RU137431U1 - VIBRATION Muffler - Google Patents

Abstract

1. Vibration absorber for bare wires, lightning protection cables of overhead power lines and self-supporting fiber-optic communication cables, comprising an elastic damper element made in the form of a single lay wire rope that provides precise contact of the wires along its entire length, fixed at its ends, at least at least one on each and made in the form of bodies of revolution weights and a clamp in the form of a housing and a pressure plate, one end fixed in the middle part of the elastic damper element, and the other - on a wire, cable or cable, characterized in that the goods are located at equal distances from the place of their fastening on the elastic damper element to the vertical axis of the clamp, the rope consists of external spiral wires and at least one central wire, the ratio Δ the diameters of the outer wire to the central wire are selected in the range of 0.8≤Δ1.0, the pitch Δ of twisting of the outer wires is selected in the range of 50 mm≤Δ≤150 mm, the loads are fixed at the ends of the rope by means of a cylindrical sleeve with a conical shape made on both sides and protrusions, one of which has an inner cone for beading, while the ratio Δ of the diameter of the rope to the diameter of the cylindrical sleeve is selected within 0.5≤Δ≤0.95, the ratio of Δ width In the part of the clamp body, fixed in the middle part of the elastic damper element, to the diameter of the rope is selected within 3.5≤Δ≤6.5, the ratio Δ of the width A of the part of the clamp housing fixed to the wire, cable or cable to the diameter of the clamped wire, cable or cable is selected within 2.0≤Δ≤5.5 moreover, the compression of the clamp housing on the elastic damper element pr

Description

The utility model relates to the electric power industry, and in particular, to devices for damping mechanical vibrations of wires, and in particular, to vibration dampers designed to protect bare wires and lightning protection cables of overhead power lines, as well as self-supporting fiber-optic communication cables fixed to air supports lines.

The closest in technical essence to the proposed utility model is a vibration damper selected as a prototype for bare wires, lightning protection cables of overhead power lines and self-supporting fiber-optic communication cables, containing an elastic damper element made in the form of a single lay-up wire rope providing point contact of wires along its entire length, at least one on each end, fixed at the ends and made in the form of bodies of revolution, weights and clamps in e presser ram housing and having one end fixed to the middle portion of the elastic damping element, and the other - on the wire, rope or cable

(RF patent for the invention No. 2249284, publ. March 27, 2005).

The disadvantages of the prototype are the low operational capabilities of the device due to its low amplitude-frequency characteristics, which are due to the low degree of energy absorption by the elastic damper element, as well as due to the insufficient strength of the seal on the elastic damper element, which leads to frequent drops of cargo to the ground during operation of overhead power lines.

The technical result achieved by the proposed utility model is to expand operational capabilities by increasing the energy absorption efficiency of the elastic damper element by increasing the amplitude-frequency characteristics and optimizing the parameters of the elastic damper element in terms of energy absorption under conditions of vibration in a wide frequency range (from 4 -x to 100 Hz) while increasing reliability by improving the incorporation of goods on an elastic damper element.

The technical result is achieved by the fact that in the vibration damper for uninsulated wires, lightning protection cables of overhead power lines and self-supporting fiber-optic communication cables containing an elastic damper element made in the form of a single lay wire rope that provides precise contact of the wires along its entire length, fixed at its ends, at least one on each and made in the form of bodies of revolution weights and a clamp in the form of a housing and a pressure plate, are fixed at one end in the middle part of the elastic damper element, and the other on the wire, cable or cable, the loads are located at equal distances from the place of their fastening on the elastic damper element to the vertical axis of the clamp, the rope consists of external spiral wires and at least one central wire , wherein the ratio of Δ outer wire diameter to the central wire is selected within 0,8≤ Δ ≤1,0, step ₁ Δ stranding outer wires is selected within 50 mm ≤ Δ ₁ ≤ 150 mm, loads are fixed at the ends of the rope through the cylindrical VTU ki made with both sides of conical projections, one of which has an inner cone for expansion, wherein the ratio of Δ ₂ Rope diameter to the diameter of the cylindrical sleeve is selected within 0,5≤ Δ ₂ ≤0,95, the ratio of the width B Δ ₃ of the housing the clamp fixed in the middle part of the elastic damper element to the diameter of the rope is selected within 3.5≤ Δ ₃ ≤6.5, the ratio Δ _{4 of the} width A of the part of the clamp body fixed on the wire, cable or cable to the diameter of the clamped wire, cable or cable selected in the range 2.0 ≤ Δ ₄ ≤5.5, and about the clamping case is pressed on the elastic damper element symmetrically with respect to its vertical axis at the body width B, but not more than 45% of its total width B, and the press fit of the loads on the elastic damper element is ensured by choosing the ratio Δ _{5 of the} diameter of the hole in the load to the diameter cylindrical bush within 0.7 ≤ Δ ₅ ≤1.2. In addition, in the vibration damper, the rope can consist of at least eighteen external spiral wires, the loads can be secured to the ends of the elastic damper element by crimping the cylindrical sleeve in the middle with a bench width of 10 mm, regardless of the length of the sleeve and its diameter, in addition, when crimping the clamp housing on an elastic damper element, unpressed sections of the housing may remain distances 1 ₁ equal to 3 ÷ 5 mm from its ends and a portion 1 ₂ equal to 10 mm in the middle, and the width A of the part of the clamp housing, fixed to the wire can be selected equal to 45 mm for wires with a diameter of 9.0 mm to 14.0 mm, or can be selected equal to 45 mm for wires with a diameter of 14.1 mm to 22.0 mm, or can be selected equal to 60 mm for wires with a diameter of 31.1 mm to 38 mm, or can be selected equal to 70 ÷ 80 mm for wires with a diameter of 38.1 mm to 47.0 mm.

Figure 1 shows the vibration damper, a General front view,

figure 2 is an enlarged view of the securing of one of the loads on the elastic damper element,

figure 3 is a cross section of an elastic damper element,

figure 4 - section I in figure 1, enlarged.

The vibration damper for uninsulated wires, lightning protection cables of overhead power lines and self-supporting fiber-optic communication cables contains an elastic damper element 1, made in the form of a single lay wire rope, providing a point contact of the wires along its entire length, fixed at its ends 2 and 3, along at least one on each and made in the form of bodies of revolution weights 4 and 5 and a clamp 6 in the form of a housing 7 and a pressure plate (not shown in the drawings), fixed at one end in the middle part of the elastic damper element 1, and the other on the wire 8 (cable or cable). Cargoes 4 and 5 are located at equal distances L from the place of their fastening on the elastic damper element 1 to the vertical axis of the clamp 6, the rope consists of external spiral wires 9 and at least one central wire 10, while the ratio Δ of diameters d ₉ d _{10 of the} outer wire 9 to the central wire 10 is selected in the range of 0.8 ≤ Δ ≤1.0, the pitch Δ _{1 of the} lay of the outer wire 9 is selected in the range of 50 mm ≤ Δ ₁ ≤150 mm, loads 4 and 5 are fixed at the ends 2 and 3 the rope by means of a cylindrical sleeve 11 with conical protrusions 12 and 13 made on both sides, one of which (12) has an inner cone 14 for expansion, while the ratio Δ _{2 of} diameter d _{1 of the} rope to diameter d _{11 of the} cylindrical sleeve 11 is selected within 0.5 ≤ Δ ₂ ≤0.95, the ratio of Δ _{3 is} width In the body part 7 of the clamp 6, fixed in the middle part of the elastic damper element 1, to the diameter d _{1 of the} rope is selected within 3.5 ≤ Δ ₃ ≤6.5, the ratio Δ _{4 of the} width A of the part of the housing 7 of the clamp 6, fixed to the wire 8 (cable or cable) ₈ to the diameter d of the clamped wire 8 (wire rope or cable) is selected within 2,0≤ Δ ₄ ≤5,5, wherein the clamp body on June 7 compression resilient m damper body 1 made symmetrically about its vertical axis by the width B of the body 7 but not more than 45% of its total width B, and the press fitting loads 4 and 5 on the elastic damping element 1 is provided by selecting the ratio of Δ ₅ diameter d ₁₅ holes 15 in the load 4 (5) to the diameter d _{11 of the} cylindrical sleeve 11 in the range of 0.7 ≤ Δ ₅ ≤ 1.2. In addition, the rope may consist of at least eighteen outer spiral wires 9, and weights 4 and 5 can be secured to the ends 2 and 3 of the elastic damper element 1 by crimping the cylindrical sleeve 11 with hexagonal dies (not shown) in the middle with bench width 10 mm, regardless of the length of the sleeve 11 and its diameter. When crimping the housing 7 of the clamp 6 on the elastic damper element 1 unpressed sections of the housing 7 may remain distances l ₁ equal to 3 ÷ 5 mm from its ends and the portion 1 ₂ equal to 10 mm in the middle, and the width A of the part of the housing 7 of the clamp 6, fixed on wire 8 can be selected equal to 45 mm for wires 8 with a diameter of 9.0 mm to 14.0 mm, or can be selected equal to 45 mm for wires 8 with a diameter of 14.1 mm to 22.0 mm, or can be selected equal to 60 mm for wires 8 with a diameter of 31.1 mm to 38 mm, or can be selected equal to 70 ÷ 80 mm for wires 8 with a diameter t 38.1 mm to 47.0 mm. The housing 7 is fastened to the clamping die 6 by means of a fastener 16. The weights 4 and 5 are fastened to the elastic damper element 1 by pressing these weights onto the elastic damper element 1 with the cylindrical sleeve 11 pre-installed on it. The sleeve 11 is pressed with hexagonal dies in the middle, then it is pushed into the load 4 (5) from the outside due to the conical protrusion 13 and is expanded by the inner cone 14 of the conical protrusion 12 from its reverse side. The choice of an elastic damper element 1 with the above characteristics and the technology of securing cargo 4 and 5 on it will ensure the effective operation of the proposed damper in the frequency range from 4 to 100 Hz.

The vibration damper operates as follows.

The vibration damper of the proposed type (Stockbridge damper) operates on the principle of absorption of vibration energy of wire 8 (cable, cable) and its thermal dissipation due to friction between the external 9 and central 10 wires of the elastic damper element 1 (rope). The efficiency of the absorber is determined by its amplitude-frequency characteristics. In this technical solution, due to the applied special technology of manufacturing an elastic damper element 1 (lay-up of wire rope with a certain pitch Δ ₁ and ensuring a point contact of the wire), as well as selection of different values of the masses of goods 4 and 5 and the distances from their points in excess of strong fastening at the ends 2 and 3 ropes to the place of reliable fastening of the body 7 of the clamp 6 on the rope, a higher degree of energy absorption of the rope is achieved under conditions of vibrational vibrations in a wide frequency range (from 4 to 100 Hz) and, in In the final analysis, the high amplitude-frequency characteristics of the damper, which is confirmed by the practice of operating such damper on overhead power lines.

Claims (5)

1. Vibration absorber for bare wires, lightning protection cables of overhead power lines and self-supporting fiber-optic communication cables, containing an elastic damper element made in the form of a single lay wire rope that provides precise contact of the wires along its entire length, fixed at its ends, at least at least one on each and made in the form of bodies of revolution weights and a clamp in the form of a housing and a pressure plate, one end fixed in the middle part of the elastic damper element, and the other - on a wire, cable or cable, characterized in that the goods are located at equal distances from the place of their fastening on the elastic damper element to the vertical axis of the clamp, the rope consists of external spiral wires and at least one central wire, the ratio Δ the diameters of the outer wire to the central wire is selected within 0.8≤Δ1.0, the pitch Δ _{1 of the} lay of the outer wires is selected within 50 mm≤Δ ₁ ≤150 mm, the loads are fixed at the ends of the rope by means of a cylindrical sleeve with conical ends protrusions, one of which has an inner cone for flaring, while the ratio Δ _{2 of the} diameter of the rope to the diameter of the cylindrical sleeve is selected in the range 0.5≤Δ ₂ ≤0.95, the ratio of Δ _{3 is} width In the part of the clamp housing, fixed in the middle part elastic damper element, the diameter of the rope is selected within 3.5≤Δ ₃ ≤6.5, the ratio Δ _{4 of the} width A of the part of the clamp body fixed to the wire, cable or cable, to the diameter of the clamped wire, cable or cable is selected within 2 , 0≤Δ ₄ ≤5.5, and the compression of the clamping body on an elastic damper m element is produced symmetrically with respect to its vertical axis at housing width B, but not more than 45% of its total width B, and the press fit of loads on the elastic damper element is ensured by choosing the ratio Δ _{5 of the} hole diameter in the load to the diameter of the cylindrical sleeve within 0 , 7≤Δ ₅ ≤1,2. 2. The vibration damper according to claim 1, characterized in that the rope consists of at least eighteen external spiral wires. 3. The vibration damper according to claim 1, characterized in that the loads are fixed at the ends of the elastic damper element by crimping the cylindrical sleeve in the middle with a press width of 10 mm, regardless of the length of the sleeve and its diameter. 4. The vibration damper according to claim 1, characterized in that when crimping the clamp body on an elastic damper element, the unpressed parts of the body remain distances 1 ₁ equal to 3 ÷ 5 mm from its ends and a section 1 ₂ equal to 10 mm in the middle. 5. The vibration damper according to claim 1, characterized in that the width A of the part of the clamp housing fixed to the wire is selected equal to 45 mm for wires with a diameter of 9.0 mm to 14.0 mm, or selected equal to 45 mm for wires with a diameter of 14.1 mm to 22.0 mm, or selected equal to 60 mm for wires with a diameter of 31.1 mm to 38 mm, or selected equal to 70 ÷ 80 mm for wires with a diameter from 38.1 mm to 47.0 mm.

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