage site of the outer sheath of an electric cable placed in a tubular polymer conduit. 3 w.p. f-ly, 3 ill.

Description

The utility model relates to electrical installation products, in particular, to high-voltage cable lines for the transmission of electricity, mainly used for underground cable routes.

At present, polymer tubular conduits with a through cable channel, in the internal space of which the cable is laid, are widely used.

The use of a polymer tubular conduit with sufficient mechanical strength and resistance to environmental factors provides protection of the cable from mechanical damage and external influences, and also makes it possible to use technological and cost-effective methods of laying the cable route.

So, for example, a cable line conduit is known, described in [f. News of Electrical Engineering No. 4 (82) 2013, pp. 78-83], which includes a tubular housing, the wall of which is made of polyethylene, with a through cable channel designed to install a power cable (voltage class from 6 to 500 kV).

However, the conduit under consideration does not provide the possibility of searching for the place of damage to the outer sheath of the power cable located inside it by methods known from the prior art, based on searching and locating on the cable line route with the help of instruments used for this purpose, the places where the test current from the conductive screen enters the ground power cable through the damaged outer sheath of the cable.

The outlet of the current into the ground is prevented by the wall of the conduit body, made of a dielectric polymeric material, which does not have the properties of electrical conductivity in the direction from its inner surface to the outer surface.

Known tubular polymer, providing the ability to determine the location of cable damage, the so-called current-search conduits, These conduits are made of polymer material and have a tubular body, the wall of which is made to provide its electrically conductive properties, causing the possibility of current flow through the wall in the direction from its inner surface to the outer surfaces.

Thus, a cable line conduit [RU 196562] is known, including a tubular housing, the wall of which is made of a polymeric material, while the housing is made segmented, including longitudinal dielectric and electrically conductive polymer segments conjugated with each other.

Due to the presence of longitudinal conductive segments passing along the entire length of the tubular body, the conduit under consideration makes it possible to accurately localize the place where the current exits into the ground.

However, having segments extending the entire length of the conduit made of an electrically conductive polymeric material tends to increase the cost of the conduit because electrically conductive polymeric materials are more expensive than dielectric polymeric materials. In addition, the need to ensure tight tight reliable mating of the conduit segments with each other complicates the technology of its manufacture.

Known conduit cable line, described in [RU 188229], selected as the closest analogue.

The conduit under consideration includes a tubular polymer body made of a polymer material, in the wall of which there are perforated through holes. Each hole is filled to its entire depth with an electrically conductive substance forming an electrically conductive bridge, the inner end of which is in contact with the inner surface of the housing, and the outer end is in contact with the outer surface of the housing.

The conduit under consideration is simple in design and manufacturable.

However, since the electrically conductive bridges along the length of the housing are located with a certain step, the output of the test current through the wall of the housing of the conduit under consideration into the ground from the damaged sheath of the cable located in it can be difficult, which can adversely affect the reliability of the results of detecting the cable damage location.

The technical problem, the solution of which is provided in the implementation of the utility model, is to increase the reliability of the results of detecting the damage site of the outer sheath of an electric cable placed in a tubular polymeric conduit.

The essence of the utility model lies in the fact that in the cable line conduit, which includes a tubular polymer housing, in the wall of which there are through holes distributed along the length of the housing, each of which is filled to its entire depth with an electrically conductive substance that forms an electrically conductive bridge, the inner end section of which has a contact with the inner surface of the housing, and the outer end section has contact with the outer surface of the housing, according to the utility model, a strip made of an electrically conductive material is formed on the outer surface of the housing, while the electrically conductive bridges are installed in a row along the length of the housing at the location of the specified strip in such a way that the outer end portion of each bridge contacts the strip.

In a particular case of the implementation of the utility model, the strip is made of a polymeric electrically conductive material.

In a particular case of the implementation of the utility model, the strip is made of a colored electrically conductive material, the color of which is different from the color of the outer surface of the housing.

In a particular case of the implementation of the utility model, the housing wall has an internal coating made of an electrically conductive material.

Thanks to the use for the manufacture of the housing of the inventive conduit of a polymer material that is resistant to corrosion and mechanical stress, flexibility, lightness, durability, ease of use and reliability of the inventive cable line is ensured.

In addition, the inventive conduit, containing a tubular polymer body, makes it possible to use cost-effective and technological methods, in particular, the horizontal directional drilling method, when laying cable lines with its use.

Due to the presence of electrically conductive bridges distributed along the length of the housing in the wall of the housing, made of a polymeric material with the property of a dielectric, it is possible for current to flow through the housing wall in the direction from its inner surface to the outer surface.

That is, in the inventive cable line, a current path is organized from the internal space of the housing, where it enters from the surface of the cable from the damaged outer sheath of the cable, through the wall of the housing outside it into the surrounding space (soil), where the current can be recorded by devices that search for a place cable damage.

Thus, current-search properties of the inventive conduit are achieved.

Electrically conductive bridges are distributed along the length of the body and are spaced from each other at a certain distance, the value of which determines the accuracy of finding the cable damage location.

At the same time, electrically conductive bridges are installed along the length of the housing in a row at the location on the electrically conductive strip formed on the outer surface of the housing, ensuring contact of their outer end sections with the electrically conductive strip.

Due to the contact of the outer end sections of the electrically conductive bridges with the electrically conductive strip, the bridges are combined into a single chain, which facilitates the exit of current into the space (ground) surrounding the conduit.

This improves the reliability of detection of damage to the outer sheath of the electric cable placed in the inventive conduit.

To improve the current-search properties of the cable duct, several sections can be selected on its outer surface, distributed along the circumference of its cross section, on each of which the strip described above is formed, made of an electrically conductive material. At the same time, at the location of each strip, the above-described electrically conductive bridges are installed in a row along the length of the body, ensuring contact of the outer end section of each bridge with the corresponding strip.

Thus, the technical result achieved in the implementation of the utility model is to increase the reliability of the results of detecting the damage site of the outer sheath of an electric cable placed in a tubular polymer conduit.

The body of the conduit can be made in the form of a single pipe or in the form of several pipes joined to each other.

As the material of the conduit body, dielectric polymeric materials, which are widely used for the manufacture of various types of pipes, are used, the cost of which is lower than the cost of electrically conductive polymers.

Electrically conductive bridges can be formed by filling through holes with an electrically conductive polymeric material.

As electrically conductive polymeric materials, composite polymeric materials based on various polymers (thermo-, thermo-, elastoplastics) containing electrically conductive fillers (carbon black, graphite, carbon, metal and metallized fibers, metal powder, etc.) or polymeric materials can be used, in which the molecules themselves or in a certain way constructed supramolecular formations have electrical conductivity.

Electrically conductive bridges can also be formed by fixing elements of various types and shapes made of electrically conductive material in through holes in the housing wall, for example, metal bolts, self-tapping screws, rivets, jumpers, rod, wire, tape elements, etc.

The advantage is the installation of electrically conductive elements in the through holes of the housing wall in a sealed design.

In a particular case of the utility model, the strip formed on the outer surface of the housing is made of a polymeric electrically conductive material. It is preferable to use a polymeric electrically conductive material, in which the volume resistivity value does not exceed 1,000,000 Ohm⋅m.

The execution of the electrically conductive strip of an electrically conductive polymeric material ensures the manufacturability of the conduit design. Thus, in particular, the housing and the strip formed on its outer surface can be produced by co-extrusion.

In a particular case of the utility model, a strip formed on the outer surface of the housing is made of a colored electrically conductive material, the color of which is different from the color of the outer surface of the housing.

In this case, the strip is clearly visible on the surface of the hull, while laying the conduit clearly shows which area of the hull surface should be in contact with the ground.

In addition, the colored strip can serve as a marking element, indicating, in particular, that the conduit has current sensing properties.

In a particular case of the utility model, the housing wall has an internal coating made of an electrically conductive material.

Said internal coating facilitates the passage of current from a damaged cable sheath to the inner surface of the conduit housing.

In FIG. 1 shows a general view of the proposed device in section;

in fig. 2 - section along A-A;

in fig. 3 - section along В-В.

The conduit includes a tubular body 1 made of a polymeric material with dielectric properties, the interior of which is designed to accommodate an electrical cable (not shown).

On the outer surface of the housing 1, a longitudinally oriented strip 2 is formed, made of an electrically conductive material.

In particular, the strip 2 is made of a colored electrically conductive material, the color of which is different from the color of the outer surface of the housing 1.

The wall of the housing 1 is made to provide its electrically conductive properties, which make it possible for current to flow through it in the direction from the inner surface of the housing 1 to the outer surface.

For this purpose, electrically conductive sections are formed in the housing 1, made in the form of through holes (not indicated by a position) in the wall of the housing 1, distributed along its length and installed at the location of the strip 2. Each hole is filled to the entire depth of the wall of the housing 1 with an electrically conductive substance that forms electrically conductive bridge 3 (in the drawing, the position indicates one electrically conductive bridge), the inner end section of which is in contact with the inner surface of the housing 1, and the outer end section is in contact with the outer surface of the housing 1.

In particular, each electrically conductive bridge 3 is made in the form of a rod element made of an electrically conductive polymeric material.

The device works as follows.

With the help of a test setup, a test current is passed through the screen of the electrical cable conduit located in the housing 1. The current from the damaged cable sheath enters the inner surface of the conduit at the point where the cable contacts the specified surface. Further, the current through the electrically conductive bridge 3 located near the place of damage to the cable sheath enters the outer surface of the wall of the housing 1 goes into the ground.

At the same time, the presence of an electrically conductive strip 2 in contact with the ground on the outer surface of the housing 1 facilitates the process of current flow into the ground.

The place where the test current exits the conduit into the ground, fixed by the instruments, indicates where the damage to the sheath of the electric cable is located.

Claims (3)

1. Cable line cable line, including a tubular polymer housing, in the wall of which there are through holes distributed along the length of the housing, each of which is filled to its entire depth with an electrically conductive substance that forms an electrically conductive bridge, the inner end section of which is in contact with the inner surface of the housing, and the outer the end section has contact with the outer surface of the housing, characterized in that a strip made of an electrically conductive material is formed on the outer surface of the housing, the electrically conductive bridges are installed in a row along the length of the housing at the location of the specified strip in such a way that the outer end section of each electrically conductive bridge is in contact with strip, wherein the strip is made of a colored electrically conductive material, the color of which is different from the color of the outer surface of the housing. 2. Conduit according to claim. 1, characterized in that the strip is made of a polymeric electrically conductive material. 3. Conduit according to claim. 1, characterized in that the housing wall has an internal coating made of electrically conductive material.

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