RU2533657C1 - Vibration damper - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the power industry, in particular to wire vibration dampers, lightning protection cables of overhead power lines, self-supporting fibre optic communication cables. The vibration damper is configured as a hollow body 1 of any geometrical shape, the inner cavity of which is filled with an antifreeze liquid or inert gas. The housing 1 is connected to terminal 2 fixed on the wire, lightning protection cable or communication cable and is separated with membranes (plates) 3 into several chambers 4 with throttling holes 5; loads 6 are fixed on the membranes 3, and membranes 3 are fixed in a position using a metal coil spring 7. The entire structure of membranes 3 with loads 6 and spring 7 forms the so-called damping unit that makes possible operation of the vibration damper on overhead lines. To ensure optimal performance of the vibration damper, the weight (kg) of membranes 3 and loads 6 are selected according to the following ratio: (0.0001÷0.0025)f, where f (Hz) is the maximum vibration frequency inherent to wires, lightning protection cables, communication cables with which the damper is used, the ratio of the diameter of the membrane to its thickness of (3÷500), the ratio of the diameter of holes in each membrane to the diameter of each membrane of (0.001÷0.1).

EFFECT: invention provides a vibration damping over a broad frequency range.

5 cl, 1 dwg

Description

The invention relates to the field of electric power, namely to vibration dampers designed to protect uninsulated wires and lightning protection cables of overhead power lines, as well as self-supporting fiber-optic communication cables fixed to supports of overhead lines.

Known unified vibration damper for wires and cables of overhead power lines containing an elastic damper element, at least two loads secured at the ends of the elastic damper element by crimping a conical sleeve in a conical hole of the load and made in the form of a body of revolution, consisting of two end parts in the form of a circular barrel and a ball, respectively, connected by a link in the form of a single-cavity hyperboloid, and a clip intended for suspension on a wire, fixed in the middle of the control GoGo damper element and via gripping dies and the wire line, wherein the weight of goods, the distance of their fixing on an elastic damper element, the weight and diameter of the end portions of the cargo are different in magnitude from each other [1].

This vibration damper is characterized by poor amplitude-frequency characteristics due to the low degree of energy absorption of the elastic damper element.

Also known is a vibration damper for wires and cables of overhead power transmission lines, comprising an elastic damper element with at least two loads in the form of bodies of revolution fixed at its ends and a clip designed to suspend goods on a wire or line cable; each load consists of a ball with a diameter D with a cut segment made at a distance L ₁ from its center, a second ball with a diameter d <D located at a distance L = (1.45 ÷ 1.65) D from the first ball and connecting the ball links with the longitudinal axis passing through their centers and the angle of inclination α relative to the vertical axis of the large ball of the load, the elastic damper element is fixed in the hole of each ball of large diameter parallel to its vertical axis, by means of a conical part at the end of the cylindrical sleeve for a length of 1, loads made with the mass ratio m ₁ = (1.01 ÷ 1.19) m ₂ , where m ₁ and m ₂ are the masses of the first and second weights, respectively, the length L _tr . _{1 of the} elastic damper element from the clamp body to the point of its closure in the first the load is not equal to the length L _tr . _{2 of the} elastic damper element from the clamp body to the point of termination in the second load, and the indicated lengths are selected from the following relation: L _tr. 1 = (0.92 ÷ 0.99) L _tr . ₂ , and goods with a greater mass m ₁ is mounted on an elastic damper member at length L _tr.1 and goods with a smaller mass m ₂ is mounted on an elastic damping element longer _tr.2 length L, respectively, the weight of higher mass m ₁ is deployed at an angle relative to the vertical damper axis passing through the longitudinal axis of the elastic damping element, α ₁ = (50 ÷ 80 °), and the goods with a smaller mass m ₂ is deployed at an angle relative to the vertical axis α of the damper passing through the longitudinal axis of the elastic damper element, α ₂ = (40 ÷ 70 °) so that the goods were deployed relative to each other by the total angle α _sum. = (90 ÷ 150 °) [2].

The disadvantage of this vibration damper is also the low energy absorption capacity of the elastic damper element, since the manufacturing process of the elastic damper element (steel rope) does not provide its necessary relative bending stiffness and the optimal degree of dissipation, which ultimately leads to a significant reduction in the amplitude-frequency damper characteristics; in addition, the damper does not meet the requirements of ensuring standard values for the strength of sealing loads on the elastic damper element, which leads to frequent drops of goods to the ground during operation of overhead power lines.

The closest technical solution with respect to the proposed one is a vibration damper for protecting wires, lightning protection cables of overhead power lines and self-supporting fiber-optic communication cables, containing metal, or plastic material, or composite material, a round or other geometric body made in the form hollow body, filled with non-freezing, with the ability to flow in space environment and rigidly or with limited strength connected to a clamp for fastenings on a wire, lightning protection cable or communication cable, as well as a damper assembly made in the form of at least one membrane having at least one throttling hole, with weights fixed on it and equipped with a device ensuring the membrane is in a predetermined position starting position [3].

This technical solution is structurally very difficult because of the need to practically implement the task of suppressing all types and forms of vibration (vibration, dance, vibrations caused by the aerodynamic trail) with such a universal damper, which predetermines significant production costs in its manufacture.

The applicant set himself a specific task, namely, to develop a new simpler design of a vibration damper, characterized by high amplitude-frequency characteristics under the action of vibrational vibrations in a wide frequency range (from 4 to 100 Hz). This positive technical result was achieved due to a new set of essential structural features of the claimed vibration damper, given in the following claims: “vibration damper for protecting wires, lightning protection cables of overhead power lines and self-supporting fiber-optic communication cables containing metal or plastic material , or from a composite material, the body is round or other geometric shape, made in the form of a hollow body, filled with frost-free it, with the ability to flow in space and rigidly or with limited strength connected to a clip for fastening to a wire, lightning protection cable or communication cable, as well as a damper assembly made in the form of at least one membrane having at least one throttling hole, with the loads fixed on it and equipped with a device ensuring the membrane is in a predetermined initial position; the housing is sealed or with openings made on its surface, and the aforementioned membranes, which are plates made of metal alloys, or rubber, or silicone rubber, or of a composite non-reinforced material or of a composite material reinforced with metal or polymer elements, inner the body volume is divided into at least two or more chambers of the same or different volume and shape, with the mass, kg, fixed on the membranes of the cargo or mass, kg, s the number of membranes in the absence of loads is chosen equal to from the ratio: (0.0001 ÷ 0.0025) f, where f, Hz is the maximum vibration frequency inherent in wires, lightning protection cables, communication cables for which a damper is intended, the ratio of the diameter of the membrane to its thickness is (3 ÷ 500), the ratio of the diameter of the holes in each membrane to the diameter of each membrane is (0.001 ÷ 0.1); a device providing the membrane in a predetermined initial position is made in the form of a metal twisted spring; a protective anticorrosive metal or polymer coating is applied to the outer and inner surfaces of the housing; a protective anticorrosion coating in the form of silicone rubber is applied to the outer and inner surfaces of the housing; the internal cavity of the body is filled with non-freezing liquid or inert gas. "

The invention is illustrated by drawings, where in Fig.1 is a General view of a vibration damper, made according to the present invention, a side view along the wire (lightning protection cable, cable) lines.

The inventive vibration damper, designed to protect uninsulated wires (lightning protection cables) of overhead power lines, self-supporting fiber-optic communication cables fixed to the supports of overhead lines, is made in the form of a hollow made of metal, plastic or composite material of the housing 1, which is any body geometric shape, for example round, the inner cavity of which is filled with a non-freezing liquid or inert gas. The housing 1 can be made completely airtight or with holes (not shown) made on its surface, rigidly or with limited strength connected to a clip 2 fixed to a wire, lightning protection cable or communication cable (not shown) and divided by membranes 3 into several chambers 4, isolated from the external environment and from each other. Membranes 3 are plates, for example round, made of various materials such as metal alloys, rubber, silicone rubber, composite non-reinforced material, composite material reinforced with metal or polymer elements in which throttling holes are made 5. Weights can be attached to membranes 3 6, while fixing the membranes 3 in a predetermined position is ensured by a metal coil spring 7. The whole structure of the membranes 3 with loads 6 and spring 7 forms the so-called damper the first unit providing the damper work to prevent vibrations on overhead lines.

To ensure optimal operation of the damper in vibration suppression, the mass (kg) of loads 6 fixed on the membranes 3 or the weights of the membranes 3 themselves, in the absence of weights 6, are selected from the following relation: (0.0001 ÷ 0.0025) f, where f (Hz) - the maximum vibration frequency inherent in the wires, lightning protection cables, communication cables for which the damper is intended, as well as the ratio of the diameter of the membrane to its thickness, which is (3 ÷ 500), the ratio of the diameter of the holes in each membrane to the diameter of each membrane, vlyayuschee (0,001 ÷ 0,1).

On the outer and inner surfaces of the housing 1 is applied a protective anti-corrosion metal or polymer coating in the form of, for example, silicone rubber.

The invention works as follows.

Vibration absorber is the main means of damping aeolian vibration in overhead power lines and fiber optic communication lines. Vibration dampers of the proposed type act on the principle of energy dissipation of a wire, lightning protection cable or fiber-optic communication cable as a result of friction arising during the flow of inert gas or non-freezing fluid from one chamber 4 to another chamber of the hollow damper body 1 through throttling holes 5 during periodic movement membranes 3 caused by vibration of a wire, lightning protection cable or fiber optic communication cable, as well as internal friction in an inert gas or non-freezing liquid, oznikayuschego due to compression and decompression processes in the cells 4 of the hollow body 1 of the absorber. At the same time, the effectiveness of the vibration damper is determined by its amplitude-frequency characteristics (AFC), which are measured and studied in order to study the properties of the absorbers in special automated test complexes (vibration stands) that make it possible to record and study the dynamic characteristics of the absorbers, as well as to measure their stiffness and dissipative properties. In the proposed damper it was possible to achieve higher damping characteristics with sufficient simplicity of its design.

Information sources

[1] Description of the invention to patent No. 2249284 “Unified vibration damper” Dubinin L.A. et al., H02G 7/14, claimed: 03/18/2003, published: 03/27/2005, Bulletin No. 9.

[2] Description of the invention to patent No. 2394325 “Vibration absorber” Yadgarov UE and others, H02G 7/14, claimed: 05.25.2009, published: 07/10/2010.

[3] Description of the invention to patent No. 2412511 “Vibration damper”, H02G 7/14, claimed: 03/26/2010, published: 02/20/2011

Claims (5)

1. Vibration absorber for protecting wires, lightning protection cables of overhead power lines and self-supporting fiber-optic communication cables, containing metal, or plastic material or composite material, a round or other geometric body made in the form of a hollow body filled with non-freezing, having the ability to flow in space with medium and rigidly or with limited strength connected to a clip for fixing on a wire, lightning protection cable or communication cable, as well as a damp a node made in the form of at least one membrane having at least one throttling hole, with weights fixed on it and equipped with a device ensuring the membrane is in a predetermined initial position, characterized in that the housing is sealed or holes made on its surface, and the aforementioned membranes, which are plates made of metal alloys, or of rubber, or of silicone rubber, or of composite non-reinforced material, or composite material reinforced with metal or polymer elements, the internal volume of the body is divided into at least two or more chambers of the same or different volume and shape, with the mass, kg, mounted on the membranes of the cargo or the mass, kg, of the membranes in the absence of goods is selected equal from the ratio: (0.0001 ÷ 0.0025) f, where f, Hz is the maximum vibration frequency inherent in wires, lightning protection cables, communication cables for which a damper is designed, the ratio of the diameter of the membrane to its thickness is (3 ÷ 500 ), from Ocean diameter holes in each diaphragm to the diameter of each membrane (0,001 ÷ 0,1). 2. The damper according to claim 1, characterized in that the device, providing the membrane is in a predetermined initial position, is made in the form of a metal coil spring. 3. The damper according to claim 1, characterized in that a protective anticorrosive metal or polymer coating is applied to the outer and inner surfaces of the housing. 4. The damper according to claim 3, characterized in that a protective anticorrosion coating in the form of silicone rubber is applied to the outer and inner surfaces of the housing. 5. The damper according to claim 1, characterized in that the internal cavity of the housing is filled with a non-freezing liquid or inert gas.