RU220197U1 - Electrochemical protection cable - Google Patents

Abstract

The utility model relates to the cable industry. The technical result is to ensure resistance to external environmental factors. This problem is solved due to the fact that the cable for electrochemical protection contains one or more current-carrying cores with two layers of insulation, the first insulating layer and the second protective sheath layer. A cable composition based on polyolefins is used as the first insulating layer. A cable bimodal polyolefin composition is used as the second layer of the protective sheath. The conductor is made of twisted stranded round tinned copper conductors. 1 ill.

Description

The utility model relates to the cable industry and can be used for the manufacture of special cables, insulation and sheath, which do not contain halogens, and intended for equipment of electrochemical protection systems, as well as stationary laying of anode and cathode cable lines operating at a depth of 0.7 up to 250 m, as well as other underground and underwater cable lines.

A known power cable is sealed for voltage from 0.66 to 3 kV, containing an insulated conductor, sealing elements in the form of water-blocking materials, a metal sheath, a separating polymer layer and a protective polymer hose, characterized in that the metal sheath is made of aluminum, solid and hermetically sealed (see RF patent for PM No. 214042, according to class IPC N01B 9/00, 2022).

The disadvantage of this cable is the presence of a metal sheath, which limits the flexibility of the cable during installation work on unwinding on terminal panels.

A cable is known that contains one copper or aluminum conductor with plastic insulation in a plastic sheath; polyvinyl chloride plastic compound of grade I 50-13 or I 50-14 is used as the insulation material, and polyvinyl chloride plastic compound of grade NGP 50-32 or NGP 50 is used as the sheath material. -35 or NGP 55-32 (see RF patent for PM No. 94047, according to class IPC N01B 7/00, 2010).

The disadvantage of this cable is the use of halogen-containing materials in the design of the insulation layer and cable sheath, the use of which is not recommended in electrochemical protection systems for laying anodic and cathode lines and, as a result, does not have sufficient reliability and resistance to anodic reaction products.

The closest, in technical essence to the claimed technical solution, is a winding cable for anode grounding conductors, containing a conductor with two layers of insulation, the first insulation layer being made of polyethylene, the first insulation layer due to four-sided irradiation by a beam of directed electrons is radiation cross-linked in the air, the second The insulation layer is made of propylene copolymer, the first and second insulation layers are made of different colors. The total thickness of the first and second layers is at least 3.0 mm. The conductor is made of twisted copper annealed wires (see RF patent for PM No. 31680, according to class IPC N01B 7/00, 2003).

The disadvantage of the known cable is the second layer of insulation made of propylene copolymer, which increases the rigidity of the cable and the use of a conductor made of twisted annealed copper wire without a protective coating, which reduces the resistance of the conductor to fractures and external environmental factors.

The problem solved by the utility model is to ensure resistance to external environmental factors by increasing the elasticity of the insulation layers and the flexibility of the cable.

This problem is solved due to the fact that the cable for electrochemical protection contains one or more current-carrying cores with two layers of insulation, the first insulating layer and the second protective sheath layer. A cable composition based on polyolefins is used as the first insulating layer. A cable bimodal polyolefin composition is used as the second layer of the protective sheath. And the current-carrying core is made of twisted multi-wire round tinned copper cores.

The technical result is achieved by the combination of all essential features. The use of an insulating protective sheath made of a bimodal polyolefin composition provides increased elasticity and flexibility of the cable, which has a positive effect on protection from environmental factors and increases resistance to anodic dissolution reaction products. The design of the conductor core, made of twisted multi-wire round conductive copper tinned wires, increases mechanical strength at break and resistance to fracture during repeated bending, which also improves protection from environmental factors and increases resistance to anodic dissolution reaction products.

The drawing shows a cable diagram for electrochemical protection.

The cable for electrochemical protection contains a conductive tinned copper core 1, the first insulation layer is insulating 2, the second insulation layer is protective sheath 3.

The cable is manufactured using traditional technology for this type of cable and the use of new insulation and sheath materials does not introduce any fundamental changes to the technological cycle, which boils down to the following. Insulation 2 is applied to the conductive copper tinned conductor 1 on the extrusion line. The protective sheath 3 is also applied on the extrusion line over the insulating layer 2 after it has cooled, and the exclusion of the stage of radiation cross-linking of the insulating layer from the production cycle allows reducing costs in cable production. Increasing the cost of radiation cross-linking of polyethylene to increase the heat resistance of the insulating layer is not justified, since cables for laying anode and cathode cable lines of electrochemical protection systems are intended for underground and (or) underwater installation, where operating temperatures do not exceed +40°C.

The use of the inventive cable design for electrochemical protection provides increased resistance to external environmental factors, including increased resistance to anodic dissolution reaction products, increased tensile strength and resistance to fracture during repeated bending.

Claims (1)

A cable for electrochemical protection containing one or more conductive cores with two layers of insulation, the first insulating layer and the second layer of protective sheath, characterized in that a polyolefin-based cable composition is used as the first insulating layer, and a bimodal cable is used as the second protective sheath layer polyolefin composition, and the conductor is made of twisted stranded round tinned copper conductors.

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