RU2363061C1 - Power line wire - Google Patents

Abstract

FIELD: energetics.

SUBSTANCE: invention relates to electric power engineering and can be used during construction of overhead power transmission line for protection against harmful modes of icing and "shudder" of wires in areas, subjected to ice - wind loadings. Power line wire contains core, convoluted of steel wires, over which there are located layers of aluminium wires and allowing periodically located lengthwise the wire sections with increased rigidity, and specified sections are formed by thermally hardened wire of steel core. Thermally hardened sections located in external layer of wire allows total active and inductive impedance more for one, two and more degrees, than resistance of the rest wires.

EFFECT: increasing of power lines wires maintainability by means of prevention of formation of coating of ice and excluding of harmful modes of icing and wires "shudder".

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Description

The invention relates to the field of electric power and can be used in the construction of overhead power lines to protect against dangerous icing conditions and “dancing” of wires in areas subject to ice-wind loads.

There are known wires of power lines used on overhead power lines of all voltage classes and performed in the form of one or several types of wires (Bozhnyakovich AD "Mechanical calculation of wires and cables of power lines", M. - L., 1969, p.15- 28).

A known power line wire, consisting of a steel core and several coils of aluminum wires. The core is made of non-magnetic nitrogen-containing austenitic steel with low magnetic permeability, increased active-inductive resistance and strength. Aluminum coils are made of wires of various diameters, the largest is the diameter of the outer coils of wires (RF patent No. 2063080, НВВ 5/08, 1996.06.27).

The disadvantage of analogues is their susceptibility to icing and "dance" of wires. These hazardous conditions lead to damage to poles, wires, individual structural elements, whipping and burnout of wires and significantly reduce the operational reliability of power lines.

Also known are wires of power lines containing devices for melting ice deposits and dampers of wire dances, made in the form of structural elements hung on a wire (Burgsdorf V.V., Dyakov A.F., Nikonets Y.A. et al. “Guidelines for smelting of ice. ”- M .: Ministry of Energy of the Russian Federation, 1993.“ Dance of wires on overhead power transmission lines 500 kV. ”BTI, M., 1965., P.60-65).

The disadvantage of such devices is their complexity, high cost, significant costs for their installation, operation, which causes a significant increase in the cost of power lines.

The closest in technical essence and the achieved result to the claimed one is a wire of power lines containing a core twisted from steel wires, on top of which there are layers of aluminum wires, and sections with increased rigidity periodically located along the length of the wire. Moreover, areas with increased rigidity are formed by thermally hardened wires of the steel core (A.S. USSR, No. 1561101, Н01В 5108, 1990.04.30).

Under the influence of the wind load, a traveling or reflected wave of mechanical stresses arises in the line wires. At the boundaries of sections with different stiffness, the stress wave undergoes a transformation: the wave amplitude decreases, and the frequency increases. In this case, the wave energy is partially absorbed in the wires of the steel core due to greater rigidity compared to neighboring unhardened areas, as a result, the wire becomes more aerodynamically stable and less prone to vibrations.

However, the disadvantage of the closest analogue is the susceptibility of the wire lines to icing and low operational reliability of power lines.

The objective of the invention is to increase the operational reliability of the wires of power lines by preventing the formation of icy deposits and the exclusion of dangerous modes of icing and "dancing" of the wires.

This object is achieved in that in a wire of a power line containing a core twisted of steel wires, on top of which there are layers of aluminum wires, and having periodically arranged sections along the wire with increased stiffness, and these sections are formed by thermally hardened steel core wires, in contrast from the prototype, the thermally hardened sections located in the outer coil of the wire have a total active and inductive resistance of one, two or more more Than the resistance of the remaining wires.

The invention is illustrated in the drawing, which shows a piece of wire power lines.

The wire contains wires 1 forming the core, steel wires 2 in the outer layer, sections 3 with increased stiffness. Since the total active-inductive resistance of steel wires in the external coil is several times greater than the resistance of aluminum wires, when currents flow that are close to or equal to currents that prevent the formation of ice, the wire constantly has a heated surface and ice does not initially form on the wire.

If, under the influence of the wind load, a traveling or reflected wave of mechanical stresses arises, then at the boundaries of sections with different stiffness, the dynamic vibrations of the wires are damped.

The introduction of steel wire with increased stiffness and high resistance into the outer layer allows to initially eliminate deposits of ice and “dancing” of wires of power lines and increase the reliability of overhead power lines of all voltage classes in icy-wind regions, since the claimed power line wire is icy and aero-stable.

When using iced aero-stable wire with heat quenching (GASP), there is no need for complex expensive installations and melting devices, organization of their conduct, ice alarm systems and protective devices for extinguishing the "dance" of wires.

As shown by experimental tests, the manufacture of the proposed wire is technically simple, and its use does not require additional operating costs. Thermal hardening of steel wires is performed by the well-known method of hardening by high frequency currents using an inductor.

Claims (1)

A power line wire containing a core twisted from steel wires, over which there are layers of aluminum wires, and having sections with increased rigidity periodically spaced along the length of the wire, and these sections are formed by thermally hardened steel core wires, characterized in that the thermally hardened sections located in the external type of wire, the wires have a total active and inductive resistance one, two or more orders of magnitude greater than the resistance of the other wires.