RU2166825C1 - Protector for overhead power transmission lines - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: protector is made in the form of body of revolution with a number of extending and contracting sections 5 and 6, respectively, arranged along body of junction clamp 2 according to definite order. Protector functions to prevent damage to conductor strands at points of their leaving junction clamp 2 under effect of vibrations on power transmission lines. EFFECT: improved reliability of line protection. 1 dwg

Description

 The invention relates to the field of electric power, and more specifically to protectors for vibration and vibration of wires of overhead power lines, in particular at the places where the wires exit the connecting clamps installed on the lines.

 Spiral-type protectors are widely known, which are wound on a wire in zones of local influences, such as kinks during various kinds of vibrations, crushing in rollers of roller supporting clamps; these protectors are mounted near the supporting clamps, at the points of installation of vibration dampers, ballasts, etc. to protect wires from fatigue damage due to vibration, sub-vibrations, dancing.

 The closest technical solution to the proposed one is a protector for overhead power lines, designed to protect the wire from vibration and vibrations at the points of its exit from the connecting clamp, made in the form of a set of wire spirals wound around the installation location of the connecting clamp and to adjacent sections wires [1].

This protector has a number of significant disadvantages:
- the tread is ineffective for protecting the wire at the points of its exit from the connecting clip from mechanical damage and subsequent destruction of the wire wires during prolonged use under conditions of intense vibration and vibration;
- the tread does not have the necessary deformability and is not technologically advanced for installing it on the connecting clamp.

 The authors set themselves the task of designing a spiral protector of such a design that would be able to provide reliable protection of the wire at the points of exit from the connecting clip from vibration and vibrations; while the claimed protector should not have the disadvantages inherent in the prototype, which is achieved by the combination of essential distinguishing features of the new protector, which is fixed in the claims below.

 The invention is illustrated by the drawing, which schematically shows a General view of the tread made according to the present invention.

The tread is made of a set of wire spirals 1, for example, of galvanized steel, which has the necessary properties (tensile strength at least 100-120 daN / mm ² elongation at break of 1.5 - 2.5%). The spirals 1 are wound onto the connecting clip 2 and adjacent sections 3 of the wire 4. The set of these spirals 1 is a spatial figure made in the form of a body of revolution having a series (for example, three) alternating broadening 5 and narrowing (for example, two) 6, which are located on the housing of the connecting clamp in this way: one part of the spirals, for example one third, is wound symmetrically relative to the middle 7 of the housing of the connecting clamp 2, the second part of the spirals 1 is located along the wire 4 to the right of the middle 7 of the housing with a single clamp 2 and finally the last part of the spirals 1 is located to the left of the middle 7 of the housing of the connecting clamp 2. The spirals 1 are mounted on the housing of the connecting clamp 2 with offset relative to each other, for example, one third of the step of the spiral 1. As a result, the ends of different groups of spirals 1 in sections adjacent to the housing of the connecting clamp 2, are located with a shift relative to each other (see drawing). The decrease in bending stiffness and linear mass during the transition from the tread to the wire does not occur abruptly, but gradually.

The step length of the tread spirals is selected by the following mathematical formula:
L _W = L _s.z. ^* / [(0.9 - 1.0) • (n + 1)],
where L _W - the step length of the spiral tread; L _s.z. ^* - the length of the connecting clamp after crimping, n - the number of passes of winding wire spirals.

The tread is mounted as follows:
The first spiral is taken from the set of spirals manufactured using the established technology and applied with its middle to the middle 7 of the connecting clamp housing 2. The spiral is wound onto wire 4, starting from its edge (the distance from the end of the connecting clamp 2 housing to the edge of the spiral will be 150 - 300 mm). In the middle 7 of clamp 2, for example, two steps of winding the spiral 1 are skipped (as a result of this operation, three treads 5 broadening are formed), after which the spiral 1 is winded until it is fully seated on the clamp 2 and wire 4. Then the second spiral 1 is taken from the whole of the set and it is wound on the wire 4 and the body of the connecting clamp 2 with the above-mentioned skipping of the spiral steps in the region of the middle 7 of the clamp 2. As a result of these operations, only the third part of the entire set of spirals 1 will be wound on the body of the connecting clamp 2 the third third of the set are sequentially wound one after another on the case of the connecting clamp 2 already with an offset, for example, to the left of the edge of the first third of the spirals 1 by about one third of the step. Then the last third of the spirals 1 is wound onto the case of the connecting clamp 2 with a set offset to the right from the edge of the first third of the spirals 1 of the set to the complete assembly of the tread.

 The inventive tread, in comparison with the known technical solutions for a similar purpose, allows you to protect the wire from destruction on the areas where it exits the connecting clamp during continuous operation on overhead power lines with intense wind loads and vibrational vibrations.

Sources of information:
1. Copyright certificate of the USSR, N 1008834, cl. H 02 G 7/14, 11/03/80

Claims (1)

A protector for overhead power lines, designed to protect the wire from vibration and vibrations in the places where it exits the connecting clamp, made in the form of a set of wire spirals with a given pitch, wound around the installation location of the connecting clamp and to adjacent sections of the wire, characterized in that a set of wire spirals is a body of revolution with a series of alternating broadening and narrowing, the wire being supported by a winding with the passage of two or more turns and shifted relative to each other the axis of the housing of the connecting clamp by at least one third of the length of their stride, while one third of the number of spirals with their middle coincides with the middle of the housing of the connecting clamp, and the remaining spirals are shifted one third to the left and right of the middle of the housing of the connecting clamp, the step length of the tread spirals is selected based on the following ratio:
L _W = L * _s.z / [(0.9-1.0) • (n + 1)],
where L _W - the step length of the spiral;
L * _s.z - length of the connecting clamp:
n is the number of passes of winding wire spirals.