RU2549271C2 - Multiresonant vibration damper - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to power industry, namely to vibration dampers for protection of wires and lightning protection cables of air power transmission lines, and also self-bearing fiber-optical communication cables. The damper consists of an elastic damping element (2), loads and a clip (3). Loads, various by weight, are designed as curved cores consisting of a middle piece and two edge rectilinear or curvilinear pieces which are fastened to an elastic damping element (2) by means of a branch pipe or can be directly fastened through a hole in each load. The branch pipe is located in the direction towards an elastic damping element from each load or attached from the outer side of a load.

EFFECT: in the offered damper due to an optimum ratio of masses and geometrical sizes of loads, and also lengths of their fixing on an elastic damping element its high amplitude-frequency characteristics are provided.

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Description

The invention relates to the field of electric power industry, in particular to multi-resonance vibration dampers designed to protect wires, cables of overhead power lines and self-supporting fiber-optic cables of communication lines.

Known vibration damper for the wires of overhead power lines containing an elastic damper element, loads made of a C-shaped rod shape and fixed at the ends of the elastic damper element, as well as a clip for suspension on the wire, fixed at one end to an elastic damper element, and the other attached to the wire [1].

This damper works as a standard Stockbridge vibration damper and at some frequencies it does not provide effective protection against vibration, since the absorber power is low in some frequency ranges.

The closest technical solution to the proposed one is a multi-resonant vibration damper for wires, cables of overhead power transmission lines and self-supporting fiber-optic cables of communication lines, containing an elastic damper element, at least two weights located on it and a clip designed to mount the damper on wire, cable or cable [2].

In this technical solution, which is the closest analogue to the proposed one, the mass ratios of the cargoes, their fastening lengths to the clamp, and the geometric dimensions of the cargo are not determined as optimal parameters of the damper, which affects its amplitude-frequency characteristics.

The applicant was faced with the task of developing a vibration damper, characterized by structural characteristics that are optimal both from the point of view of its manufacturing technology and operation on overhead power and communication lines, as well as optimal parameters regarding the degree of energy absorption of the elastic damper element. This technical result was achieved due to a new set of essential structural features of the claimed multi-resonant vibration absorber, given in the following claims: “multi-resonant vibration absorber for wires, cables of overhead power lines and self-supporting fiber-optic communication cable containing elastic damper element, at least at least two loads located on it and a clamp designed to install a damper on a wire, cable or cable; said clamp is displaced in any direction relative to its vertical axis of symmetry by a distance L, loads equal or different in mass are made in the form of curved rods having a section identical in the whole length or different in area and shape and consisting of an average half-ring shaped radius R or U-shaped or segment curved in a different geometric shape and two edge rectilinear or curvilinear segments of different lengths, parallel to each other in the same plane or located on each other relative to another at an angle α determined from a range of 0 ° ÷ 60 ° in one or more planes and attached to the elastic damper element by means of a pipe or through an opening in each load, said pipe being located in the direction towards the elastic damper element from each load or the pipe is connected from the outside of the load in the center of the aforementioned middle segment or with a shift by a distance B from its center, determined from the range 0 ÷ 60 mm, at an angle s to the horizontal axis, selected within 0 ° ± 45 , Wherein the weight ratio of M _1, M ₂ M ₁ equal loads / M ₂ = 0,3 ÷ 1,0, ₁ if M ≤M _2, the ratio of the lengths L _1, L ₂ from the exit point of the nozzle to the exit point from the clamp edge rectilinear segments of the elastic damper element located on opposite sides of the clamp is L ₁ / L ₂ = (M ₁ / M ₂ ) ^1/2 k, where k = 0.2 ÷ 1.8, the elastic damper element is made in the form rope twisted from steel wires with an anticorrosive metal or nonmetallic coating, the ratio of the length of the greater shoulder to the width of the cargo is within 1 ÷ 2.5, the ratio of the greater shoulder to less at the shoulder - within 1.0 ÷ 4.0, the radius of curvature R of the half ring of the middle segment of each load is equal to: R = (1.5 ÷ 4.0) D, where D is the thickness of the loads at the attachment point in the direction of the horizontal axis, and the free ends of the goods are rounded with a rounding radius R ₁ equal to R ₁ = (0.3 ÷ 0.8) D ₁ , where D ₁ is the smallest section of the cargo at the place of rounding; the ratio of the stiffness of the elastic damper element to the mass of the load is in the range (2.5 ÷ 12) 10 ⁶ N / mm ² kg; the said clip is displaced in any direction relative to its vertical axis of symmetry by a distance L, selected from a range from 0 to 200 mm. "

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 front view, perpendicular to the wire (cable, cable); figure 2 is the same as in figure 1, a top view; figure 3 shows an embodiment of the fastening of the cargo from its outer side.

The inventive vibration damper, designed to protect the wires (cables) 1 of overhead power lines, self-supporting fiber-optic communication cables fixed on the supports of overhead lines, consists of an elastic damper element 2, weights and a clip 3, designed to suspend the damper on the wire (cable, cable) 1 and located in the middle of the elastic damper element or with an offset in any direction relative to its vertical axis of symmetry 4. The elastic damper element 2 is made in the form of a rope twisted from steel ovolok with an anticorrosive metallic or non-metallic coating

Equal or different in mass loads are performed in the form of curved rods having the same section along the entire length or different section in area and shape. They consist of a middle shaped, for example, half-ring of radius R segment 5 and two edge rectilinear or curved segments 6, 7, which can be of different lengths and can be parallel to each other in the same plane or can be located relative to each other at an angle α = 0 ° ÷ 60 ° in one or several planes. Sections 6, 7 of the goods are attached to the elastic damper element 2 by means of a pipe 8 or can be attached directly through an opening (not shown) in each cargo. The pipe 8 is located in the direction towards the elastic damper element from the half ring 5 of the cargo or it can be connected on the inner or outer side of the middle segment 5 of the cargo at its center 9 or with a shift by a distance of B = 0 ÷ 60 mm from the center 9 of the half ring 5 of the cargo under angle s = 0 ° ± 45 ° to the horizontal axis 10 of the elastic damper element.

When mounting the elastic damper element outside the cargo (Fig. 3), a hole 11 is made in the cargo, and the pipe 8 is attached to the outer surface of the cargo (half ring 4).

Cargoes are selected of equal or different masses M ₁ , M ₂ with the ratio M ₁ / M ₂ = 0.3 ÷ 1.0 provided M ₁ ≤ M ₂ , the free ends of the goods are rounded with a radius of rounding R ₁ = (0.3 ÷ 0.8) D (D is the diameter of the rod segments 6, 7 weights), the ratio of the length of the greater shoulder f _{1 of the} load to its width h is in the range 1 ÷ 2.5, and the ratio of the greater shoulder f _{1 of the} load to the smaller shoulder f ₂ - within 1.0 ÷ 4.0. The ratio of the lengths L ₁ , L ₂ from the exit point 12 from the pipe 8 to the exit point 13 from the clamp 2 of the edge segments 6, 7 of the elastic damper element is defined as: L ₁ / L ₂ = (M ₁ / M ₂ ) ^1/2 k, where k = 0.2 ÷ 1.8.

The proposed multi-resonance vibration damper is assembled as follows: the clamp 2 is fixed at the calculated point on the elastic damper element, on which the nozzles 8 are then installed; weights M ₁ and M ₂ are attached to the nozzles 8. All connections are integral.

The invention works as follows.

The vibration damper of the proposed type acts on the principle of absorption of vibration energy of a wire (cable, cable) and its thermal dissipation due to friction between the wires of an elastic damper element. The efficiency of the absorber is determined by its amplitude-frequency characteristics. In the proposed technical solution, due to new structural, stiffness and technological features of manufacturing an elastic damper element, the optimal ratio of mass and geometric dimensions of the cargo, as well as the lengths from the point of their fastening on the elastic damper element to the point of fastening the clamp on the elastic damper element, high amplitude frequency characteristics of the damper in a wide frequency range (multi-resonant vibration damper)

MZVA CJSC has launched serial production of the proposed multi-resonance vibration dampers.

Information sources

[one]. US patent No. 3052747 "Aeolian Vibration Dampers", class 174-42, published 04.09.1962.

[2]. Patent of the Russian Federation No. 2312439 “Multi-resonance vibration damper”, class H02G 7/14, filed June 21, 2006, published December 10, 2007.

Claims (3)

1. A multi-resonant vibration damper for wires, cables of overhead power transmission lines and self-supporting fiber optic cables of communication lines, comprising an elastic damper element, at least two weights located on it and a clip intended for mounting the damper on a wire, cable or cable, characterized the fact that the said clamp is displaced in any direction relative to its vertical axis of symmetry, equal or different in mass loads are made in the form of curved rods having the same over the entire length cross-section or different in area and in shape and consisting of a middle half-ring having a radius of R or a U-shaped segment and two edge rectilinear or curved segments of various lengths, parallel to each other in the same plane or located relative to each other under the range 0 ÷ 60 ° angle α, in one or more planes and attached to the elastic damper element by means of a pipe or through an opening in each load, said pipe being located in the direction of elastic the damper element from each load or pipe is connected from the outside of the load to the center of the aforementioned middle segment or with a shift by a distance B from its center, determined from the range B = 0 ÷ 60 mm, at an angle s to the horizontal axis, selected within 0 ° ± 45 °, while the mass ratio M ₁ , M _{2 of the} goods is M ₁ / M ₂ = 0.3 ÷ 1.0, if M ₁ ≤M ₂ , the ratio of the lengths L ₁ , L ₂ from the exit point from the pipe to the exit point from the clamp of the edge rectilinear segments of the elastic damper element located on opposite sides of the clamp is L ₁ / L ₂ = (M ₁ / M ₂ ) ^1/2 k, where k = 0.2 ÷ 1.8, the elastic damper element is made in the form of a rope twisted from steel wires with an anticorrosive metal or nonmetallic coating, the ratio of the length of the greater shoulder of the load to its width is within 1 ÷ 2.5, the ratio the greater shoulder of the load to the smaller shoulder - within 1.0 ÷ 4.0, the radius R of the middle rod, having the shape of a half-ring of each cargo, is: R = (1.5 ÷ 4.0) D, where D is the thickness of the cargo in place fastening in the direction of the horizontal axis, and the free ends of the goods are rounded with a radius of rounding R ₁ equal to R ₁ = (0.3 ÷ 0.8) D ₁ , where D ₁ is the smallest section of the cargo at the point of curvature 2. The damper according to claim 1, characterized in that the ratio of the stiffness of the elastic damper element to the mass of the load is in the range (2.5 ÷ 12) 10 ⁶ N / mm ² kg. 3. The damper according to claim 1, characterized in that said clip is displaced in any direction relative to its vertical axis of symmetry by a distance L, selected from a range from 0 to 200 mm.

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