RU2628998C1 - Spreader-damper for phase-splitted wires of overhead power transmission line - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: spreader-damper for split-phase wires (1) of the overhead power transmission line consists of the casing (2), the beams (3) by the number of split-phase wires with dies-clamps (4) at one end for fastening the spreader to the wires and damper assemblies on the other end located in the casing. The damper assembly consists of elastomeric discs (5) fastened by a vertical axis (6) on which the covers with fasteners (7) are mounted. The casing is made of aluminium or aluminium alloys and is performed in form of a polygon, sides of which are arranged along the outline in form of a broken line with the possibility of finding damper assemblies inside the polygon.

EFFECT: effective vibration damping and electrical and mechanical reliability during long-term operation.

7 cl, 1 dwg

Description

The invention relates to the field of electric power industry, in particular to spacer dampers for wires of a split phase of overhead and ultra-high voltage power transmission lines, for example 750 kV and higher.

Known spacer-suppressor for wires of the split phase of the overhead power line, containing rods made in the form of an elastic element by the number of wires of the split phase and fixed at one end in clamps mounted on the wires of the split phase, characterized in that the spacer is equipped with bushings mounted on elastic elements in the direction of their longitudinal axes, rigidly fastened to each other at one end in the center of the strut, which is the center of the split phase of the line, and crimped at several points on y other elements, while the diameter of each elastic element is selected smaller than the diameter of the bushings by 1 ÷ 3 mm, and each mentioned sleeve is mounted on the elastic element with a gap from the spacer clamp equal to 1 ÷ 3 mm, to ensure bending deformations of the elastic elements when the split wires oscillate phase of the line [1].

In this spacer-damper, the damping of the wires of the split phase of the overhead power line should be achieved due to the damping properties of the elastic elements located with some freedom along the bushings; nevertheless, the physical and technical characteristics of the elastic elements are not disclosed in the patent materials, and therefore it is not clear how to achieve the optimal operation of the spacers in the same range as the frequency range of the oscillations of the wires of the split phase of the lines themselves. In addition, the effective "operation" of the spacer on the overhead and ultra-high voltage power transmission lines is doubtful, since with the aforementioned design of rods and housing it will be difficult to form a split phase of the line with the condition of ensuring its maximum throughput.

The closest technical solution in relation to the claimed one is a spacer-damper for wires of a split phase of an overhead power line, containing a housing, beams according to the number of wires of a split phase with dies-clamps at one end for attaching the spacer to the wires and damper nodes at the other end, located in grooves of the housing, with each damper assembly consisting of elastomeric disks fastened by a vertical axis onto which covers with fasteners are mounted [2].

This spacer-damper for wires of the split phase of an overhead power transmission line is well suited for operation on low-voltage overhead power lines, for example, below 750 kV, with splitting of no more than three to four components in the split phase. In addition, the elastomeric disks of the damper assembly of this spacer in their physicochemical composition cannot provide optimal electrical resistance between any parts of the spacer (not more than 20 MΩ), not allowing the electrical conductivity between any pairs of spacer elements to ensure free flow of static charges, as a result which may cause electrical discharges between its elements, which is unacceptable during operation of the spacers on overhead and ultra-high power transmission lines someone's stress.

The applicants set themselves the task of developing a spacer-damper for wires of the split phase of overhead power lines of high and ultra-high voltage (over 750 kV), characterized by a high ability to dampen aeolian vibration at frequencies up to 20 Hz, sub-vibrations and dances at a frequency of 1 to 2 Hz, operational reliability under the conditions of mechanical loads arising during installation and maintenance, as well as the electrical conductivity of non-metallic parts (elastomers) that provide optimal electrical resistance between any spacer elements is not more than 20 megohms. The above-mentioned positive technical result was achieved due to a new set of essential structural features of the spacer-damper for wires of the split phase of the overhead power line, made according to the present invention, presented in the following claims: “spacer-damper for the wires of the split phase of the overhead power line containing the case, rays by the number of wires of the split phase with dies, clamps at one end for attaching the spacers to the wires and dampers nodes at the other end located in the housing, each damper assembly consisting of elastomeric disks fastened by a vertical axis onto which covers with fasteners are mounted; the housing made of aluminum or aluminum alloys is made in the form of a polygon, the sides of which are arranged in a polygonal line with the possibility of finding at least one damping unit inside the aforementioned polygon in such a way as to provide unequal lengths L of the distance between each two beam-clamp dies the number of wires of the split phase within the range of the following absolute values: L = (300 ÷ 650) mm, while the electrical conductivity of the polymer of the elastomers of the damper nodes reached It is of such importance that the electrical resistance between any parts of the spacer is no more than 20 MΩ due to the introduction of carbon black damping nodes into the physicochemical composition of the elastomer, which is a highly dispersed amorphous carbon product and provides free draining of electric charges of static electricity and the absence of electric discharges between the spacer elements ; as carbon black in the physicochemical composition of the polymer of the elastomers of the damper nodes, channel, or furnace, or thermal soot is taken; carbon black is introduced into the physicochemical composition of the polymer of the elastomers of the damper nodes in the range from 20% to 45% with respect to the percentage physicochemical composition of the remaining polymer components of the elastomers of the damper nodes; only one elastomeric disk is mounted on the vertical axis of the damper assembly; the radius R of the groove of the die-clamp is selected with accuracy matching the diameter of the wire D _prov so that the die-clamp of the spacer on the wire withstands, without slipping, considered its displacement by an amount equal to or greater than 1.0 mm, longitudinal forces in the direction along the axis of the wire, equal to 2.5 kN arising from uneven stretching of phase wires during operation; elastic elements from the atmospheric ozone-resistant elastomer of the damper assemblies provide the following mechanical characteristics: temporary tensile strength when tensile - not less than 16 MPa (1.63 kgf / mm ² ), elongation not less than 400%, hardness SHOR A - not less than 50 ÷ 60 conventional units, abrasion - 120 m ³ / TJ and tensile strength - at least 40 N / mm ² (4 kgf / mm ² ), designed to operate in the temperature range -60 ° C ÷ + 40 ° C; it is designed for operation on overhead power lines of high and ultra-high voltage starting from a voltage of 750 kV and higher. "

The invention is illustrated in the drawing, where in FIG. 1 shows a general view of a spacer damper for wires split, for example, into five phase components of an overhead power transmission line made in accordance with the present invention.

The inventive spacer-damper for wires 1 of the split phase of the overhead power line consists of a housing 2, rays 3 according to the number of wires 1 of the split phase with dies-clamps 4 at one end for attaching the spacers to the wires 1 and damper nodes at the other end, located in the housing 2 The damper assembly consists of elastomeric discs 5 (there can be only one elastomeric disc), fastened by a vertical axis 6, on which covers with fasteners 7 are mounted.

The proposed spacer is designed for operation on overhead power lines of high and ultra-high voltage starting from a voltage of 750 kV. Case 2 is made of aluminum or aluminum alloys and is made in the form of a polygon, the sides of which are arranged in a polyline shape with the possibility of finding damping nodes inside the polygon, which allows for the formation of split phase lines of any configurations encountered in the practice of power supply network construction. The distances between each two dies-clamps 4 beams 3 by the number of wires 1 of the split phase as a result will always be unequal, their length L is within the range of the following absolute values, namely L = (300 ÷ 650) mm.

The electrical resistance between any parts of the claimed strut is not more than 20 megohms, which is a prerequisite for strut dampers overhead power lines of high and ultra-high voltage from the point of view of their electrical safety. This condition was achieved by providing the possibility of changing in a wide range of electrical conductivity of the polymer the elastomers of the damper assemblies to the required values by introducing carbon black into the physicochemical composition of the elastomer, which is a highly dispersed amorphous carbon product, which ensures free draining of electric charges of static electricity and the absence of electrical discharges between spacer elements. As carbon black in the physicochemical composition of the polymer of the elastomers of the damper assemblies, channel, or furnace, or thermal soot is introduced into the physicochemical composition of the polymer of the elastomers of the damper assemblies in the range from 20% to 45% with respect to the percentage physicochemical composition of the rest polymer components elastomers damping nodes. An elastomer of such physicochemical composition (with additives of carbon black) provides both electrical safety and high mechanical characteristics of the proposed damper strut during its operation on overhead power lines. The electrical resistance, for example, between a beam and an elastomer or an elastomer and a housing of not more than 20 megohms allows static electricity to flow freely from the spacer elements and completely eliminates electrical discharges on its structures, at the same time the permissible radio interference voltage created by the spacer installed in the air passage line, remains within normalized limits, namely - 38 dB relative to 1 μV.

From the point of view of mechanical strength and operational reliability, the spacer can withstand mechanical stresses arising during installation and maintenance, without destroying its elements and irreversible deformations, leading to a decrease or loss of operability, and also restores its initial geometry and characteristics after emergency response and return to normal operating conditions, the following mechanical loads: compression to the center of the phase - from 1 ÷ 15 kN; tension from the center of the phase - from 1 ÷ 10 kN.

The radius R of the groove of the die-clamp 4 is selected with such accuracy according to the diameter D _prov. that the die-clamp 4 of the beam 3 can withstand without slipping the longitudinal forces (in the direction along the axis of the wire 1) arising from uneven stretching of the phase wires during operation, equal to 2.5 kN. Slip is the offset of the clamping plate by an amount equal to or greater than 1.0 mm.

The die-clamp 4 of the beam 3 of the spacer on the wire 1 can withstand without slipping the torque that occurs in the rotation modes of the spacer (in the vertical plane H). Scrolling is considered to be the displacement (scrolling) of the die-clamp 4 by more than 1 (one) diameter of the wire of the outer coil of wire 1.

The mechanical characteristics of the elastic elements from the atmospheric ozone-resistant elastomer of the damper nodes are ensured by the following: temporary tensile strength when tensile - not less than 16 MPa (1.63 kgf / mm ² ), elongation not less than 400%, hardness SHOR A - not less than 50 ÷ 60 conventional units, abrasion - 120 m ³ / TJ and tear resistance - at least 40 N / mm ² (4 kgf / mm ² ), designed to operate in the temperature range -60 ° C ÷ + 40 ° C.

The invention works as follows.

When vibrations (vibrations, sub-vibrations, etc.) occur, the spacers 3 rays begin to make rotational movements (rotate relative to their symmetry axes). As a result of this movement of the rays 3, the elastomeric disks 5 are deformed and the vibrational energy of the wires 1 is spent on overcoming (compensating) the internal deformations of the polymer material, for example, special rubber, the elastomeric disks 5 of the damping nodes, which effectively dampens the vibrations of the split phase wires arising on overhead lines power transmission. In particular, the inventive strut-damper together with the wire of the line for which it is designed is designed for resistance to aeolian vibration for less than 10 ⁸ oscillation cycles at a frequency of 20 Hz, and also for resistance to sub-vibrations of at least 107 oscillation cycles at a frequency of 1 to 2 Hz with an amplitude of 90% of the maximum beam deflection.

The inventive spacer-damper for wires of the split phase of an overhead power transmission line is characterized by high characteristics both from the point of view of ensuring effective damping of vibrations from low to high frequencies, and from the point of view of electric (free flow of electric charges of static electricity and the absence of electric discharges between its elements are ensured) and mechanical reliability during long-term operation

Information sources

1. Description of the invention to the patent “Spacer-suppressor for wires of the split phase of an overhead power line” No. 2331147, H02G 7/12, filed April 6, 2007, published August 10, 2008, Bull. Number 22.

2. Description of the invention to the patent “Spacer-damper for wires of an overhead power transmission line” No. 2375800, H02G 7/12, claimed on November 14, 2008, published on December 10, 2009.

3. Description of the invention to the patent “Spacer-suppressor for two wires of the split phase of an overhead power line” No. 2334327, H02G 7/00, claimed on 05.21.2007, published on 09.20.2008, Bull. No. 26.

4. Patent for utility model “Interphase insulating spacer” No. 136930, H02G 7/12, filed July 17, 2013, published January 20, 2014.

5. Description of the invention to the copyright certificate “Remote spacer-vibration damper of the wires of the split phase of an overhead power line” No. 1823057, H02G 7/12, 7/14, claimed 05.17.1990, published on 23.06.1993, Bull. Number 23.

6. European patent "Damping spacer for wires of the split phase of high voltage overhead power lines with a fiber optic cable inside the split phase" No. 308692, H02G 7/12, published on 09.29.1989.

7. Description of the invention to the copyright certificate “Remote strut-vibration damper” No. 1381636, H02G 7/12, 7/14, filed March 31, 1986, published March 15, 1988.

Claims (7)

1. Spacer-damper for wires of the split phase of an overhead power line, comprising a housing, beams according to the number of wires of the split phase with clamp dies at one end for attaching the spacers to the wires and damper assemblies at the other end, located in the grooves of the housing, each damper the assembly consists of elastomeric disks fastened by a vertical axis onto which covers with fasteners are mounted, characterized in that the housing made of aluminum or aluminum alloys is made in the form of a polygon, the sides of which They are arranged along a contour in the form of a broken line with the possibility of finding at least one damper assembly inside the aforementioned polygon in such a way as to ensure unequal lengths L of the distances between each two dies-clamps of rays along the number of wires of the split phase within the range of the following absolute values: L = (300 ÷ 650) mm, while the electrical conductivity of the polymer of the elastomers of the damper assemblies is achieved such that the electrical resistance between any parts of the spacer is not greater e 20 megohms by introducing into the physico-chemical composition of the elastomer, the carbon black being finely dispersed amorphous carbon product to provide free drainage of electric charges of the static electricity or the absence of electric discharges between the spacer elements. 2. A spacer according to claim 1, characterized in that channel, or furnace, or thermal soot is taken as carbon black in the physicochemical composition of the polymer of the elastomers of the damper assemblies. 3. The strut according to claim 2, characterized in that carbon black is introduced into the physicochemical composition of the polymer of the elastomers of the damper assemblies in the range from 20% to 45% with respect to the percentage physico-chemical composition of the remaining polymer components of the elastomer of the damper assemblies. 4. The spacer according to claim 1, characterized in that only one elastomeric disk is mounted on the vertical axis of the damper assembly. 5. The spacer according to claim 1, characterized in that the radius R of the groove of the die-clamp is selected with an accuracy of matching the wire diameter D _prov so that the die-clamp of the spacer on the wire can withstand without slipping, which is considered to be its displacement by an amount equal to or greater than 1 , 0 mm, longitudinal forces in the direction along the axis of the wire, equal to 2.5 kN, arising from uneven stretching of the phase wires during operation. 6. The spacer according to claim 1, characterized in that the elastic elements from the atmospheric ozone-resistant elastomer of the damper assemblies provide the following mechanical characteristics: temporary tensile strength when tensile - not less than 16 MPa (1.63 kgf / mm ² ), elongation not less than 400%, SHOR A hardness - not less than 50 ÷ 60 conventional units, abrasion - 120 m ³ / TJ and tensile strength - not less than 40 N / mm ² (4 kgf / mm ² ), designed to operate in the temperature range -60 ° C ÷ + 40 ° C. 7. The spacer according to claim 1, characterized in that it is designed for operation on overhead power lines of high and ultra-high voltage starting from a voltage of 750 kV and above.

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