RU207763U1 - Bare wire - Google Patents

Abstract

The utility model relates to cable technology, namely to structures of bare wires intended for the transmission of electrical energy in overhead power lines. Bare wire for overhead power lines, consisting of a core made of high-strength steel wires, on top of which at least two strands are applied, at the same time, the outer layer is made of a material different from the inner layer, characterized in that the wires of the inner layer are made of heat-treated aluminum alloy of the aluminum-silicon-magnesium system, and the wires of the outer layer are made of heat-treated aluminum alloy, with an aluminum content of at least 99%, the main alloying element of which is iron, with a content of at least 0.35%.

Description

Technical field to which the utility model belongs

The utility model relates to cable technology, namely to the structures of bare wires intended for the transmission of electrical energy in overhead power lines.

State of the art

Known is an uninsulated reinforced wire for overhead power lines, made of a core and a main conductive part, consisting of one or more successive strands, the wire for strands is made of electrotechnical pure aluminum, characterized in that metals with a tensile strength of not below 1800 N / mm2 (Patent RU 119514, published 20.08.2012, bull. No. 23).

Signs of a known wire, which are common with the features of the claimed utility model, are that the wire contains a core made of metals with a tensile strength of at least 1800 N / mm ² (high-strength steel) and the main conductive part, consisting of one or more successive layers ...

The difference and disadvantage of the prototype is the implementation of the main current-carrying part of electrotechnical pure aluminum. Such a wire design is fragile at the junction of the contacts. The steel core can increase the strength of the wire and its breaking strength, however, pure aluminum does not have good flexibility and strength.

The technical challenge is to expand the arsenal of bare wires for overhead power lines and increase the reliability of bare wire with a steel core.

Disclosure of the essence of the utility model

The technical result is achieved in that the non-insulated wire for overhead power lines consists of a core made of high-strength steel wires, on top of which at least two layers are superimposed, while the outer layer is made of a material other than the inner layer, the inner layer is made of heat-treated aluminum alloy of the aluminum-silicon-magnesium system, and the wires of the outer layer are made of heat-treated aluminum alloy, with an aluminum content of at least 99%, the main alloying element of which is iron, with a content of at least 0.35%.

Making a wire with a core of high-strength steel wires and inner layers of heat-treated aluminum alloy of the aluminum-silicon-magnesium system, allows increasing the strength of the wire, since the used aluminum alloy has the best strength characteristics in comparison with pure aluminum. The addition of silicon and magnesium to aluminum, combined with heat treatment, makes it possible to produce high-strength, electrically conductive material.

Application for external stranding of wires made of heat-treated aluminum alloy, the main alloying element of which is iron, provides the best flexibility of the wires. Heat-treated aluminum alloy wire provides the greatest number of bends (without destruction) in comparison with aluminum wire due to the use of iron as an alloying element. The introduction of iron atoms into the crystal lattice and further heat treatment of aluminum makes it possible to strengthen the crystal lattice and reduce the tendency to creep.

Thus, due to the implementation of the core of high-strength steel wires and inner layers of heat-treated aluminum alloy of the aluminum-silicon-magnesium system, the best wire strength is provided. Due to the implementation of the outer layer of wires made of heat-treated aluminum alloy, the main alloying element of which is iron, the creep of the wires is reduced and the reliable contact between the wire and the armature is ensured, and therefore the electrical characteristics will not deteriorate. Due to the listed properties, the reliability of the bare wire is increased.

Implementation of the utility model

The proposed utility model is implemented as follows.

The bare wire core is made of high-strength steel wires with a tensile strength of at least 1800 N / mm ² . A layer of wires of heat-treated aluminum alloy of the aluminum-silicon-magnesium system is applied over the core. Aluminum alloy 8176 or 8030 can be used. The wire can contain several external strands.

The proposed design of a bare wire has been successfully tested in production conditions.

Claims (4)

1. Non-insulated wire for overhead power lines, consisting of a core made of high-strength steel wires, on top of which at least two strands are superimposed, while the outer strand is made of a material other than the inner strand, characterized in that the inner strand wires are made of heat-treated aluminum alloy of the aluminum-silicon-magnesium system, and the wires of the outer layer are made of heat-treated aluminum alloy, with an aluminum content of at least 99%, the main alloying element of which is iron, with a content of at least 0.35%. 2. A wire according to claim 1, characterized in that it contains several layers made of heat-treated aluminum alloy of the aluminum-silicon-magnesium system. 3. A wire according to claim 1, characterized in that the wires of the outer layer are made of heat-treated aluminum alloy, the main alloying element of which is iron, and the additional alloying element is copper, with a content of at least 0.15%. 4. Wire according to claim 1, characterized in that the core is made of steel wires with a tensile strength of at least 1800 N / mm ² .