SU982127A2 - Spacer for wires of overhead power transmission lines - Google Patents

Description

The invention relates to the electric power industry, and more particularly to spacers for wires of overhead power lines.

According to the main author. St. No. 687515, there is a known spacer for overhead wires of ⁵ power lines containing a rod with devices for fixing to wires, the rod being made in the form of two elements mounted with the possibility of longitudinal movement of one relative to the other, one of which is equipped with a stop to limit the movement of one element relative to the other moreover, one of the devices _{15 is} fixed to one element, and the second one to the other 11 J.

A disadvantage of the known spacer is that, at large amplitudes of wire vibrations, sharp 20 impacts of the stop devices occur to limit the movement of elements relative to each other, which leads to an increase in mechanical forces at the attachment point of the tie rods to the wires and damage to the wires at these attachment points. In addition, blows also cause damage to the impact devices themselves, which reduces the effectiveness of the strut in the case.

The purpose of the invention is to increase its efficiency and operational reliability.

This goal is achieved by the fact that the spacer is equipped with additional elastic stops mounted on both sides of the main stop to limit the movement of one element of the thrust relative to the other.

In FIG. 1 schematically shows the proposed device, General view; FIG. 2, section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1.

The spacer consists of two elements 1 of the rods, for example fiberglass rods, mounted on the wires 2 using clamps 3. Mutual longitudinal movement of the elements 1 relative to each other with restriction is provided by die clamps 4, each of which is rigidly fixed to the elements 1, and one of the holes of the clamp 4 are made with an inner diameter larger than the outer diameter of the elements 1. 5 On both sides of one of the clamps 4 on the sections of the element 1 there are elastic stops 5 made, for example, in the form of springs with an inner These diameter larger than 1. The elastic elements 10 per pieces 5 traction elements 1 are freely (m. e. not fixed) although

I principle can be fixed at one end to clamps 3 and 4.

The spacer works as follows. 15

Oscillations of wires 2 caused by wind or icy-wind loads through clamps 3 cause mutual longitudinal displacements of thrust elements 1 relative to each other. 20

When the wires 2 with small amplitudes oscillate, the die clamps 4, moving together with the thrust elements 1, do not reach extreme positions, which excludes the transfer of vibrational energies between 25 wires 2 due to the absence of a rigid connection between the thrust elements 1.

When the wires 2 of the power transmission line with large amplitudes at first (when the wires 2 diverge), the elements 30 you 1 are mixed longitudinally relative to each other, and the clamps 4 are facing each other, and when approaching, the elastic stop 5 is clamped together, gradually compressing it. This provides a smooth 3 braking of the movement of the elements 1, i.e., the vibrational motion of the wires 2 is smoothly absorbed. At a certain value of the amplitudes of the vibrations of the wires 2, the clamps 4. Occur in extreme positions when the spring is fully compressed (coil to coil). In this case, the spacer becomes stiff, and the effect of disruption of vibrations arises as a result of a change in the frequency of vibrations of the formed wire – spacer – wire system. When converging wires 2, the damping role is played by another elastic stop 5 located between the clamps 3 and 4. In this case, the detuning mechanism is similar to that considered.

Providing damping with elastic stops 5 reduces the concentration of mechanical forces in the place of attachment of the elements 1 to the wires 2, which protects the wire 2 from damage and breakage and increases its operational reliability.

The free installation of elastic stops 5 provides a constant possibility of moving them along the elements 1 of the rods, which ensures their cleanliness, protects from wet snow and ice, increasing the efficiency of the spacer as a whole.

The use of this design spacers can improve its efficiency and operational reliability of the wire in the place of attachment of the spacers.

Claims (2)

(54) DISTRIBUTION FOR AIR TRANSMISSION AIR LINES The invention relates to power generation, and more specifically to spacers for overhead power lines. According to the main author. St. No. 687515 is a known strut for wires of overhead power lines, containing a bar with fixtures for fixing to wires, wherein the bar is made in the form of two elements installed with the possibility of longitudinal movement of one relative to another, one of which is equipped with a stop to restrict movement of one element relative to the other, with one of the devices attached to one element, and the second with another C1 J. A disadvantage of the known spacer is that, at large amplitudes of the oscillations of the wires, sharp strikes of the stop devices occur to limit movement of the elements relative to each other, which leads to an increase in the mechanical forces at the point of attachment of the cable to the wires. fasteners. In addition, the blows also cause damage to the yjiopa devices themselves, which reduces the effectiveness of the struts in the flail. The purpose of the invention is to increase its efficiency and operational reliability. This goal is achieved by the fact that the spacer is provided with additional elastic stops that are installed on both sides of the main stop to limit the movement of one relative thrust element relative to the other. FIG. 1 schematically shows the proposed device, a general view; in FIG. 2, section A-A in FIG. one; in fig. 3 - section B - in FIG. 1. The spacer consists of two elements of 1 tg, for example, fiberglass rods attached to wires 2 by means of clamps 3. Mutual longitudinal movement of elements 1 relative to each other with limitation is provided by 3982 using plow clips 4, each of which is rigidly fixed on elements 1 one of the holes of the clamp 4 is made with an inner diameter greater than the outer diameter of the elements 1. On both sides of one of the clamps 4 on the sections of the element 1 are installed elastic stops 5, made, for example, in the form of springs with the morning diameter is greater than the diameter of the elements 1. The elastic stops 5 on the elements of 1 ti are installed loosely (i.e. not fixed), although in principle they can be fixed with a single end to the clamps 3 and 4. The spacer works as follows. The oscillations of the wires 2, caused by wind or ice-wind loads, through the clips 3 cause mutual longitudinal movements of the elements of 1 ton relative to each other. When the wires 2 with small amplitudes oscillate, the die clips 4, moving together with the elements of 1 ton, do not reach the extreme positions, which prevents the transfer of energy of oscillations between the wires 2 due to the absence of a rigid connection between the elements of 1 rod. When the power transmission wires 2 oscillate with large amplitudes, at the beginning (when the conductors 2 diverge), the elements 1 move longitudinally relative to each other, and the clips 4 move towards each other, and when they approach each other, an elastic stop 5 is clamped between them, gradually squeezing it. This ensures a smooth deceleration of the movement of the elements 1, i.e. a smooth absorption of the oscillatory movement of the wires occurs. 2. At a certain value of the amplitudes of the oscillations of the wires 2, the clips 4 are said to be in extreme positions when the spring is fully compressed (turn to turn). In this case, the spacer becomes rigid, the effect of oscillation dissipation arises as a result of a change in the oscillation frequency of the formed wire – spacer – wire system. When wires 2 converge, the other elastic stop 5 located between clips 3 and 4 plays a damping role. The detuning mechanism is similar to that considered. The provision of damping with elastic stops 5 reduces the concentration of mechanical forces at the point of attachment of the elements 1 to the wires 2, which protects the wire 2 from damage and breakage and increases its operational reliability. The free installation of elastic stops 5 provides a constant possibility of moving them along the elements of 1 tg, which ensures their cleanliness, protects from wet snow and ice, and makes the strut effective as a whole. The use of this strut construction makes it possible to increase its efficiency and operational reliability of the wire in the place of strut fastening. St. 687515, characterized in that, in order to increase efficiency and operational reliability, it is provided with additional elastic stops installed on both sides of the main stop to limit the movement of one element of the thrust relative to another. Information sources. taken into account in the examination of 1- USSR Copyright Certificate № 687515, cl. H O2G 7/12, OB, Ob.77. / 4- / I Fig l 6-B Fig.Z