RU114553U1 - DARK-PROTECTED CABLE FOR ELECTRIC TRANSMISSION AIR LINES - Google Patents

Abstract

Lightning protection wire, consisting of twenty-one galvanized wires according to the "ОЖ" group (zinc coating for especially harsh operating conditions), characterized in that, in order to increase resistance to lightning strikes, short-circuit currents, aeolian vibration and dance, the design is made according to a scheme containing three plastically compressed strands, each of which consists of six strand wires with a diameter equal to D2, twisted around a central wire with a diameter equal to D1, and the direction of strands and a ground wire is twisted in the opposite direction, the ratio of the diameters of the constituent wires: D1 / D2 = (1.0-1.3), the multiplicity of the lay of the strand is 7-12, the multiplicity of the lay of the ground wire is 5-9.

Description

This device relates to the field of electrical engineering. Lightning protection cable is designed for suspension on overhead power lines with voltage from 35 kV and higher to protect against lightning strikes.

Spiral ropes according to GOST 3063-80 are known from the prior art. They are characterized in that they have a 1 × 19 (1 + 6 + 12) design, twisted in two technological operations, without the use of calibrating devices. The use of ropes as lightning protection cables according to GOST 3063-80 was based on relatively low tensile loads when operating on high-voltage lines and the fundamental ability to conduct electric current during lightning strikes. However, during a lightning strike, in addition to the electric effect, the metal also has a thermal effect, which leads to a deterioration in the strength properties of steel due to overheating. Overheating results in local wire breaks and melting, which together can lead to the breaking of a ground wire. In addition, during operation, the lightning protection cable is subjected to a wind load, which causes vibration and dance, which can contribute to the occurrence of fatigue changes in the steel structure. The appearance of ice on cables can significantly increase the total tensile load. All these factors cast doubt on the use of ropes according to GOST 3063-80 as lightning protection.

The problem to which the technical solution is directed is to manufacture a lightning protection cable with increased resistance to the effects of lightning, short circuit current, aeolian vibration and dance.

The task is achieved by changing the design and manufacturing technology of a lightning protection cable. Lightning protection cable is made of wire according to GOST 7372-79 with a zinc coating in the group "coolant" (coolant - zinc coating for especially harsh operating conditions). The lightning protection cable is made of plastically crimped strands, each of which consists of six twisted wires 2 with a diameter equal to d ₂ and one central wire 1 with a diameter equal to d ₁ (Fig. 1). Lightning protection cable design 3 × 7 (1 + 6). Lightning protection cable is made on a cable car in two technological operations. The first operation is the manufacture of plastically pressed strands of a 1 + 6 design. Plastic compression of the strands is carried out by pulling the finished strand through a roller cassette installed in the support of the cable car.

The second operation is the manufacture of a 3 × 7 (1 + 6) lightning cable. By combining the directions of the lay of elements - a ground wire is made cross lay.

An example of a specific design: A lightning protection cable is made in a three-strand design. The manufacture of strands of construction 1 + 6 is made of galvanized wire according to GOST 7372-79 with zinc coating according to the group "coolant". The diameter of the central wire is 2.35 mm, the diameter of the coils is 2.10 mm. The lay direction is left. The strands are plastically crimped. The strands are made using a roller cassette. The manufacture of a ground wire is made with a pitch of 84.5 mm, of the right lay. The diameter of the lightning protection cable is 13.0 mm. Cross sectional area 75.4 mm ² .

This design of the lightning protection cable allows you to get a more balanced, non-twisting rope. Thanks to the three-strand design, the damaged wires do not unwind, because clamped by strands. Plastic crimping of the strands makes it possible to use a larger diameter wire in the outer layer, which increases the resistance to lightning and short circuit currents. In addition, the cross-sectional area increases, the total tensile strength, the tensile strength of the cable as a whole and the specific strength of the ground wire (the ratio of the tensile strength of the cable as a whole to a unit weight).

Due to the greater number of component wires (compared to previously used ropes according to GOST 3063), this lightning wire is more flexible and more resistant to aeolian vibration and dance. Thus, the proposed design of a lightning protection cable allows to increase resistance to the effects of lightning, short circuit current, aeolian vibration and dance.

Claims (1)

Lightning protection cable, consisting of twenty-one galvanized wires in the OZh group (zinc coating for especially harsh operating conditions), characterized in that, in order to increase resistance to lightning, short circuit currents, aeolian vibration and dance, the design is made according to a circuit comprising three compacted strands, each of which consists of six wires helix diameter equal to D _2, twisted around the central wire, with a diameter equal to D _1, and the direction of lay of the strands and the ground wire produced in the opposite direction, ratio of the diameters of wires components: D ₁ / D ₂ = (1.0-1.3), the multiplicity of the pitch of lay strand is 7-12 multiplicity ground wire stranding pitch is 5-9.