RU202509U1 - POWER CABLE CONTAINING SELF-REGULATING CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely to the structures of power cables intended for the transmission and distribution of electrical energy in networks for voltages from 1 kV to 35 kV, with a nominal frequency of 50 Hz. Power cable containing insulated conductive cores, twisted together, as well as an outer sheath, characterized in that in its design it contains a self-regulating heating cable with a base in the form of a semiconductor matrix. 2 c.p. f-ly.

Description

The technical field to which the utility model belongs

The utility model relates to cable technology, namely to the structures of power cables intended for the transmission and distribution of electrical energy in networks for voltages from 1 to 35 kV, with a nominal frequency of 50 Hz.

State of the art

Known power cables with plastic insulation for voltages of 1 and 3 kV, containing conductive cores, covered with insulation made of PVC compound, including low fire hazard, or from cross-linked polyethylene, or from a polymer composition that does not contain halogens, with or without a screen , with or without armor, containing an outer sheath made of a PVC certificate, including a reduced fire hazard, or of polyethylene, or of a polymer composition that does not contain halogens (GOST 31996 "Power cables with plastic insulation for a rated voltage of 0.66; 1 and 3 kV ", date of introduction - 01.01.2014).

The features of the known cable, which are common with the features of the claimed utility model, are that the cable contains a conductive core covered with polymer insulation, and also contains an outer sheath made of polymer material.

Known power cables with plastic insulation are designed for the transmission and distribution of electrical energy in stationary installations at a rated alternating voltage from 6 to 35 kV inclusive with a nominal frequency of 50 Hz, containing conductive cores covered with an extruded screen of an electrically conductive cross-linked polymer composition, insulation from a cross-linked polymer composition and a second extruded screen made of an electrically conductive cross-linked polymer composition, winding with an electrically conductive tape, a metal shield, a separating layer in the form of a tape or a polymer sheath and an outer polymer sheath (GOST R 55025 "Power cables with plastic insulation for voltages from 6 to 35 kV inclusive", date introduction - 01.07.2013).

The features of the known cable, which are common with the features of the claimed utility model, are that the cable contains a conductive core covered with polymer insulation, and also contains an outer sheath made of polymer material.

The closest analogue (prototype) is a power cable designed for the transmission and distribution of electrical energy in networks for voltages from 6 to 35 kV inclusive, with a nominal frequency of 50 Hz, containing at least one conductive core, a semiconducting screen over the core, insulation, semiconductor screen by insulation, a metal shield made of copper wires and an outer sheath, with at least one electrically insulated heating element made of metal with a specific electrical resistance of at least 0.9 Ohm⋅mm ² / m and a nominal cross-section on top of the metal shield of copper wires not more than 10.0 mm ² , the heating element is made in the form of a metal conductor, on top of which insulation is applied, while the outer sheath is located on top of the specified heating element (patent for PM No. 186328, published 01.16.2019, bull. No. 2).

The features of the known cable, which are common with the features of the claimed utility model, are that the cable contains a conductive core covered with a polymer sheath, as well as an outer polymer sheath and a heating element.

The disadvantage of the prototype is the use of a heating cable made in the form of a metal conductor covered with insulation.

The technical problem is the need to warm up the power cable when laying it in areas with a cold climate, while the heating should be uniform, controlled, without increasing temperatures.

Disclosure of the essence of the utility model

The technical result is achieved in that the cable contains twisted insulated conductive cores, each of which is covered with polymer insulation and polymer sheath, and the cable also contains a self-regulating heating cable with a base in the form of a semiconductor matrix.

The main difference between a self-regulating heating cable and a conventional heating cable is the presence of a semiconductor matrix. The matrix consists of parallel-positioned conductors that provide voltage along the entire length of the cable, covered with polymer insulation.

As the temperature rises to a positive value, the polymer expands, local conductive bonds or paths through which current flows decrease - the power decreases, heat generation decreases, which ensures that the permissible temperature does not rise.

As the air temperature drops, the polymer particles narrow, the number of paths for the current to pass increases - the power increases. The heat dissipation of the matrix increases. This makes the heating cable self-regulating.

The use of a self-regulating cable for heating the power cable is the most optimal.

Implementation of the utility model

Within the scope of the claimed patent rights, the following embodiments of the utility model are possible.

The cable conductor is made of copper or aluminum.

Over the current-carrying conductor, insulation made of polyvinyl chloride plastic or silane crosslinked polyethylene can be applied.

A three-layer insulation can be applied over the conductive core: the first screen is made of an electrically conductive cross-linked polymer composition, an insulation is made of a cross-linked polymer composition, and the second screen is made of an electrically conductive cross-linked polymer composition. A metal screen is placed over the three-layer insulation.

Insulated conductors are twisted together.

A self-regulating heating cable with a base in the form of a semiconductor matrix is installed in the inter-core space.

On top of the twisted strands, a separating layer can be applied, made in the form of a tape wrapping or in the form of an inner extruded sheath.

A metal shield can be applied over the separation layer.

Armor can be applied over the separation layer.

The outer sheath of the power cable can be made of polyvinyl chloride, or reduced hazard polyvinyl chloride, or from a halogen-free polymer composition.

Claims (3)

1. Power cable containing insulated conductive cores, twisted together, as well as an outer sheath, characterized in that its design contains a self-regulating heating cable with a base in the form of a semiconductor matrix. 2. Cable according to claim 1, characterized in that the self-regulating heating cable is located in the space between the conductors. 3. The cable according to claim. 1, characterized in that the insulation is made of three-layer, containing the first shield made of an electrically conductive cross-linked polymer composition, insulation from a cross-linked polymer composition, and a second shield made of an electrically conductive cross-linked polymer composition, and also containing a metal shield.