RU2101823C1 - Distant vibration-damping strut - Google Patents

Abstract

FIELD: power engineering; overhead power transmission lines. SUBSTANCE: strut has arms, damping units, caps, gripping clamps, and stiff frame made of plates. Elastoplastic inserts are placed in taper depressions of caps and mating taper depressions of elliptic shells, respectively. Vibration-damping strut is used for split-phase conductors of overhead power transmission lines. EFFECT: simplified design, reduced size, improved reliability of damping vibrations of overhead line conductors. 7 wdgo

Description

 The invention relates to the electric power industry and can be used in overhead power transmission lines of various voltage classes to stabilize the distances between the wires of the split phase and the simultaneous damping of vibrations.

Known remote spacer vibration damper for the wires of the split phase of the overhead power line, comprising a housing, traction on the number of wires of the split phase, each of which is made at one end with a clip fixed in the housing, and the other in one piece with a die-clamp, and elastomeric balls in the form of balls arranged uniformly inside each cage [1]
The disadvantage of this spacer is the significant size of the damper assembly and, as a consequence, the increased material consumption of the structure.

The closest technical solution to the proposed one is a spacer-dampener for the wires of the split phase of the overhead power line, containing covers, rays according to the number of wires of the split phase, made in the form of rods, each of which at one end is made in one piece with the body of the damper assembly and on the other ends with a clamp-grip for installation on a wire, elastomeric inserts located in conical recesses with a spherical bottom in the inner cavity of the body of the damper assembly and from vein conical recesses of the covers, and a travel stop for each beam of the beam spacers [2]
However, this strut damper also has a number of significant drawbacks:
design complexity (the damper assembly and the beam displacement limiter that are made in this strut are very complex);
the complexity of the design entails difficulties in the manufacturing process of the strut (complex injection molds or the need to use high-precision machines and highly skilled workers);
the complexity of the design and at the same time the lack of reliability of the spacer clamps with which the spacer is attached to the wires.

 The purpose of the invention is to develop a remote strut damper for wires of the split phase of an overhead power line that does not have the indicated disadvantages of the prototype strut, which is achieved by the combination of essential features of the new strut fixed in the claims.

 In FIG. 1 presents a remote spacer-damper, general view; in FIG. 2, section AA in FIG. one; in FIG. 3 section BB of FIG. one; in FIG. 4 is a view along arrow B in FIG. one; in FIG. 5 beam, general view; in FIG. 6 section GG in FIG. 5; in FIG. 7 is a view along arrow B in FIG. 6.

 Remote spacer vibration damper for wires 1 of the split phase of the overhead power line consists of rays 2 according to the number of wires 1 of the split phase, made in the form of rods, dampers, covers 3 and clamps-grips 4.

 Each beam 2 (rod) at one end 5 is made in one piece with the body of the damper assembly, and at the other end 6 ends with a clamp-grip 4, designed to install (fix) the wire 1. The clamp-grip 4 is a monolithic C-shaped clip , along the outer perimeter, made with a sequential set of tides 7, in the grooves (cutouts) 8 between which the segments 9 of the spiral wire are laid. The segments 9 of the spiral wire rigidly fix the clamps-grips 4 on the wire 1, forming between them a strong one-piece connection.

The body of the damper assembly for each wire 1 of the split phase is molded in the form of an X-shaped body (body), the adding elements of which are two oval-shaped glasses 10. The large axes 11 of these glasses 10 are located at an angle to each other, the value of which varies when designing the spacers in the range from 30 to 40 ^o .

 Conical recesses 12 for elastomeric inserts (balls) 13 are formed in the lids 3 of an elliptical shape. These conical recesses 12 in the lids 3 are responsive to identical conical recesses 14 having each spherical bottom 15, which are provided in the elliptical cups 10, respectively.

The design of the spacer frame also includes plates 16, a quantitative set of which N ₁ is determined by the ratio N ₁ 2N, where N is the number of components in the split phase. The plates 16 are attached in pairs, for example, by welding to each cover 3, as a result of which a rigid frame is formed in the form of a frame polygon, which provides the necessary strength of the entire structure of the damper.

When the rays 2 are rotated in the plane of the damper strut, they have the ability to move due to the deformation of the insert balls 13, which is limited by the contours of the ovals of the glasses 10 within, for example, 10-14 ^o , i.e. the ovals of the glasses 10 themselves are the limiters of the angular movement of the rays 2 spacers. Similarly, the movement and limitation of the angular movement of each beam 2 from the plane of the spacer, i.e. along the wires 1 of the overhead power line, is carried out. The elastomeric inserts 13 with such deviations of the rays 2 are deformed and tend to return the rays 2 to their original position relative to the covers 3 with their elastic force. In this case, the vibrational energy is absorbed in the elastomeric inserts 13 and, as a result of this process, the damping of the wires 1 of the split phase of the overhead line power transmission.

 The beam rods 2 on the sides facing the wire have tides 7 with C-shaped cutouts 8. When installing a spacer-damper, each of the wires 1 is inserted into the return groove 17 on the corresponding rod 2, after which the clamp is fixed to the wire 1 by means of preformed and attached to each strut 9 spirals made of galvanized steel wire or aluminum alloy. The spirals provide reliable fastening of the clamp on the wire 1, since they have the ability to maintain pressure even with significant shrinkage (up to 0.8-1%) of the diameter of the wire in operation.

The inventive spacer in comparison with the known technical solutions has the following advantages:
in the strut, the limiters for moving the beam traction with damping elements are structurally combined;
reduced dimensions and material consumption;
ease of adjustment during assembly and installation (you can tighten the balls);
increased radial mobility of the spacer beams;
more uniform wear of damping elements while maintaining a high damping ability;
high reliability and ease of fixing clamps on the wires of the split phase.

Claims (1)

Remote spacer vibration damper for wires of the split phase of an overhead power line, containing covers, beams according to the number of wires of the split phase, made in the form of rods, each of which at one end is made integral with the body of the damper assembly, and at the other ends with a clamp-grip for installation on the wire, elastomeric inserts located in conical recesses with a spherical bottom in the inner cavity of the damper assembly body and reciprocal conical recesses of the covers, and a travel limiter dow thrust beam spacers, characterized in that each damper assembly is made in the form of two oval-shaped cups, molded as a single unit X-shaped body, the large axis of the ovals of which are located at an angle of 30 ^o 40 ^o , covers made of elliptical shape, each oval inside said cup so that the mobility of each of the beams is limited struts loops ovals within said cup 10 ^o 14 ^o, wherein the spacer is provided with a set of plates forming a rigid frame, each pair of which mutually stiffly attached to each of the covers and clamps, grippers formed on the outer perimeter with a number of successive grooves, which are stacked in the helical segments of wire retaining clips, clamps on the wire and simultaneously ensure their reliable connection with the wire overhead line.

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