RU203079U1 - Universal power cable - Google Patents

Abstract

The utility model refers to power cables for a voltage of 6-35 kV and can be widely used, including in the creation of service (temporary) power transmission lines. The technical result is an increase in the reliability of the cable in an extended field of its application with the inclusion of multiple use (installation , operation and dismantling of the cable) on service power supply lines (both overhead and underground). The utility model contains three power conductive conductors (1), covered with insulation (2), auxiliary conductive conductors (3) with insulation (4), metal shield (5), water blocking elements / tapes (6, 7) applied on both sides of the screen (5), and a two-layer outer shell (8). Insulation (2) is made of two layers of an electrically conductive cross-linkable composition, between which a layer of ethylene-propylene rubber is imposed, and the SHOR D hardness of the upper protective layer of the outer shell (8), made with a thickness of at least 0.3 mm, exceeds the hardness of the main layer of the outer shell (8 ) by 10 ÷ 20 units and is at least 55 units. 4 c.p. f-ly, 1 dwg.

Description

Technology area

The utility model refers to power cables with a voltage of 6-35 kV and can be widely used, including in the creation of service (temporary) power transmission lines, for example, in the following cases:

- organization of power supply to consumers during the elimination of the consequences of natural disasters, consequences of a man-made nature;

- organization of bypass cable jumpers during repairs, reconstruction of power transmission lines;

- construction of power transmission lines with a voltage of 6-35 kV in the cramped conditions of settlements with dense buildings.

State of the art

Known power cables of the company ENSTO type AXCES, FXCEL, information about which is available at the link [https://www.ensto.com/ru/company/newsroom/product-news/excel-fxcel-axces/].

The cables are designed for overhead and underground installation. The cables have aluminum conductors (AXCES) or copper conductors (FXCEL) with XLPE insulation, metal shield and LDPE outer sheath.

The disadvantages of these cables are limited flexibility during installation, a low long-term permissible heating temperature of conductive conductors, which is 90 ° C, limited functionality due to the absence of auxiliary conductive conductors, including a ground conductor, and insufficient resistance to external mechanical influences.

Known power cable for a voltage of 10 kV, containing three twisted conductive cores covered with three-layer insulation, screens for core insulation, inner and outer sheaths, in which the first and third layers of core insulation are made of extruded electrically conductive material, and the second layer is made of cross-linked ethylene-propylene rubber, a two-layer combined screen is made on top of the inner shell, the central gap between symmetrically located current-carrying conductors is filled with a polymer material [RU 180985].

The disadvantages of this power cable are low resistance to external mechanical influences, which limits the scope of the cable to stationary installations, as well as limited functionality due to the lack of auxiliary conductive conductors.

Known, selected as a prototype, a cable of the company ENSTO of the AXCAL-TT Pro type for a voltage of 6-35 kV, containing three power conductive conductors covered with insulation, auxiliary conductive conductors, a metal screen, water-blocking elements, and a two-layer outer sheath with a lower main layer and top protective layer [https://www.ensto.com/globalassets/brochures/brochures/overhead-lines/russian/-.pdf].

The prototype cable has increased resistance to external mechanical influences due to the two-layer outer sheath, however, it is not sufficiently resistant to repeated bending-unbending, typical for repeated use on service (temporary) power lines, which prevents its use as a universal cable - the area of reliable operation recommended by ENSTO AXCAL-TT Pro cable is limited to underground cable lines. In addition, the reliability of the prototype cable is limited by the long-term permissible heating temperature of its conductive cores, which does not exceed 95 ° C.

The essence of the utility model

The technical result achieved by the proposed design of the power cable is an increase in reliability, which makes it possible to reuse the cable on the lines of temporary (service) power supply. The high reliability of the cable in this area of application requires an increased resistance of the cable to both external mechanical influences, including resistance to repeated extension and bending during coiling and winding on a cable drum, and to internal thermal effects, due to the high long-term permissible heating temperature of conductive conductors.

The subject of the utility model is a cable for a voltage of 6-35 kV, containing three power conductive conductors covered with insulation, auxiliary conductive conductors, a metal screen, water-blocking elements and a two-layer outer sheath, characterized in that the insulation of the power conductive conductors is made of two layers of an electrically conductive crosslinkable composition , between which a layer of ethylene-propylene rubber is imposed, and the SHOR D hardness of the upper protective layer of the outer shell, made with a thickness of at least 0.3 mm, exceeds the hardness of the main layer of the outer shell by 10-20 units and is at least 55 units.

This makes it possible to increase the reliability of the cable in an extended area of its application, including in it multiple use (installation, operation and dismantling of the cable) on service power supply lines (both overhead and underground).

The utility model has developments, which consist in the following:

- conductive conductors are made of copper or aluminum, or aluminum alloy;

- power and auxiliary conductors are twisted together into a common core placed in a metal screen;

- water-blocking elements are made in the form of dividing tapes superimposed on both sides of the metal screen;

- a two-layer outer shell can be made of light-stabilized polyethylene or a polymer composition that does not contain halogens, or of wear-resistant polyurethane.

Implementation of the utility model

The figure shows the inventive cable in cross-section and is designated:

1 - power conductive cores;

2 - insulation of conductors 1, made for operating voltage 6, 10, 20 or 35 kV;

3 - auxiliary current-carrying conductors with an insulating or protective sheath 4;

5 - metal screen;

6, 7 - water-blocking elements (separating tapes) on both sides of the screen 5;

8 - two-layer outer shell, the lower (main) layer of which is made of low density polyethylene, and the upper (protective) layer is made of high density polyethylene.

The cores 1, covered with insulation 2, and cores 3 in the sheath 4 are twisted into a common core, on top of which a shield 5 is sequentially located, on both sides of which tapes 6, 7 are superimposed. On top of the tape 7, a sheath 8 is applied.

Insulation 2 is made of three layers - of two layers of an electrically conductive cross-linkable composition, between which there is a layer of ethylene-propylene rubber.

The hardness according to SHOR D (GOST 24621-2015) of the upper (protective) layer of the shell 8, made with a thickness of at least 0.3 mm, exceeds the hardness of the lower (main) layer of the shell by 10–20 units and is at least 55 units.

The casing 8 can be made of light-stabilized polyethylene or a polymer composition that does not contain halogens or of wear-resistant polyurethane.

The metal shield 5 of the claimed cable can be made:

- made of copper or aluminum tape;

- in the form of a braid made of copper or aluminum wires;

- in the form of wires made of aluminum thermo-corrosive alloy, fastened with copper or aluminum tape;

- in the form of a tape made of an electrically conductive composition with interwoven copper wires;

- in the form of a braid of copper wires or tinned copper wires.

Water-blocking elements used in the cable (for example, GTA-10, information is available at the link: https://geca-tapes.com/product/gta-10/), contain an absorbent, prevent (as a result of swelling) the longitudinal spread of moisture from the place of possible damage, respectively, increase the reliability of the cable and can be additionally applied in the form of threads or tape to conductive cores.

The set of features according to claim 1 of the claimed patent formula provides a combination of sufficient flexibility and high internal thermal stability of the cable (reliable operation at a long-term permissible temperature of power conductors up to 105 ° C) with high resistance to external mechanical influences (including due to repeated bending-unbending and winding on a cable drum) and, accordingly, expands the area of reliable use of the cable, including multiple use (installation, operation and dismantling) on service / temporary power lines, both overhead and underground.

For the specified extended area of cable application, a combination of features characterizing the performance of the insulation of the power conductors and the performance of the outer sheath is essential, and it is also essential that the structure contains conductive conductors 3 of grounding and connections of instrumentation and water-blocking elements 6, 7, preventing (as a result of swelling) longitudinal spread of moisture from the place of possible damage to the outer shell.

The design of the cable with the claimed set of essential features is unknown from the prior art, which allows us to conclude that the claimed utility model meets the "novelty" criterion of patentability.

The claimed technical solution meets the criterion of patentability "industrial applicability", since its implementation is possible using known means of production and technologies.

The three-layer insulation is applied to the power cores on the inclined vulcanization lines.

The core is twisted using a Drum Twister type twisting equipment.

Outer sheathing is carried out on extrusion lines with two extruders. In this case, an extruder with increased drive power is used to apply the upper protective layer of increased hardness.

Claims (5)

1. A cable containing three power conductive conductors covered with insulation, auxiliary conductive conductors, a metal screen, water-blocking elements and a two-layer outer sheath, characterized in that the insulation of the power conductive conductors is made of two layers of an electrically conductive cross-linkable composition, between which a layer of ethylene-propylene is applied rubber, while the hardness of SHOR D of the upper protective layer of the outer shell, made with a thickness of at least 0.3 mm, exceeds the hardness of the main layer of the outer shell by 10–20 units and is at least 55 units. 2. A cable according to claim 1, characterized in that the conductors are made of copper, or aluminum, or an aluminum alloy. 3. A cable according to claim 1, characterized in that the power and auxiliary conductive cores are twisted together into a common core placed in a metal shield. 4. The cable according to claim 1, characterized in that the water-blocking elements are made in the form of separating tapes superimposed on both sides of the metal screen. 5. A cable according to claim 1, characterized in that the two-layer outer sheath is made of light-stabilized polyethylene, or of a halogen-free polymer composition, or of wear-resistant polyurethane.

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