RU2628999C1 - Limitation method of single wires galloping intensity of overhead transmission line and device for its implementation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: method includes in suspending of the pendulum dampers (3) and the pendulum stabiliser dampers (4) at the wire (1) of the span (2). The pendulum dampers (3) are fixed to the wire (1) in the horizontal plane near the ends (8, 9) of the span (2) or from the attachment points (10) of the pendulum stabiliser dampers (4). The pendulum dampers (3) are installed in pairs in staggered state in such a way, that one pair of the pendulum dampers (3) is to the left from the wire (1), and the next pair of the pendulum dampers (3) is to the right from the wire (1). The number of pendulum stabilisers (4) is chosen from L/150 to L/250, where L is the line span length (2) in meters, and its moment of inertia exceeds the moment of inertia of the pendulum dampers (3). The pendulum dampers and the pendulum stabiliser dampers consist of the wire spirals set, bent together in the form of the letter Ω and winding by its ends on the wire.

EFFECT: efficiency increase of the wires vibration oscillations suppression in the wide frequency range.

7 cl, 4 dwg

Description

The invention relates to the field of electric power, and in particular to methods and devices for limiting the intensity of dancing of single wires of overhead power lines.

A known method of damping the dancing of wires in the span of the power line by affecting the torsional vibrations of the wire, characterized in that in order to increase efficiency, the wire in the sections of the span is twisted relative to the longitudinal axis, so that the direction of the twist of the wire in each of the sections is opposite to the direction of the twist of the wire in adjacent sections , and fix in this state, for example, using eccentric weights [1].

This well-known method of extinguishing the dancing of wires in the span of a power line, seemingly promising from a theoretical point of view, is difficult to implement in practice (the difficulty of twisting the wires in different directions due to the need to use appropriate devices) and therefore did not find distribution when building overhead power lines.

Also known is an overhead power line containing single wires on which the main eccentric loads are rigidly fixed, the centers of gravity of which are located outside a vertical plane passing through the longitudinal axis of the wire, and neighboring loads are placed on different sides from the specified vertical plane, characterized in that for the purpose increasing reliability by preventing tipping and untwisting of the main eccentric loads during dancing or other types of operational and climatic influences, m Between each two adjacent eccentric weights, additionally introduced twisting limit weights are installed, each of which is rigidly fixed to the wire by means of traction and is eccentrically located under the wire [2].

In the above-mentioned overhead power line, for the damping of the dancing of the single wires of the overhead power line, constructions of eccentric weights and limiter weights fixed on the wire are used to prevent the former from tipping over. This method of damping the dances of single wires of overhead power lines is ineffective due to the structural and technological complexity of manufacturing eccentric loads and limiter loads, as well as difficulties in their installation on the line.

The applicant set himself the task of developing a method and device for limiting the intensity of dancing of single wires of overhead power lines, which would significantly differ from known technical solutions of a similar purpose with a higher degree of effectiveness of suppressing vibrational vibrations in a wide frequency range, simplicity of design and technological design of the device (due to the use of spiral clamps), with which the applied method is implemented, as well as the possibility implementation of the proposed technical solution on overhead power lines of various voltage classes. This positive technical result was achieved due to the combination of essential features of the proposed method for limiting the dancing intensity of single wires of an overhead power line and the device for its implementation, presented in the following claims: "a method of limiting the dancing intensity of single wires of an overhead power line, which consists in suspending the elements of at least two types on a wire span line with centers of gravity located eccentrically along the longitudinal axis of the wire and dividing the span between adjacent supports into at least two unequal intervals, while the elements of the first type, called pendulum dampers, are fixed on the wire mainly in a horizontal plane near the ends of the span or from the attachment points of the elements of the second type, called pendulum dampers-stabilizers located below the wire in a predominantly vertical plane, while the pendulum dampers are installed in pairs in a checkerboard pattern so that one a pair of dampers is located to the left of the wire, and the next pair of dampers is located to the right of the wire, and the number of pendulum dampers-stabilizers is chosen in the range from L / 150 to L / 250, where L is the length of the line span in meters, and their moment of inertia exceeds the moment of inertia pendulum dampers and is selected so that the deviation of the center of mass of the pendulum absorber-stabilizer from the vertical is not more than 10 ° ÷ 15 °; pendulum dampers are suspended on protectors made of spiral reinforcing rods, fixed to the wire and designed to protect the wire from wear, fatigue damage and from drawing during operation; the moment of inertia of the pendulum dampers-stabilizers exceeds the moment of inertia of the pendulum dampers within 0.5 ÷ 1.0 order; at least two pairs of pendulum dampers are suspended on the wire so that the center of mass of each of the first pair is located outside the vertical plane passing through the longitudinal axis of the wire, and each of the neighboring pairs of pendulum dampers is suspended on the other side of the said vertical plane unequal distances from the end of the span of the line or from the pendulum absorber-stabilizer separating them; A device for limiting the dancing intensity of single wires of an overhead power line is made in the form of a series of pendulum dampers and pendulum dampers-stabilizers, while each pendulum dampener and each pendulum dampener-stabilizer consists of a set of wire spirals bent together in the shape of the letter Ω and wound with their ends on a wire with at least three loads made in the form of spherical or ellipsoidal bodies of revolution and fixed by means of the above spirals in the middle part of the ma pendulum damper and pendulum damper-stabilizer; the stiffness of the wire spirals of the elastic strands of pendulum dampers is selected such that, in case of vibration, the load is displaced relative to the point of static equilibrium in the direction radial and tangential to the longitudinal axis of the wire due to the radial and tangential sliding of the load relative to the wire spirals; in which each load of the pendulum damper-stabilizer consists of at least three spherical or ellipsoidal bodies of revolution. "

The invention is illustrated by drawings, where in FIG. 1 shows an arrangement of dampers for short spans (150-250 m), which provide dancing intensity limits for single wires of overhead power lines made in accordance with the present invention; in FIG. 2 is the same as in FIG. 1, a variant of the arrangement of absorbers for long spans (350-500 m) of overhead power lines; in FIG. 3 schematically (without loads) shows the design of a pendulum damper made in accordance with the present invention; in FIG. 4 is the same as in FIG. 3, the design of the pendulum damper-stabilizer.

The inventive method of limiting the intensity of dancing of single wires of an overhead power transmission line consists in suspending on the wire 1 of the span 2 lines of pendulum dampers 3 and pendulum dampers-stabilizers 4. The centers of gravity of the dampers 3, 4 are located eccentrically relative to the longitudinal axis of the wire 1 and divide the span 2 between adjacent supports 5 , 6 at unequal intervals. The pendulum dampers 3 are fixed on the wire 1 mainly in the horizontal plane 7 (Fig. 3) near the ends 8, 9 of the span 2 or from the attachment points 10 of the pendulum dampers-stabilizers 4, which, in turn, are located below the wire 1 in a predominantly vertical plane 11 (Fig. 4). Pendulum dampers 3 are installed in pairs in a staggered manner so that one pair of pendulum dampers 3 is located to the left of wire 1, and the next pair of pendulum dampers 3 is located to the right of wire 1 (Fig. 1). The number of pendulum dampers-stabilizers 4 is chosen in the range from L / 150 to L / 250, where L is the span of the line 1 in meters, and their moment of inertia exceeds the moment of inertia of the pendulum dampers 3 and is selected so that the deviation of the center of mass of the pendulum damper-stabilizer 4 from the vertical was not more than 10 ° ÷ 15 °.

Pendulum dampers 3 are suspended on protectors made of spiral reinforcing rods, which, as a rule, are fixed on the wire to protect the wire from wear, fatigue damage and from drawing during operation.

The moment of inertia of the pendulum dampers-stabilizers 4 exceeds the moment of inertia of the pendulum dampers 3 within 0.5 ÷ 1.0 order.

It is possible to suspend the dampers 3, 4 when two pairs of pendulum dampers 3, 4 are suspended on wire 1 so that the center of mass of each pendulum dampener 12, 13 of the first pair is outside the vertical plane 11 passing through the longitudinal axis of wire 1, each of a pair of pendulum absorbers 14, 15 adjacent to it are suspended on the other side of the vertical plane 11 at unequal distances (λ ₁ , λ ₂ ) from the end 8 of the span 1 of the line or from the pendulum absorber-stabilizer 16. separating them (Fig. 2) .

Pendulum dampers 3 and pendulum dampers-stabilizers consist of a set of wire spirals 17, bent together in the form of the letter Ω and wound with their ends 18, 19 on the wire 20, 21, respectively (Fig. 3 and Fig. 4). In the middle part of the pendulum damper 3 and the pendulum damper-stabilizer 4, at least three weights can be secured by means of spirals 17, for example, in the form of spherical or ellipsoidal bodies of revolution (not shown).

The invention works as follows.

The stiffness of the wire spirals 17 of the elastic strands of pendulum dampers 3 is selected such that, in case of oscillations, provide a shift of the load relative to the point of static equilibrium in the radial and tangential directions relative to the longitudinal axis of the wire due to the radial and tangential slip of the load relative to the wire spirals 17. In this case, the main active element damping are pendulum dampers 3, which are located according to the proposed schemes along the length of the span 2. Their total mass n Evelica with respect to the mass of the protected wire 1, and due to their horizontal arrangement, the sensitivity to vibrations such as dancing is high, i.e. they begin to work immediately when a type of dance occurs. To maintain a stable horizontal position of the pendulum dampers 3, the pendulum dampers-stabilizers 4 are used, and they have a large mass and dimensions, and are located near the pendulum dampers 3. The pendulum dampers 3 and the pendulum dampers-stabilizers 4 are equipped with vibration suppression devices operating on the principle of friction dampers , i.e. they also work as vibration dampers for wires of overhead power lines.

The proposed method for limiting the intensity of dancing of single wires of an overhead power line and a device for its implementation are distinguished by the structural and technological simplicity of their implementation in the manufacture and operation, as well as cost-effectiveness, since both pendulum dampers and pendulum dampers-stabilizers are made according to the same structural design, which simplifies and reduces the cost of production of this technical solution.

Information sources

1. Description of the invention to copyright certificate No. 364274 "Method of damping dancing wires", H02G 7/14, claimed 05.05.66, published on 07.25.77. Bulletin No. 27.

2. Description of the invention to copyright certificate No. 1584021 "Overhead power line", H02G 7/14, claimed 02.09.88, published 07.08.90. Bulletin No. 29.

3. Description of the invention to the patent of the Russian Federation No. 229893 "Limiter of icing and vibrations of wires of overhead power lines", H02G 7/14, filed July 30, 2003, published April 10, 2005.

4. Description of the invention to copyright certificate No. 674136 "Overhead power line", H02G 7/14, claimed 09.03.77, published 15.07.79. Bulletin No. 26.

5. Description of the invention to the patent of the Russian Federation No. 2412511 “Vibration damper”, H02G 7/14, filed March 26, 2010, published February 20, 2011.

6. Description of the invention to copyright certificate No. 1073835 "Overhead power line", H02G 7/00, H02G 7/14, claimed 05.07.1982, published 02.15.1984.

7. Description of the invention to the patent of the Russian Federation No. 2365009 "Damper dances of wires overhead power lines", H02G 7/14, claimed 08.07.2008, published 08.20.2009. Bulletin No. 23.

8. Description of the invention to the patent of the Russian Federation No. 2549204 “Device for limiting the dancing of wires, lightning protection cables of overhead power lines and fiber optic cables of overhead lines, as well as a span equipped with such devices (Options)”, H02G 7/14, declared June 19, 2013 published on 04/20/2015.

9. US patent No. 4159393, class 174-42 (H02G 7/14), published 06/26/1979.

10. US patent No. 3400209, class 174-42 (H02G 7/14), published 03.09.1968.

11. US patent No. 2469167 "Vibration damper", class 174-42 (H02G 7/14), published 05/03/1949.

12 US Patent No. 3662084 “Vibration Absorber”, class 174-42 (H02G 7/14), published on 05/09/1972.

Claims (7)

1. A method of limiting the intensity of dancing of single wires of an overhead power line, which consists in suspending elements of at least two types on a line span wire with centers of gravity located eccentrically relative to the longitudinal axis of the wire and dividing the span between adjacent supports by at least two unequal intervals, this, the elements of the first type, called pendulum dampers, are fixed on the wire mainly in the horizontal plane near the ends of the span or from the attachment points of the ele entom of the second type, called pendulum dampers-stabilizers, located below the wire in a predominantly vertical plane, while the pendulum dampers are installed in pairs in a checkerboard pattern so that one pair of dampers is to the left of the wire and the next pair of dampers is to the right of the wire, and the number pendulum dampers-stabilizers are selected in the range from L / 150 to L / 250, where L is the span of the line in meters, and their moment of inertia exceeds the moment of inertia of the pendulum dampers and choose so that the deviation of the center of mass of the pendulum damper-stabilizer from the vertical is not more than 10 ° ÷ 15 °. 2. The method according to p. 1, in which the pendulum dampers are hung on the protectors made of spiral reinforcing rods, fixed on the wire and designed to protect the wire from wear, fatigue damage and from drawing during operation. 3. The method according to p. 1, in which the moment of inertia of the pendulum dampers-stabilizers exceeds the moment of inertia of the pendulum dampers within 0.5 ÷ 1.0 order. 4. The method according to p. 1, in which at least two pairs of pendulum dampers are suspended on the wire so that the center of mass of each of the first pair is located outside the vertical plane passing through the longitudinal axis of the wire, and each of the adjacent pair of pendulum dampers suspended on the other side of the said vertical plane at unequal distances from the end of the span of the line or from the pendulum damper-stabilizer separating them. 5. A device for limiting the dancing intensity of single wires of an overhead power line is made in the form of a series of pendulum dampers and pendulum dampers-stabilizers, while each pendulum dampener and each pendulum dampener-stabilizer consists of a set of wire spirals bent together in the shape of the letter Ω and wound with their own ends on a wire with at least three weights made in the form of spherical or ellipsoidal bodies of revolution and fixed by means of the above spirals in the middle part ayatnikovogo damper and pendulum absorber stabilizer. 6. The device according to claim 5, in which the stiffness of the wire spirals of the elastic strands of the pendulum dampers is selected such that, in case of vibration, the load is displaced relative to the point of static equilibrium in the directions radial and tangential to the longitudinal axis of the wire due to the radial and tangential sliding of the load relative to the wire spirals. 7. The device according to claim 5, in which each load of the pendulum damper-stabilizer consists of at least three spherical or ellipsoidal bodies of revolution.

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