RU2483408C1 - Vibration damper - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: damper comprises an elastic damping element (a calendered rope) 2, weights 3, 4 and a clamp made in the form of a body 5 and a pressing plate 6 and designed for damper suspension. Weights 3, 4 are made in the form of a flat L-shaped cantilever 7 with a cone or a cylindrical shoulder 8, ending with a body of spherical shape 9. Weights are turned relative to the vertical line to opposite sides in direction of rope 2 winding by an identical angle a or an angle a different in value for each weight within the limits from 35° to 55°, and the ratio of internal frequencies of oscillations f₁ and f₂ of weights 3, 4 is determined by the condition f₁:f₂=1.0÷1.5. A part 11 of the clamp body 5 is made in the form of a hook with an internal radius, which is not less than the maximum diameter of wires (ropes, cables), having a coverage angle β=(175±5)° and turned relative to their longitudinal axis by an angle γ=10°÷70°.

EFFECT: vibration damper provided for good amplitude-frequency characteristics due to high ability of an elastic damper element to power absorption.

9 cl, 3 dwg

Description

The invention relates to the field of electric power industry, in particular to vibration dampers designed to protect uninsulated wires and lightning protection cables of overhead power transmission lines, as well as self-supporting fiber-optic communication cables suspended on 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 to 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 elastic of the damper element and with the help of a gripper and a die on the line wire, the mass of the cargo, the distance of its fastening on the elastic damper element, the weight and diameter of the end parts of the cargo differ in size from each other [1].

The specified vibration damper has significant drawbacks associated with its low amplitude-frequency characteristics, due to the weak ability to energy absorption of the elastic damper element, which in turn limits the range of practical use of vibration dampers of this type of design.

The closest technical solution to the proposed one is a vibration damper to protect uninsulated wires and lightning protection cables of overhead power transmission lines, as well as self-supporting fiber-optic communication cables suspended on support of overhead lines, containing an elastic damper element in the form of a rope twisted from wires with fixed its ends with at least two weights and in the middle with a clamp made in the form of a housing and a pressure plate, designed to suspend the damper on the wire, m lniezaschitnom wire rope or cable [2].

The main disadvantage of this vibration damper is the low energy absorption capacity of the elastic damper element due to non-optimal values of its relative bending stiffness and dissipation, which ultimately leads to a significant decrease in the amplitude-frequency characteristics of the damper.

The applicant set himself the task of developing a new design of vibration damper, which would be characterized by higher technological and operational characteristics in terms of simplification and cost reduction of the damper production process, as well as a significant improvement in the self-damping properties of the elastic damper element. This technical result was achieved due to a new set of essential design features of the claimed vibration damper, given in the following claims “vibration damper for protecting bare wires and lightning protection cables of overhead power lines, as well as self-supporting fiber-optic communication cables suspended on overhead towers, containing an elastic damper element in the form of a rope twisted from wires with at least two weights fixed at its ends and gray dine clamp embodied as a housing and a pressing ram, designed for the absorber suspension on a wire, rope or cable lightning; each load is made in the form of a flat L-shaped console with a conical or cylindrical shoulder ending with a spherical body, and the planes in which the loads are located are turned relative to the vertical in opposite directions in the direction of the rope twist at the same or different angle α for each load in the range from 35 ° to 55 °, the ratio of the natural oscillation frequencies f ₁ and f ₂ is selected from the cargo condition f _1: f ₂ = 1,0 ÷ 1,5, elastic damper member is made of calendered rope providing its maxi energy-absorbing ability, and the part of the clamping housing in contact with the wire, lightning protection cable or cable is made in the form of a hook with an inner radius not less than the maximum diameter of the mounted wires, lightning protection cables or cables having a coverage angle equal to β = (175 ± 5) ° around the circumference of the wire, lightning protection cable or cable and rotated relative to their longitudinal axis by an angle γ = 10 ° ÷ 70 ° so that the loose damper is held in suspension, part of the clamping die plate, the contact ayuschayasya with wire, rope or cable lightening, formed as at least two faces of the hexahedron with the inner radius of its circumscribed circle equal to the minimum diameter of wire mounted, lightning protection cable or cables, wherein the clamp is provided with a retainer designed to avoid loosening; the elastic damper element is made in the form of a section of a 19-wire single lay rope; the case and the pressure die are made by molding or from a pressed profile with subsequent processing on sandblasting or shot blasting machines; the elastic damper element in the lower part of the clamp housing is rigidly fixed by crimping; the clamp of the clamping die is made in the form of a bolt with a fine thread and one or two compensation spring washers; the ends of the elastic damper element are fixed in the loads by welding or crimping cylindrical bushings previously crimped on the elastic damper element; said spring washers of the clamp are made in the form of a Belleville spring and (or) Grover washer; the shoulders from the point of securing the weights on the elastic damper element to the point of securing the clamping body on the elastic damper element are chosen unequal in length; on the inner surface of the housing in contact with the wire, lightning protection cable or cable, triangular, or rectangular, or trapezoidal, or oval notches are made. ”

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 (lightning protection cable, cable); in Fig.2 is the same as in Fig.1, a side view with a cutaway clip of the damper; figure 3 is a perspective view of the damper in figure 1.

The inventive vibration damper, designed to protect uninsulated wires (lightning protection cables) 1 overhead power lines, self-supporting fiber optic communication cables 1, fixed on the supports of overhead lines, consists of an elastic damper element 2, two loads 3, 4, fixed at its ends, and a clamp, which is made in the form of a housing 5 and a clamping die 6 and is designed to suspend the damper on the wire (lightning protection cable, cable) 1. In this case, the shoulders from the load securing points 3, 4 on the elastic damper element 2 to the fastening points of the clamp body 5 on the elastic damper element 2 may be different in length.

The elastic damper element 2 is a segment of a calendered rope, twisted (single lay rope) from a set of 19 galvanized steel wires, characterized by optimal values of relative stiffness and dissipation, which are achieved due to the chosen values of diameter, wire winding pitch, as well as special manufacturing technology

Loads 3, 4 are made in the form of a flat L-shaped console 7 with a conical or cylindrical shoulder 8, ending with a spherical body 9. Cargoes 3, 4 are arranged so as to ensure their rotation relative to vertical 10 in opposite directions in the direction of the twist of rope 2 by an angle α = 35 ° ÷ 55 ° (the same or different in magnitude for each cargo), while the ratio of natural frequencies f ₁ and f _{2 of} cargo 3, 4 should be selected from the condition f ₁ : f ₂ = 1.0 ÷ 1.5, which allows for high ability to energy absorption of the elastic damper element 2.

The part of the clamp housing 5, which is in contact with the wire (lightning protection cable, cable) 1, is made in the form of a hook 11 with an inner radius not less than the maximum diameter of the mounted wires (lightning protection cables, cables) 1, having a coverage angle equal to β = (175 ± 5) ° around the circumference of the mounted wires (lightning protection cables, cables) 1, and rotated relative to their longitudinal axis 12 by an angle γ = 10 ° ÷ 70 °, which allows even an unfastened damper to be held in a suspended position.

Part 13 of the clamping die 6 of the clip in contact with the wire (lightning protection cable, cable) 1, is made in the form of two faces of the hexagon with an inner radius of its circumscribed circle equal to the minimum diameter of the mounted wires (lightning protection cables, cables) 1.

The housing 5 and the clamping die 6 of the clamp are fastened together by a fine-threaded bolt 14 and two spring compensation washers 15 (disk springs and / or Grover washers) to prevent self-unscrewing. The housing 5 and the pressure die 6 are made by molding or from a pressed profile with subsequent processing on sandblasting or shot blasting machines. The elastic damper element 2 in the lower part 16 of the clamp body 5 is rigidly fixed by crimping, and at the ends it is fixed in weights 3, 4 by welding or crimping the cylindrical bushings 17 previously compressed on the elastic damper element 2. On the inner surface of the housing 5, which the clamp is in contact with the wire (lightning protection cable, cable) 1, notches 18 are made (triangular, rectangular, trapezoidal, oval or some other corresponding shape) to improve the adhesion of the damper body to the wire (lightning protection tnym rope, cable) 1.

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, that is, Stockbridge dampers, act on the principle of counteracting or absorbing the vibration energy of a wire (cable, cable) and its thermal dissipation due to intense friction between the wires of an elastic damper element (rope) 2. In this case, the vibration damping efficiency is determined by its amplitude-frequency characteristics (AFC), which are removed and investigated in order to study the properties of absorbers on special automated test complexes (vibration stands), allowing mother and examine the dynamic characteristics of the dampers, as well as measure their stiffness and dissipation properties. In the proposed damper, it was possible to achieve higher stiffness and dissipative properties of the elastic damper element (rope) 2, namely its flexural, torsional stiffness and the area of the hysteresis loops, which determine the dissipative properties of the elastic damper element (rope) 2, and, therefore, the damper generally. Obtaining the dependence of the force on displacement for each amplitude (hysteresis loop), determine the proportionality coefficient between them - the stiffness of the elastic damper element (rope) 2. When developing the design (model) of the damper, it is necessary to know the stiffness per unit length and related to the minimum bending stiffness. Integrating each hysteresis loop, we obtain the energy dissipated in the elastic damper element (rope) 2 for specific movements at the point of application of force. The results obtained from such measurements and studies show a strong nonlinearity of the reduced bending stiffness of the elastic damper element (rope) 2 of the new absorber from the amplitude of the relative movement of the load 3 (4) and the clamp. Further, taking into account the geometrical dimensions of the clamp (body 5 and pressure plate 6) and weights 3, 4, their mass distribution and inertia tensors in the corresponding coordinate systems, the force reaction, impedance and power dissipation of the elastic damper element (rope) 2 are calculated.

Tests of the inventive vibration damper at the automated test vibration bench TAIZ (Tula rebar-insulator plant) showed its high performance and the damper is recommended for widespread use on overhead power lines and fiber-optic communication lines.

Sources of information [1] Description of the invention to patent No. 229284 "Unified vibration damper" Dubinic LA and others. H02G 7/14, declared: 03/18/2003, published: 03/27/2005, Bulletin No. 9.

[2] Description of the invention to patent No. 2180765 "Vibration damper". Ryzhov S.V. and others. H02G 7/14, declared: 07/03/2000, published: 03/20/2002, Bulletin No. 8.

Claims (9)

1. Vibration absorber for protecting bare wires and lightning protection cables of overhead power lines, as well as self-supporting fiber optic communication cables suspended on overhead towers, comprising an elastic damper element in the form of a rope twisted from wires with at least ends fixed to its ends two weights and in the middle with a clamp made in the form of a body and a clamping die, designed to suspend the damper on a wire, lightning protection cable or cable, characterized in that each load is made in the form of a flat L-shaped console with a conical or cylindrical shoulder ending in a spherical body, and the planes in which the goods are located are turned relative to the vertical in opposite directions in the direction of the strand of the rope at an angle α equal to or different in size for each load, ranging from 35 ° to 55 °, the ratio of the natural frequencies of the oscillations f ₁ and f _{2 of the} goods is selected from the condition f ₁ : f ₂ = 1.0 ÷ 1.5, the elastic damper element is made of a calendered rope, providing its maximum ability to e non-absorption, and the part of the clamping housing in contact with the wire, lightning protection cable or cable is made in the form of a hook with an inner radius not less than the maximum diameter of the mounted wires, lightning protection cables or cables having a coverage angle equal to β = (175 ± 5) ° across the circumference of the wire, lightning protection cable or cable, and rotated relative to their longitudinal axis by an angle γ = 10 ° -70 ° so that the loose damper is held in suspension, the part of the clamping die of the clamp in contact with the wire with a snow protection cable or cable, made as at least two faces of the hexagon with an inner radius of its circumscribed circle equal to the minimum diameter of the mounted wires, lightning protection cables or cables, while the clamp is equipped with a latch designed to prevent self-unscrewing. 2. The damper according to claim 1, characterized in that the elastic damper element is made in the form of a section of a 19-wire single lay rope. 3. The damper according to claim 1, characterized in that the casing and the pressure die are molded or from an extruded profile with subsequent processing on sandblasting or shot blasting machines. 4. The damper according to claim 1, characterized in that the elastic damper element in the lower part of the clamp housing is rigidly fixed by crimping. 5. The damper according to claim 1, characterized in that the clamp of the clamping die is made in the form of a bolt with a fine thread and one or two compensation spring washers. 6. The damper according to claim 1, characterized in that the ends of the elastic damper element are secured to the loads by welding or crimping cylindrical bushings previously crimped on the elastic damper element. 7. The damper according to claim 1 or 5, characterized in that the said compensation spring washers of the clamp are made in the form of a Belleville spring and (or) a Grover washer. 8. The damper according to claim 1, characterized in that the shoulders from the point of fastening of the goods on the elastic damper element to the point of fixation of the body of the clamp on the elastic damper element are chosen unequal in length. 9. The damper according to claim 1, characterized in that on the inner surface of the housing in contact with the wire, lightning protection cable or cable, notches are made of a triangular, or rectangular, or trapezoidal, or oval shape.

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