RU235018U1 - Heat-resistant reinforced non-insulated wire - Google Patents

Abstract

The utility model relates to the design of a bare wire intended for transmitting electric energy in overhead power lines. The technical result consists in increasing the reliability and increasing the service life of a bare wire for overhead power lines. The technical result is achieved due to the fact that the bare wire consists of a compacted core made of high-strength steel wires with a zinc-aluminum coating, and a winding made of profiled wires made of aluminum-zirconium alloy. 4 z.p. f-ly

Description

The field of technology to which the utility model relates

The utility model relates to cable technology, namely to the designs of heat-resistant non-insulated wires, the conductive part of which is made of heat-resistant aluminum alloy, intended for the transmission of electrical energy in overhead power lines, with an operating temperature of up to 210°C.

State of the art

A known uninsulated wire of the AST brand with a high-strength steel core with a zinc-aluminum coating and windings of round wires made of heat-resistant aluminum alloy (product catalog of Kamsky Kabel LLC, https://www.kamkabel.ru/production/novinki-2/neizolirovannye_termostojkie_provoda-1.html?ysclid=m7ei9xzu2k5966592), with an operating temperature of up to 210 ° C, is intended for the transmission of electrical energy in overhead power lines (OHP). The disadvantage of the known wire is the production of round wires, due to which there are voids between the wires in the wire, the outer surface is uneven.

The closest analogue is a non-insulated wire for overhead power lines with an operating temperature of up to 210 ° C, brand AT3P / S (https://perm.cable.ru/cable/marka-at3p_s_120_19.php). The core of the wire is made of galvanized steel wires, and the windings are made of aluminum alloy wires of the AT3 type (aluminum-zirconium alloy). The wires of the conductive windings of the prototype are made profiled, due to which voids between them are excluded. At the same time, the core of the prototype is twisted from round galvanized steel wires, which is a disadvantage.

The technical problem is the need to eliminate the shortcomings of known analogues and increase the reliability of heat-resistant non-insulated wire.

Disclosure of the essence of the utility model

The technical result consists in increasing the reliability of heat-resistant uninsulated wire during operation and, as a consequence, in increasing the service life of uninsulated wire for overhead power transmission lines.

The technical result is achieved due to the design of the wire: heat-resistant non-insulated wire for overhead power transmission lines consists of a compacted core made of high-strength steel wires with a zinc-aluminum coating, and at least one winding made of profiled wires made of aluminum-zirconium alloy.

The production of a wire with a compacted core made of high-strength steel wires increases the reliability of the entire wire. Thanks to this core design, the strength and rigidity of the internal element is ensured, the wire is not subject to sagging. Its diameter, in comparison with a core made of round wires, is smaller, the density of filling with metal in the section is higher.

The outer windings of the aluminum-zirconium alloy wire are profiled, which also affects the density of metal filling in the section. The outer surface of the wire is smoothed, due to which the wire also becomes less susceptible to dancing when exposed to wind loads. In the event of ice and frost, the layer on the outer side of the wire will be insignificant.

In addition, due to the fact that the core of the heat-resistant wire is compacted and the outer layers are made profiled, the diameter of the wire is reduced with the same cross-section of the conductive part. The weight of the wire is reduced, due to which the sag is reduced, the risk of wire breakage is reduced, the wire becomes more reliable in operation.

The use of high-strength steel wires with zinc-aluminum coating also increases the reliability of the wire, since such core wires have increased corrosion resistance, compared to galvanized wires. Coating steel wires with zinc-aluminum alloy significantly increases their service life, such a coating is more elastic, the likelihood of its cracking and crumbling is reduced.

Thus, thanks to all the listed features, the technical problem is solved - the disadvantages of known analogs of heat-resistant wires are eliminated and the technical result is achieved - the reliability of the wire during operation is increased and the service life is extended.

Implementation of a utility model

The proposed utility model is implemented as follows.

The core of the bare wire is made of high-strength steel wires with a tensile strength of at least 1800 N/mm ² . Each steel wire has a zinc-aluminum alloy coating. The core is made compacted. It can be coated with a layer of heat-resistant grease. A layer of aluminum-zirconium alloy wires is applied over the core; aluminum alloy of the AT3 type can be used. The wires of the layers are profiled, can be Z-shaped or trapezoidal, and can also be compacted. The wire can contain several external layers.

Claims (5)

1. A heat-resistant non-insulated wire for overhead power transmission lines, consisting of a core made of high-strength steel wires and at least one strand made of profiled wires of an aluminum-zirconium alloy, characterized in that the core is made compacted, and each steel wire of the core has a zinc-aluminum coating. 2. The wire according to item 1, characterized in that the wires of the winding are made trapezoidal. 3. The wire according to item 1, characterized in that the wires of the winding are made in a Z-shape. 4. The wire according to item 1, characterized in that it contains several external layers. 5. The wire according to item 1, characterized in that the tensile strength of the core wires is not less than 1800 N/ ^mm2 .