RU218328U1 - High-strength metal core for non-insulated and self-supporting insulated wires of overhead power lines 0.4 kV and higher (options) - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely, to structures of a high-strength metal core for uninsulated and self-supporting insulated wires intended for transmitting electrical energy through an overhead power line of 0.4 kV and higher.

A high-strength metal core for uninsulated and self-supporting insulated wires is manufactured in three versions of different designs, depending on the nominal diameter of the core of galvanized wires, the surface density of zinc in group Zh, OZH, with a temporary tensile strength, in the range from 1570 (160) to 1860 ( 190) N / mm ² (kgf / mm ² ).

According to the first option: a high-strength metal single-layer core. The number of wires in the core varies from 6 to 15. The core is plastically deformed along the outer surfaces of the wire, the degree of compression of the cross-sectional area is 8.0-19.0%.

According to the second option: a high-strength metal two-layer core. The number of wires in the core varies from 11 to 29. The core is plastically deformed along the outer surfaces of the second layer of wires, the degree of compression of the cross-sectional area is 8.0-19.0%.

According to the third option: high-strength metal three-layer core. The number of wires in the core varies from 31 to 41. The core is plastically deformed along the outer surfaces of the wire, the degree of compression of the cross-sectional area is 8.0-19.0%.

In order to improve the operational characteristics and technical resource of a high-strength metal core for uninsulated and self-supporting insulated wires, the core is subjected to circular plastic compression during production in the process flow. As a result of plastic deformation, round wires acquire a shaped section. Between the wires in the core during circular plastic compression with the initial linear touch of the wires, not a linear contact is created, but a planar contact, which reduces contact stresses, wear of the wires during their mutual sliding when the core is bent.

Description

The utility model relates to the field of electrical engineering, namely to the structures of a high-strength metal core for uninsulated and self-supporting insulated wires intended for the transmission of electrical energy through an overhead power line of 0.4 kV and above, made by a strand of galvanized steel wires, the surface density of zinc in group G, Coolant, with temporary tensile strength, in the range from 1570 (160) to 1860 (190) N / mm ² (kgf / mm ² ), around the central galvanized steel wire.

Known Compact uninsulated wire for overhead power lines (see the description of the utility model to the patent RU 96442 U1 H01B 5/00, published on 27.07.2010 Bull. No. 21). This wire contains a plastically crimped core, twisted from steel wires with a corrosion-resistant metal coating. The wire core is twisted on a twisting machine from one or more concentric layers of round steel wires in a spiral in alternating directions with a certain twist pitch. The disadvantages of this core, manufactured in a multi-operational way, with an alternating direction in the layers, in which the wires between the layers intersect, forming a point touch of the wires in the core, are subject to significant wear due to the crossing between the layers in these designs of twisted wire products with a point touch of the wires in the core , as well as significant contact stresses.

Known wire power line (patent RU No. 2017245, IPC H01V 5/08, published 30.07.1994). The wire contains a core, the cross section of which is made in the form of an ellipse.

The disadvantages of this core include the technically rather complicated manufacture of a wire with a core having an ellipse shape in cross section. It is necessary to develop and manufacture special technological equipment, a template, a preformer, crimping dies, a straightening device for forming a wire section with an ellipse-shaped core in the center.

Known uninsulated steel yuminium wire for overhead power lines according to GOST 839-80 “Bare wires for overhead power lines. Specifications”, in which the galvanized steel core is made of round wire, manufactured in accordance with GOST 9850-72 “Zinc-coated steel wire for wire cores Specifications”. The significant disadvantages of this galvanized steel core, it should be noted that it is made from wires with a rather low tensile strength from 1380 (141) to 1450 (148) N / mm ² (kgf / mm ² ) according to GOST 9850-72, depending on the diameter wire. Such a low tensile strength of the wires used for the manufacture of the core for the above wire increases the breakage of the wire under increased wind loads, icing, and heavy snow buildup, which leads to emergency situations on high-voltage lines. It should also be noted that the disadvantages of this design of the core, manufactured by a multi-operational method, in which the wires cross between the layers, forming a point contact of the wires as a result of which, the points of contact of the wires between the layers are stress concentrators, which leads to an increase in local stress values not only during bending , but also when the rope is stretched.

Over time, due to the action of the described effect, the core, with a point touch of the wires, can unexpectedly lose stability and plastically deform even in the region of elastic deformations.

The objective of the claimed utility model is to create a multi-wire structure of a high-strength metal core for uninsulated and self-supporting insulated wires of an overhead power line of 0.4 kV and higher, to increase operational characteristics such as strength, resistance to wind loads, aeolian vibration and dancing of a high-strength metal core, and as a consequence, bare and self-supporting insulated wires.

The achievement of the technical result of the claimed utility model, the increase in operational characteristics such as strength, resistance to wind loads, aeolian vibration and dance, is achieved by manufacturing a core with increased structural density and reduced contact stresses of the wires, due to circular plastic compression along the outer surface with the original linear touching the wires in the core.

The essence of the utility model is as follows, a high-strength metal core for non-insulated and self-supporting insulated wires, is manufactured in three versions of different designs, depending on the nominal diameter of the core of galvanized wires, the surface density of zinc in group G, OZH, with tensile strength, in the range from 1570 (160) to 1860 (190) N/ ^mm2 (kgf/ ^mm2 ).

According to the first option: a high-strength metal single-layer core, in which a coil of galvanized wires of the same diameter is made around the central galvanized wire. The number of wires in the core, depending on the nominal diameter of the core, is from 6 to 15, the diameter of the wires varies in the range (0.8 - 4.6) mm. The core is plastically deformed along the outer surfaces of the wire, the degree of compression of the cross-sectional area is 8.0-19.0%.

According to the second option: a high-strength metal two-layer core, in which two layers of galvanized wires are twisted around the central galvanized wire in one technological operation with the same number of wires in each layer, but different wire diameters between the layers, while the lay pitch for the two layers is the same, in one direction with a linear touch of the wires of the first and second layers. The number of wires in the core is from 11 to 29, the diameter of the wires varies in the range (1.2 - 4.6) mm. The core is plastically deformed along the outer surfaces of the second layer of wires, the degree of compression of the cross-sectional area is 8.0-19.0%.

According to the third option: a high-strength metal three-layer core, in which three layers of galvanized wires are wound around the central galvanized wire in one technological operation, in one direction, with the same lay pitch, with a linear touch of the wires, the first layer consists of wires of the same diameter, the second layer consists of from wires of larger and smaller diameters, alternating through one of them, the third layer consists of wires of the same diameter. The number of wires in the core is from 31 to 41, the diameter of the wires varies in the range (0.90 - 4.6) mm. core plastically

deformed on the outer surfaces of the wire, the degree of compression of the cross-sectional area of 8.0-19.0%.

In order to improve the operational characteristics and technical resource of a high-strength metal core for self-supporting uninsulated and insulated wires, the core is subjected to circular plastic compression during production in the process flow. As a result of plastic deformation, round wires acquire a shaped section. Between the wires in the core during circular plastic compression with the initial linear touch of the wires, not a linear contact is created, but a planar contact, which reduces contact stresses, wear of the wires during their mutual sliding when the core is bent.

The manufacturing technology of a high-strength metal core for non-insulated and self-supporting insulated wires is as follows, a core with the same lay pitch and with a linear touch of the wires is twisted on traditional rope equipment, simultaneously with circular plastic deformation along the outer surfaces of the core wires, in one technological operation, with a degree compression on the cross-sectional area of the core 8.0-19.0%, resulting in an increased area of contact between the wires in the layers and between the layers, and accordingly increased the structural density of the core as a whole.

This allows, using new designs of a high-strength metal core for self-supporting uninsulated and insulated wires of an overhead power line of 0.4 kV and higher, galvanized wire with a surface density of zinc in group Zh or OZH, with a tensile strength ranging from 1570 (160) to 1860 (190) N / mm ² (kgf / mm ² ), a method of manufacturing the core, in one technological operation, with a degree of compression over the cross-sectional area of the core of 8.0-19.0%, increase its structural strength, increase operational characteristics such , as resistance to wind loads, aeolian vibration and dance, as well as increase its strength by 18-35%.

Claims (4)

1. High-strength metal core for non-insulated and self-supporting insulated wires of an overhead power line 0.4 kV and higher, consisting of galvanized wires in group G, OZH with a temporary tensile strength from 1570 (160) to 1860 (190) N / mm ² (kgf /mm ² ), characterized in that around the central wire, layers of wires are performed with simultaneous circular plastic deformation along the outer surfaces of the core wires, the degree of compression of the cross-sectional area is 8.0-19.0%. 2. A high-strength metal core according to claim 1, characterized in that one winding of wires of the same diameter is performed around the central wire in an amount of 6 to 15. 3. A high-strength metal core according to claim 1, characterized in that two layers of galvanized wires are twisted around the central wire in one technological operation with the same number of wires in each layer, but different wire diameters between the layers, while the lay pitch for the two layers is the same, in one direction with a linear touch of the wires of the first and second layers, the number of wires in the core is from 11 to 29. 4. A high-strength metal core according to claim 1, characterized in that three layers of galvanized wires are twisted around the central wire in one technological operation in one direction, with the same lay pitch, with a linear touch of the wires, the first layer consists of wires of the same diameter, the second layer consists of wires of larger and smaller diameters, alternating through one of them, the third layer consists of wires of the same diameter, the number of wires in the core is from 31 to 41.