RU150540U1 - Self-supporting insulated wire - Google Patents

Abstract

1. Self-supporting insulated wire containing a conductive core of aluminum wires and insulation made of light-stabilized cross-linked polyethylene, characterized in that at least two steel wires are included in the design of the external coil of the conductive core. A self-supporting insulated wire according to claim 1, characterized in that the steel wires are galvanized. 3. Self-supporting insulated wire according to any one of paragraphs. 1-2, characterized in that the conductive core contains a water blocking element.

Description

The technical field to which the utility model relates.

The utility model relates to cable technology, namely, to the designs of self-supporting insulated wires intended for use in overhead power lines for alternating voltage of 10, 20, 35 kV with a nominal frequency of 50 Hz.

State of the art

A self-supporting insulated wire with an insulated conductive core is known, which is twisted from aluminum alloy wires and coated with cross-linked polyethylene insulation. (Patent for utility model RU 53495 U1 M. cl. H01B 7/02)

Signs of a known wire that match the features of the claimed utility model is that the wire contains a conductive core twisted from wires and insulation made of cross-linked polyethylene.

The reason that prevents obtaining a technical result in a known wire, which is provided by the claimed utility model, is to make a wire with a building length of up to 4 km and use an expensive aluminum alloy. The limitation on the construction length is due to the inability to weld wires during production.

The closest analogue (prototype) is a self-supporting insulated wire with a conductive core of aluminum wires and a central steel wire. On top of the conductive core, light-stabilized cross-linked polyethylene insulation is applied. (Self-supporting insulated wires TU 16.K09-147-2005).

Signs of a known wire that match the features of the claimed utility model are that the wire contains a conductive core of aluminum wires and steel wire and insulation made of light stabilized cross-linked polyethylene.

The reason that prevents obtaining a technical result in a known wire, which is provided by the claimed utility model, is to perform a conductive core with low flexibility due to the presence of a steel wire in the center of the conductive core.

Utility Model Disclosure

The problem the utility model aims to solve is to perform a self-supporting insulated wire with increased construction length, flexibility and reduced cost, while maintaining the electrical and mechanical parameters of the wire.

The technical result is achieved by the fact that the aluminum conductor is included in the construction of the conductive core, and the outer coil contains at least two steel wires. This design allows you to weld the wires together during production, which in turn will allow you to make a wire with a building length of more than 4 km. An increase in the construction length of the wire will further improve the reliability and durability of the power line, due to the reduction of weaknesses in the form of joints of building lengths.

The cost of aluminum and steel wires is lower than that of aluminum alloy wires by about 20% and 60%, respectively, therefore, the cost of the wire decreases.

Replacing the construction of a conductive core with a steel wire in the center with a structure with several steel wires in the outer coil (with the same general cross section of steel wires) allows to increase the flexibility of the wire.

A new feature of the claimed technical solution of the utility model is that the outer core of the conductive core contains at least two steel wires.

Utility Model Implementation

The self-supporting insulated wire contains a multi-wire conductive core twisted from aluminum wires, with the introduction of steel wires into the outer coil, which is designed for the flow of electric current. To relieve mechanical stresses in steel wires in the outer layer, the wires are twisted with a twist. Zinc plated steel wires to protect against corrosion.

The conductive core may contain a water blocking element, eliminating the longitudinal distribution of moisture along the core of the wire when it enters the attachment points or insulation damage.

On top of the conductive core, light-stabilized cross-linked polyethylene insulation is applied, which serves as an electrical insulating element of the wire.

The manufacture of wire occurs according to the following principle. The twist of the conductive core is made of aluminum and steel wires on a twisting machine, the orientation of the wires in the conductive core is carried out by means of a distribution socket. In the manufacture of sealed conductive cores, a water blocking element is additionally added.

On top of the conductive core on extrusion equipment, polyethylene insulation is applied. The final step in wire production is the crosslinking of polyethylene in a steam environment.

The design of the claimed utility model has been successfully tested in the production environment.

Claims (3)

1. Self-supporting insulated wire containing a conductive core of aluminum wires and insulation of light-stabilized cross-linked polyethylene, characterized in that at least two steel wires are included in the design of the outer coil of the conductive core. 2. Self-supporting insulated wire according to claim 1, characterized in that the steel wires are galvanized. 3. Self-supporting insulated wire according to any one of paragraphs. 1-2, characterized in that the conductive core contains a water blocking element.