RU2611590C1 - Corona discharge protection shield at linear spiral reinforcement of nonmetallic self-carrying optical cable suspended on overhead power transmission lines - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: shield is made in the form of piece of wire, bar, tube or rod and consists of a part (1) in the form of a round-shaped spiral coil of (1÷20) turns and part (2) in the form of a spiral with turn number of (2÷20), rigidly fixed on a linear spiral reinforcement, such as a spiral protector (3), mounted on the self-carrying nonmetallic optical cable (4). The end (5) of the spiral protector (4) is located inside the round spiral coil (1) and reaches its transverse axis (6), which divides the coil approximately in half.

EFFECT: possibility allows to hold the initial corona voltage within 30÷45 kV, which provides restriction of corona discharges to the permissible level of radio interference and reduce the risk for the self-carrying non-metallic optical cable itself in terms of reducing the probability of destruction of its insulating protective shell.

10 cl, 1 dwg

Description

The invention relates to the field of electric power, in particular, to devices designed to reduce the voltage of the beginning of the corona (field strength) arising on the edge of a linear spiral reinforcement of suspensions of self-supporting non-metallic optical communication cables on the supports of overhead power lines created by the charges of their wires. Emerging corona discharges should be limited by the permissible level of radio interference, the sources of which they are, and also because corona discharges pose a serious danger to the cable, destroying its dielectric protective sheath during plasma chemical reactions during corona discharge.

Known spiral protector for overhead power lines, designed to protect the wire from vibration and vibrations in the places of its exit from the connecting clamp, made in the form of a set of wire spirals with a given step length, wound at the installation location of the connecting clamp and adjacent sections of the wire, characterized in that the set of wire spirals is a body of revolution with a series of alternating broadening and narrowing, and the wire spirals are wound with the passage of two or more turns and are displaced relative to one another along the axis of the housing of the connecting clamp by at least one third of the length of their stride, while one third of the number of spirals with their middle coincides with the middle of the housing of the connecting clamp, and the remaining spirals are shifted one third to the left and right of the middle of the connecting housing clamp, and the step length of the spirals of the tread is selected based on the calculated ratios [1].

In this technical solution, the spiral protector protects the wire from vibration and vibrations in the place of installation of the clamp, for example a connecting clamp, however, at the edges of the spiral protector, an electric field (corona discharges) from the overhead line wires is always created. However, this suspension does not provide protection for a self-supporting non-metallic optical communication cable on overhead line supports, that is, there is a high probability of destruction of the dielectric cable sheath by corona discharges.

A power line is also known, including at least one grounded support, at least one power wire fixed to this support, at least one insulator of the specified power wire from the specified support, and also means for protecting said insulator against lightning overvoltages in the form of at least one pulsed spark gap with two main electrodes, characterized in that said pulse spark gap is made in the form of a spark gap with a surface discharge, the length of the spark erekrytiya between two main electrodes of the arrester is greater than the length of the protected insulator flashover and said spark gap triggering voltage is lower than the flashover voltage of the protected insulator [2].

In this power line, the insulator is protected from lightning overvoltages, but there are no protective devices against corona discharges arising at the ends, for example, spiral protectors mounted in the suspensions of self-supporting non-metallic optical communication cables on the supports of this overhead line, which significantly reduces the advantages of this technical solution.

The applicant set himself the task of developing a device for protection against corona discharges on linear spiral reinforcement of self-supporting non-metallic optical cables suspended on the supports of overhead power lines, simple in design, manufacturing and installation technology, which provides a significant reduction in the voltage of the beginning of the corona (electric field strength) caused by corona discharges on linear spiral reinforcement of self-supporting non-metallic optical cables suspended on air supports s power. This positive technical result was achieved due to the combination of essential structural features of the claimed screen for protection against corona discharges on linear spiral reinforcement of self-supporting non-metallic cables suspended on supports of overhead power transmission lines presented in the following claims: “screen for protection against corona discharges on a linear spiral fittings of self-supporting non-metallic cables suspended on the supports of overhead power lines, made in the form of a section of a wire, or a rod, or a tube, or a rod made of an aluminum alloy, or of a steel alloy, or of a steel alloy coated with a composite sheath, or of a metal alloy clad with aluminum, or of another metal material with composite elements, and consisting of, at least two parts, one part of which is twisted in the form of a spiral round coil with the number of turns within 1 ÷ 20, and the other part is made in the form of an elongated spiral with the number of turns within 2 ÷ 20, diameter, angle and ohms of coiling, ensuring its rigid fixation on linear spiral reinforcement, while the said linear spiral reinforcement is located inside a spiral round coil without touching its spiral turns and dividing the coil approximately in half both in the longitudinal and transverse directions so that at least half turns inside a spiral round coil was a self-supporting non-metallic optical cable, and the ends of the linear spiral reinforcement made oval; the diameter of the spiral round coil is selected within 30 ÷ 400 mm, and its length is within 50 ÷ 500 mm; the length of the above elongated part of the spiral is selected within 50 ÷ 4000 mm, and the diameter is within 10 ÷ 50 mm; the ends of the linear spiral reinforcement are fixed on a self-supporting non-metallic optical cable through an intermediate substrate of aluminum or copper foil with a thickness ranging from 0.05 mm to 0.75 mm; the voltage of the beginning of the corona at the ends of a linear spiral reinforcement mounted on a self-supporting non-metallic optical cable is fixed at 30 ÷ 45 kV; linear spiral reinforcement mounted on a self-supporting non-metallic optical cable suspended on the supports of overhead power lines is made in the form of a spiral protector included in the set of supporting or tension clamps; linear spiral reinforcement mounted on a self-supporting non-metallic optical cable suspended on the supports of overhead power lines is made in the form of a power spiral strand of connecting or tension clamps. "

The invention is illustrated in FIG. 1, which shows a general view of a shield for protection against corona discharges on a linear spiral armature (spiral protector, power spiral strand of connecting or tension clamps) of self-supporting non-metallic cables suspended on supports of overhead power transmission lines made in accordance with the present invention, a view perpendicular to the suspended cable.

The inventive screen for protection against corona discharges on linear spiral reinforcement, for example, on a spiral protector of self-supporting non-metallic cables suspended on the supports of overhead power lines, is made in the form of a piece, for example, wire, rod, round tube or rod. The segment consists of two parts 1 and 2. Part 1 of the segment is a round coil of several (1 ÷ 20) turns, twisted in a spiral. The second 2 part of the segment is an elongated spiral with the number of turns within 2 ÷ 20, and such values of the diameter, angle and pitch of the winding that it is rigidly fixed when it is wound on a linear spiral reinforcement, for example, on a spiral protector 3 mounted on a self-supporting non-metallic optical cable 4. The end 5 of the spiral tread 4 is located inside the spiral round coil 1 and reaches its transverse axis 6, dividing the coil in half. In this case, the spiral tread 4 should not touch the spiral turns of the coil 1, and the end 5 of the spiral tread 3 after cutting is performed with oval processing.

Parts 1, 2 of the screen, made in the form of a wire, rod, tube or rod, are made of aluminum alloy, or of steel alloy, or of steel alloy coated with a composite sheath, or of a metal alloy clad with aluminum, or other metal material with composite elements.

The end 5 of the tread 3 can be fixed to a self-supporting non-metallic optical cable 4 through an intermediate substrate (not shown) of aluminum or copper foil with a thickness ranging from 0.05 mm to 0.75 mm.

As practice has shown, when installing a screen of this design, the voltage of the beginning of the crown at the ends of a linear spiral reinforcement mounted on a self-supporting non-metallic optical cable suspended on the supports of overhead power transmission lines is fixed at 30 ÷ 45 kV.

The screen is mounted as follows.

Part 1 of the screen in the form of a round coil is started at a certain angle, and its position is aligned on a self-supporting non-metallic optical cable 4 with a spiral protector 3 attached to it (Fig. 1) or a power spiral strand of tension or connecting clamps or other linear spiral reinforcement. It is necessary that the spiral protector 3 is located inside the spiral round coil 1, without touching its spiral turns and dividing the coil 1 approximately in half both in the longitudinal and transverse directions so that at least half of the turns inside the spiral round coil 1 is located self-supporting non-metallic optical cable 4. After that, the reel part 1 of the screen is finally aligned in the horizontal direction and the part 2 of the screen is wound onto the cable 4 with the protector 3 in the form of an elongated spiral, while selected its diameter, pitch angle, and the winding must provide rigid fastening of the screen, in particular on the spiral tread 3, mounted in turn on the self-supporting non-metallic optical cable 4.

The inventive shield for protection against corona discharges on linear spiral reinforcement, self-supporting non-metallic cables suspended on the supports of overhead power lines, provides a significant increase in the voltage of the beginning of the corona at the ends of linear spiral reinforcement (within 30 ÷ 45 kV), which allows limiting corona discharges to permissible level of radio interference and reduce the danger to the self-supporting non-metallic optical cable from the point of view of reducing the probability of destruction of its protective dielectric Coy shell.

Information sources

[one]. Description of the invention to the patent of the Russian Federation No. 2168825, “Tread for overhead power lines”, H02G 7/14, claimed December 15, 1999, published May 10, 2001.

[2]. Description of the invention to the patent of the Russian Federation No. 2096882 "Power line with a pulsed lightning arrester", H02G 7/00, Н02Н 9/06, Н01Т 4/00, claimed November 17, 1995, published November 20, 1997.

[3]. Description of the invention to the patent of the Russian Federation No. 2100888 "Power line with a device for protection against lightning surges", H02G 7/00, Н02Н 9/06, Н01Т 4/00, claimed September 30, 1996, published December 27, 1997.

[four]. Description of the invention to the patent of the Russian Federation No. 2133538 "Power line with devices for protection against lightning surges (Variants)", H02G 7/00, filed November 16, 2000, published September 20, 2002.

[5]. Description of the invention to the patent of the Russian Federation No. 2178612 "Power line", H02G 7/00, Н01В 17/46, Н01Т 4/00, filed July 30, 1999, published July 27, 2001.

[6]. Description of the invention to the patent of the Russian Federation No. 2400894 “Lightning protection device for overhead power line wires (Variants)”, H02G 7/00, claimed October 30, 2009, published September 27, 2010.

[7]. Description of the invention to the patent of the Russian Federation No. 2414031 “Lightning protection device for overhead power line wires (Variants)”, H02G 7/00, filed October 30, 2009, published March 10, 2011.

[8]. Description of the invention to the patent of the Russian Federation No. 2431226 "Spiral support clamp", H02G 7/05, filed July 1, 2010, published October 10, 2011.

[9]. Description of the invention to the patent of the Russian Federation No. 2313873 “Supporting clamp”, H02G 7/05, claimed September 19, 2006, published December 27, 2007.

[10]. Description of the invention to the patent of the Russian Federation No. 2231188 “Supporting clamp”, H02G 7/05, filed August 22, 2001, published June 20, 2004.

[eleven]. Description of the invention to the patent of the Russian Federation No. 2175805 "Supporting clamp of spiral type", H02G 7/05, claimed 08.08.2000, published 10.11.2001.

[12]. Description of the invention to the patent of the Russian Federation No. 2189682 "Protective tread", H02G 7/14, claimed 16.11.2000, published 09/20/2002.

Claims (10)

1. Screen for protection against corona discharges on linear spiral reinforcement of self-supporting non-metallic cables suspended on supports of overhead power lines, made in the form of a piece of wire, or a rod, or a tube, or a rod made of aluminum alloy, or of steel alloy, or of a steel alloy coated with a composite shell or of a metal alloy clad with aluminum, consisting of at least two parts, one part of which is twisted in the form of a spiral round coil, and the other part is it is filled in the form of an elongated spiral with a diameter, angle and pitch of the winding, ensuring its rigid fixation on a linear spiral reinforcement, while the said linear spiral reinforcement is located inside a spiral round coil without touching its spiral turns and dividing the coil approximately in half both in longitudinal and transverse directions, and the ends of the linear spiral reinforcement are oval. 2. The screen according to claim 1, in which the number of turns of the round part of the spiral coil is selected within 1 ÷ 20. 3. The screen according to claim 1, in which the number of turns of the part made in the form of an elongated spiral is selected within 2 ÷ 20. 4. The screen according to claim 1, in which a self-supporting non-metallic optical cable is located in at least half of the turns inside a spiral round coil. 5. The screen according to claim 1, in which the diameter of the spiral round coil is selected within 30 ÷ 400 mm, and its length is within 50 ÷ 500 mm. 6. The screen according to claim 1, in which the length of the above elongated part of the spiral is selected within 50 ÷ 4000 mm, and the diameter is within 10 ÷ 50 mm. 7. The screen according to claim 1, in which the ends of the linear spiral reinforcement are fixed to a self-supporting non-metallic optical cable through an intermediate substrate of aluminum or copper foil with a thickness ranging from 0.05 mm to 0.75 mm. 8. The screen according to claim 1, in which the voltage of the beginning of the crown at the ends of a linear spiral reinforcement mounted on a self-supporting non-metallic optical cable is fixed at 30 ÷ 45 kV. 9. The screen according to claim 1, in which the linear spiral reinforcement mounted on a self-supporting non-metallic optical cable suspended on the supports of overhead power lines is made in the form of a spiral protector included in the kit supporting or tension clamp.            10. The screen according to claim 1, in which the linear spiral reinforcement mounted on a self-supporting non-metallic optical cable suspended on the supports of overhead power lines is made in the form of a power spiral strand of connecting or tension clamps.

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