RU2748682C1 - Non-insulated steel-aluminum high-strength high-temperature wire (options) - Google Patents

Abstract

FIELD: non-insulated wires.

SUBSTANCE: group of inventions relates to the construction of non-insulated wires. High-strength non-insulated steel-aluminum wire consists of a galvanized steel metal core and a conductive part of the wire. The core is made with a linear touch of wires according to the type of a single-layer strand, consisting of wires of the same diameter, in an amount of 5 to 14 pieces, twisted around the central wire. The core is made of galvanized wires, the density of the zinc coating according to the extreme service conditions (ESC) group, with a temporary tear resistance is of at least 1670 N/mm². The core is plastically deformed along the outer surfaces of the wire; the degree of compression of the cross-sectional area is 4.0-14.0%. Around the core, there are two layers of aluminum wires with a linear touch of the wires in the type of two-layer strands, with the same number of wires in each layer and different wire diameters between the layers. The number of aluminum wires in two layers varies from 10 to 36 pieces. Circular plastic deformation of the wire along the outer surface of the wire is performed with a degree of compression of the cross-sectional area of the wire of 3.5-17.0%. Options for high-strength non-insulated steel-aluminum wire are also claimed.

EFFECT: increased strength of the wire.

4 cl

Description

The invention relates to the field of electrical engineering, in particular to the structures of non-insulated steel-aluminum wires of high-strength, high-strength high-temperature, intended for the transmission of electrical energy over an overhead power line (OHL) of 6 kV and above.

Known Wire for power transmission lines, consisting of a core and wire strands of aluminum, alternating with strands of nanocomposite wire on a metal base with a filler of multilayer carbon nanotubes, hardened by repeated cold drawing to a given diameter, according to the utility model, the core is made of a composite of several wires, consisting of made of pure aluminum, in which at least 25,000 micrometer continuous longitudinal nanofibers of aluminum oxide are embedded (see the description of the utility model to the patent of the Russian Federation No. 161621; IPC Н01В 5/08 published on 04/27/2016, bull. No. 12).

The disadvantages of this utility model:

- relatively low electrical conductivity with a constant wire diameter;

- the technological complexity of manufacturing the core;

- as well as the conductive part of the wire, consisting of a set of aluminum wires alternating with layers of nanocomposite wire on a metal base with a filler of multilayer carbon nanotubes, hardened by repeated cold drawing to a given diameter, which accordingly increases the cost of the wire.

Known Non-insulated wire for overhead power lines, containing a core of twisted supporting elements, sequentially covered by an aluminum sheath and a conductive part, characterized in that the inner surface of the aluminum sheath partially repeats the outer surface of the core, ensuring their mutual contact area is 20-90% of the outer surface area core and has a thickness in the thinnest places of 0.2-2 mm (see the description of the utility model to the patent of the Russian Federation No. 138274; IPC Н01В 5/08 published 03/10/2014, bull. No. 7).

The wire has the following disadvantages:

- the use of profiled wires of the conductive part of the wire leads to a decrease in manufacturability and, as a result, an increase in the cost of the wire;

- the complexity in the calculation and technologically withstand the gaps between the round wires of the steel core, affecting the integrity of the structure,

- reduced strength of the core and the aluminum sheath, which affects the regulated bend of the wire.

Known Wire for overhead power lines, containing a steel core made of one or more wires in the form of interconnected shaped profiles, and several concentric inner layers and outer layers made of conductive wires of trapezoidal cross-section made of aluminum or aluminum-zirconium alloy, the outer layer is formed wires with a cross-section in the form of an isosceles trapezoid, on the larger base of which teeth with a radius of curvature r and troughs with a radius of curvature r are made. (see the description of the invention to the patent of the Russian Federation No. 2631421; IPC Н01В 5/08 published on September 22, 2017, bull. No. 27).

The disadvantages of the known wire are:

- the technological complexity of making a wire from a set of wires with a shaped profile for the core and the conductive part of the wire;

- increases the cost of the wire;

- teeth made on a larger base of an isosceles trapezium of the outer layer, increase the increased formation of ice deposits, increase the level of snow adhesion, which will negatively affect the resistance to aeolian vibration under the influence of wind load;

- increases the cost of the wire;

A known method of manufacturing a steel-aluminum wire, which includes the manufacture of a steel core providing the mechanical strength of the wire, from steel galvanized wires with a diameter of 1.50 ÷ 4.61 mm each, coating the core with a layer of protective heat-resistant grease and the manufacture of one or more strands of wires of aluminum (see Technical conditions GOST 839-80 "Bare wires for overhead power lines).

The disadvantages of this known method include the following:

- reduced mechanical strength;

- reduced throughput, increased heating;

- increased vibrations of the wire under the influence of wind,

- increased adhesion of snow and ice, increased formation of ice deposits;

- the temperature limit of heating by the passing current during long-term operation is equal to no more than 90 ° C, at a temperature of 100-110 ° C the current-carrying wire loses its strength, which limits the possibilities of transmission by the wire and by the amount of transmitted electricity (current value), since its destruction begins and (or) the magnitude of the deflection becomes greater than the permissible value determined by the rules for the safe operation of high-voltage lines.

The objective of the claimed invention is to create an uninsulated steel-aluminum wire of two types: the first is a high-strength uninsulated steel-aluminum wire in two versions; the second is a high-strength high-temperature steel-aluminum wire in two versions, and the use of the obtained wire structures for the transmission and distribution of electrical energy through an overhead power line for a rated voltage of 6 kV and above.

The essence of the claimed invention is as follows.

The first type is a high-strength non-insulated steel-aluminum wire.

High-strength non-insulated steel-aluminum wire is produced in two versions, with different designs depending on the wire diameter, cross-sectional area of the aluminum and steel components of the wire. The steel core is made of galvanized wires, the density of the zinc coating in the coolant group, with a ^{ultimate tensile strength of at least 1670 (170) N / mm 2} (kgf / mm ² ) in accordance with GOST 7372-79 “Steel wire rope. Technical conditions ".

Ensuring high resistance of the wire to dancing, aeolian vibration, reducing ice formation, is achieved by increasing their constructive density, due to circular plastic compression over the cross-sectional area of the galvanized metal core and wire.

According to the first option - high-strength uninsulated steel-aluminum wire. The galvanized metal core is made as a single-layer strand, with a linear touch of the wires, consisting of wires of the same diameter, in the amount of 5 to 14 pieces, depending on the nominal diameter of the core, twisted around the central wire, while maintaining the linear touch in the layer.

Circular plastic deformation along the outer surface of the wires is made with a degree of compression of the cross-sectional area of the core of 4.0 ÷ 14.0%.

The core is covered with two layers of aluminum wires in the form of two-layer strands, with a linear touch of the wires, with the same number of wires in each layer and different wire diameters in layers. The number of aluminum wires, depending on the nominal diameter of the wire, in two layers, varies from 10 to 36 pieces. Circular plastic deformation along the outer surface of aluminum wires is made with the degree of compression of the cross-sectional area of the wire 3.5 ÷ 17.0%.

According to the second option - high-strength uninsulated steel-aluminum wire. The galvanized metal core is manufactured similarly to the structure of the galvanized metal core manufactured according to the first option.

Around the core there are two layers of aluminum wires in the form of two-layer strands, with a linear touch of the wires. The second layer consists of an even number of wires of two different diameters, alternating with each other, and the first layer consists of wires of the same diameter. The number of aluminum wires, depending on the nominal diameter of the wire, in two layers, varies from 15 to 36 pieces. The circular plastic deformation of the wire along the outer surface of the aluminum wires is made with the degree of compression of the cross-sectional area of the wire 3.5 ÷ 17.0%.

This allows, using the design of a high-strength metal core for bare wires, galvanized wire according to the coolant group with a temporary resistance of at least 1670 (170) N / mm ² (kgf / mm ² ), the method of manufacturing the core, to increase its strength by 20-30% , in relation to the steel core of a steel-aluminum wire in accordance with GOST 839-80, made of galvanized steel wire for wire cores in accordance with GOST 9850-72. Promotes the use of wires for large crossings, as well as use in areas with significant wind / ice loads.

The second type is a high-strength high-temperature bare steel-aluminum wire.

High-strength high-temperature uninsulated steel-aluminum wire is manufactured in two versions, different designs depending on the wire diameter, cross-sectional area of the conductive and steel components of the wire, as well as for the previously considered structures for high-strength uninsulated steel-aluminum wire. The steel core is made of galvanized wires, the density of the zinc coating according to the coolant group, with a ^{ultimate tensile strength of at least 1670 (170) N / mm 2} (kgf / mm ² ) in accordance with GOST 7372-79 “Steel rope wire. Technical conditions ". The steel core is covered with a layer of heat-resistant grease, 0.2 ÷ 0.5 mm thick, resistant to high temperature, on top of the grease layer there are layers of wires made of an aluminum-based alloy, including zirconium 0.12 ÷ 6.0 wt.%.

According to the first option - high-strength high-temperature uninsulated steel-aluminum wire. A galvanized metal core is made as a single-layer strand, with a linear touch of the wires, consisting of wires of the same diameter, in the amount of 5 to 14 pieces, depending on the nominal diameter of the core, twisted around the central wire, while maintaining the linear touch in the layer.

Circular plastic deformation along the outer surface of the wires is made with a degree of compression of the cross-sectional area of the core of 4.0 ÷ 14.0%.

The core is covered with a layer of heat-resistant grease, 0.2 ÷ 0.5 mm thick, resistant to high temperatures.

Around the core, coated with a heat-resistant grease, two layers of wires made of an aluminum-based alloy, including zirconium 0.12 ÷ 6.0 wt.%, Are twisted, like two-layer strands, with a linear touch of the wires, with the same number of wires in each layer and different wire diameters by layers. The number of wires made of an alloy based on aluminum, including zirconium 0.12 ÷ 6.0 wt.%, Depending on the nominal diameter of the wire, in two layers, varies from 10 to 36 pieces. Circular plastic deformation along the outer surface of the wires of the wire is made with the degree of compression of the cross-sectional area of the wire 3.5 ÷ 17.0%.

According to the second option - high-strength high-temperature uninsulated steel-aluminum wire. The galvanized metal core is made similarly to the structure of the galvanized metal core made according to the first option.

Around the core covered with a heat-resistant grease, two layers of wires made of an aluminum-based alloy, including zirconium 0.12 ÷ 6.0 wt.%, Are twisted, like two-layer strands, with a linear touch of the wires. The second layer consists of an even number of wires of two different diameters, alternating with each other, and the first layer consists of wires of the same diameter. The number of wires made of an alloy based on aluminum, including zirconium 0.12 ÷ 6.0 wt.%, Depending on the nominal diameter of the wire, in two layers, varies from 15 to 36 pieces. Circular plastic deformation along the outer surface of the wires is made with the degree of compression of the cross-sectional area of the wire 3.5 ÷ 17.0%.

This allows the use of a newly developed non-insulated steel-aluminum high-strength, high-strength high-temperature wire (options) for the transmission and distribution of electrical energy at a rated alternating voltage of 6 kV and above, allowing the operating temperature of the wire - 210 ° C at maximum values of the transmitted current, and will also significantly increase efficiency of overhead lines in areas with high air temperatures and solar activity.

Claims (4)

1. High-strength non-insulated steel-aluminum wire, consisting of a galvanized steel metal core and a conductive part of the wire, characterized in that the core is made with a linear touch of the wires as a single-layer strand, consisting of wires of the same diameter, in the amount of 5 to 14 pieces, twisted around the central wire, the core is made of galvanized wires, the density of the zinc coating according to the coolant group, with a temporary tensile strength of at least 1670 N / mm ² , the core is plastically deformed along the outer surfaces of the wire, the degree of compression of the cross-sectional area is 4.0 ÷ 14.0%, around the core there are two layers of aluminum wires with linear contact of the wires like two-layer strands, with the same number of wires in each layer and different diameters of wires between the layers, the number of aluminum wires, in two layers, varies from 10 to 36 pieces, circular plastic deformation of the wire according to outer surface of the wire yes made with the degree of compression of the cross-sectional area of the wire 3.5 ÷ 17.0%. 2. High-strength non-insulated steel-aluminum wire, consisting of a galvanized steel metal core and a conductive part of the wire, characterized in that the core is made with a linear touch of the wires as a single-layer strand, consisting of wires of the same diameter, in the amount of 5 to 14 pieces, twisted around the central wire, the core is made of galvanized wires, the density of the zinc coating according to the coolant group, with a temporary tensile strength of at least 1670 N / mm ² , the core is plastically deformed along the outer surfaces of the wire, the degree of compression of the cross-sectional area is 4.0 ÷ 14.0%, around the core there are two layers of aluminum wires with linear contact of the wires, like two-layer strands, the second layer consists of an even number of wires of two different diameters, alternating with each other, and the first layer consists of wires of the same diameter, the number of aluminum wires, in two layers, varies 15 to 36 pieces, circle New plastic deformation along the outer surface of the wire is made with the degree of compression of the cross-sectional area of the wire 3.5 ÷ 17.0%. 3. High-strength high-temperature non-insulated steel-aluminum wire, consisting of a galvanized steel metal core and a conductive part of the wire, characterized in that the core is made with a linear touch of the wires as a single-layer strand, consisting of wires of the same diameter, in the amount of 5 to 14 pieces, twisted around central wire, the metal core is made of galvanized wires, the density of the zinc coating according to the coolant group, with a temporary tensile strength of at least 1670 N / mm ² , the core is plastically deformed along the outer surfaces of the wire, the degree of compression of the cross-sectional area is 4.0 ÷ 14.0 %, the core is covered with a layer of heat-resistant grease 0.2 ÷ 0.5 mm thick, resistant to high temperature, around the core of the suite are two layers of wires made of an aluminum-based alloy, including zirconium 0.12 ÷ 6.0 wt.% with linear touch wires of the type of two-layer strands, with the same number of wires in each layer and about different diameters of wires between layers, the number of wires made of an aluminum-based alloy, including zirconium 0.12 ÷ 6.0 wt.%, in two layers, varies from 10 to 36 pieces, circular plastic deformation along the outer surface of the wire is made with a degree of area reduction cross-section of the wire 3.5 ÷ 17.0%. 4. High-strength high-temperature non-insulated steel-aluminum wire, consisting of a galvanized steel metal core and a conductive part of the wire, characterized in that the core is made with a linear touch of the wires as a single-layer strand, consisting of wires of the same diameter, in the amount of 5 to 14 pieces, twisted around central wire, the metal core is made of galvanized wires, the density of the zinc coating according to the coolant group, with a temporary tensile strength of at least 1670 N / mm ² , the core is plastically deformed along the outer surfaces of the wire, the degree of compression of the cross-sectional area is 4.0 ÷ 14.0 %, the core is covered with a layer of heat-resistant grease 0.2 ÷ 0.5 mm thick, resistant to high temperature, around the core of the suite two layers of wires made of an aluminum-based alloy, including zirconium 0.12 ÷ 6.0 wt.%, the second layer consists of an even number of wires of two different diameters, alternating with each other, and ne the open layer consists of wires of the same diameter, the number of wires made of an aluminum-based alloy, including zirconium, 0.12 ÷ 6.0 wt.%, in two layers, varies from 15 to 36 pieces, circular plastic deformation along the outer surface of the wire is made with a degree compression of the cross-sectional area of the wire 3.5 ÷ 17.0%.