WO1998016981A1 - Method and apparatus for mounting wires of high-voltage open cables, especially optical ground wires, on suspenders set up therefor - Google Patents

Abstract

The invention relates to a method and an apparatus for mounting wires (1) of high-voltage open cables, especially optical ground wires, on suspenders (3) set up therefor, said suspenders comprising a carrier (4), to which the wire (1) is secured, and a suspension element (5) for the carrier (4), by means of which the carrier is pivotably suspended to a pole structure (6). The apparatus comprises a pulley/clamping unit (2), including at least two pulleys (7), arranged removably relative to the wire (1) on opposite sides of the carrier (4) in the longitudinal direction of the wire (1) and mounted on a frame element (8) of the pulley/clamping unit (2) fastened to the suspension element (5) of the carrier (4) in a vertically adjustable fashion.

Description

Method and apparatus for mounting wires of high-voltage open cables, especially optical ground wires, on suspenders set up therefor

The present invention relates to a method and apparatus for mounting wires of high-voltage open cables, especially optical ground wires, on suspenders set up therefor, said suspenders comprising a carrier, to which the wire is secured, and a suspension element for the carrier, by means of which the carrier is pivotably suspended to a pole structure.

In a prior art method, the Optical Ground Wire (OPGW) is installed on high-voltage lines by fitting each pole with a conventional pulley system for the duration of work. After the ground wire has been successfully hauled between the poles to be carried by the pulley systems, the attachment is performed to each pole. This requires the following actions:

a. the wire is fitted on either side of the suspension point with wedge frogs and pulleys are secured to the frogs and to the pole

b. the wire is hauled by means of the pulleys to overtautness so as to produce "a sag" at the suspension point in order to release the pulley system and to remove it from a U-bolt of the carrier by releasing the U-bolt or a frame assembly of the pulley

c. the carrier is fitted on the wire d. the wire tautness is adjusted by means of the pulleys in order to secure the carrier and a double-eye by means of the U-bolt to the pole

e. the wire is lowered onto the carrier by uncoupling the pulleys

f. the working tools are removed from the pole and the wire and lowered down.

This prior known method involves a relative large number of different operations, the implementation of which takes plenty of time and the working of which involves safety hazards. When applying the method, there is also a hazard of damaging the wire to be installed during the course of installation, since the wires must be momentarily subjected to exceptionally powerful forces.

In order to eliminate these drawbacks, the arrangement in a method of the invention is such and a method of the invention is characterized in that the suspension element of the carrier is fitted with a pulley/clamping unit, including at least two pulleys, arranged removably relative to the wire on opposite sides of the carrier in the longitudinal direction of the wire and mounted in a vertically adjustable fashion on a frame element of the pulley/clamping unit, and that, after hauling the wire into position upon the pulley/clamping unit, the pulleys of the pulley/clamping unit are lowered down to settle the wire upon the carrier, followed by dislodging the pulley/clamping unit. An apparatus of the invention is characterized in that said apparatus comprises a pulley/clamping unit, including at least two pulleys, arranged removably relative to the wire on opposite sides of the carrier in the longitudinal direction of the wire and mounted on a frame element of the pulley/clamping unit fastened to the suspension element of the carrier in a vertically adjustable fashion.

Preferred evolutions of the invention are disclosed in the non-independent claims.

A solution of the invention can be applied to gain e.g. the following benefits:

constitutes a readily, quickly, and safely mountable double-product, e.g. with an OPGW suspension clamp disclosed in the Applicant's earlier FI Patent application 953894

reduces significantly the wire damaging risk since, unlike the traditional installation techniques, the wire is not grabbed with working tools. The wire rests upon a pulley system throughout the working period

by virtue of its triaxially articulated structure, does not induce deflection, attrition, or distortion of the wire during haulage

the pulley system places itself during haulage at the base of a resultant force, the effect of a pulley system weight is compensated for by counterweights. Therefore, the wire stays at all times on the bottom of a pulley groove and does not distort during haulage

- the angle of contact of a wire relative to the pulley remains small due to a double-pulley design

the vertical adjustment of a wire is effected by turning set screws without a major force requirement and without separate hoisting equipment

the wire rests idly on the pulleys when installing a carrier, the carrier settles automatically in a correct position without separate measurements and centering marks

the apparatus is a single entity, without loose components

reduces significantly the demand for tools, the only required implement or tool is the actual pulley/clamping unit. Safety at work improves, since there are no tools which would have to be hoisted up to a pole and would have to be handled and operated manually up at the altitude of 30...60 m

reduces the installation team by 1 pole fitter (1 fitter up on the pole, 1 helper on the ground)

installation work is easy, light, and quick to perform, the working period of a clamping phase will be less than a third with respect to the traditional method

the tensioned wire does not lie upon unreliable temporary supports during working operations

the wire need not be set during working operations upon the support of various working tools, the clamping is simple and safe

the installer need not go stretching to mount any tool on a wire supported by the pulley system, or on a pole structure

- the pulley/clamping unit is fitted in the set holes of a double-eye included in a pole fastener (U-bolt) by means of cotter pins, safely without stretching, in a stationary position.

The invention will now be described with reference made to the accompanying drawing, in which

Fig. 1 shows an apparatus of the invention with pulleys in a top position.

Fig. 2 shows a section along a line II-II in fig. 1.

Fig. 3 shows an apparatus of the invention with pulleys in a bottom position.

Fig. 4 shows a section along a line IV-IV in fig. 3.

Fig. 5 shows a frame element for an apparatus of the invention .

Fig. 6 shows a section along a line VI-VI in fig. 1.

Fig. 7 shows a section along a line VII-VII in fig. 3.

The drawing illustrates an apparatus for mounting wires 1 of high-voltage open cables, especially optical ground wires, on suspenders 3 set up therefor. The suspender 3 comprises a carrier 4, to which the wire 1 is secured, and a suspension element 5 for the carrier 4, by means of which the carrier 4 is pivotably suspended to a pole structure 6.

Fig. 1 depicts a condition at an installation stage of the wire 1, said wire 1 bearing against a pulley/clamping unit 2 of the invention, whereby the carrier 4 of said wire 1 is not yet fitted in position. Fig. 3 illustrates a condition in which the carrier 4 of the wire 1 is fitted in position, the suspension element 5 and the wire 1 bearing against the carrier 4.

The pulley/clamping unit 2 of the invention includes a frame element 8, comprising a supporting beam (fig. 5) which is propped in a horizontal position by means of two braces 15. The braces 15 are coupled at the upper end thereof by means of a cotter pin 9 with the suspension element 5, provided therefor with attachment holes. At the lower end thereof, the braces 15 are pivotably attached by means of a cotter pin 16 to the frame element 8. As best shown in a plan view of the frame element 8 depicted in fig. 5, the frame element 8 has its mid- section bent in such a way that the carrier 4 can be readily secured to the suspension element 5. For this, the carrier 4 and the suspension element 5 are provided with holes for fitting a cotter pin 14 therethrough for fastening the components to each other.

To each end of the frame element 8 of the pulley/clamping unit 2 is suspended a pulley 7 through the intermediary of suspension means, generally indicated with reference numeral 10.

The suspension means 10 for the pulley of a groove-like appearance include a frame constituted by two striplike members 20, which are fastened at both ends thereof in a spaced relationship by means of a bottom brace 21 and a top brace 22 as well as by means of the shaft of the pulley 7 rotatably journalled therebetween.

Both strip-like members 20 are designed to have a bifurcated upper end by providing the upper end with an upwardly open slot 23. The top brace 22 is removably secured to the upper end of said bifurcations by means of two cotter pins or most preferably by means of a single U-shaped cotter pin 24. Therefore, both bifurcations, the upper ends thereof, of the strip-like members 20 are provided with holes in alignment with extending through the top brace 21.

The top brace 22 is provided with a threaded hole between the forks of the U-shaped cotter pin 24. The hole is fitted with a set screw 25, having a free end which is secured in such a way to a shaft 12 rotatably mounted on the end of the frame element 8 that, upon turning the set screw 25, the pulley 7 goes either up or down. In order to preclude rotation of the pulley 7 and its suspension means 10, the ends of the shaft 12 are adapted to extend into the slots 23.

The suspension means 10 of the pulleys 7 are articulated to the frame element 8 of the pulley/clamping unit 2 rotatably relative to a shaft 11 parallel to the wire 1, which enables the pulley 7 to perform a motion relative to the shaft 11 represented by an arrow 17 in fig. 2. In the illustrated example, the articulation is implemented in such a way that both ends of the frame element 8 is provided with a joint 18 between the fastening pin 16 of the brace 15 and the attachment point 12 of the suspension means 10 for the pulley 7.

The suspension means of the pulleys 7 are articulated or linked to the frame element 8 of the pulley/clamping unit 2 so as to be rotatable relative to the shaft 12 which is perpendicular to the direction of the wire 1, which enables the pulley 7 to perform a motion represented by an arrow 19 in fig. 1.

If necessary, the suspension means 10 of the pulleys 7 can be provided with a counterweight represented by reference numeral 13. The counterweight 13 is intended to balance the pulley 7 on the suspension means 10 in such a way that, especially at the course-changing points of a power line with the pulley tilting upon hauling the wire 1, the dead weight of the pulley 7 cannot contribute to increase the vertical force. Thus, the direction of a resultant force established by the haulage of a wire does not change either, whereby the wire 1 does not strive to rise from the bottom of the groove in the pulley 7 with the result that there is neither unwinding of the wire convolution nor loosening of the outermost layer of strands, which conditions, whenever occurring, could cause fiber damages.

The pulley/clamping unit 2 of the invention is used as follows.

The pulley/clamping unit 2 is fastened with cotter pins 9 to a suspension element 5 mounted by way of a U-bolt 26 on the pole structure 6. A similar unit is secured to each pole within a tensioning distance. At this point, the pulleys 7 are set in the upper position thereof by means of the screws 25.

This is followed by hauling or pulling the wire 1 in a conventional manner upon the pulleys 7 and the carrier 4 is mounted on the suspension element 5 and secured thereto by means of a cotter pin 14, whereafter the pulleys 7 are lowered by means of the set screws 25 to the lower position thereof, whereby the wire 1 settles to rest upon the carrier 4.

After clamping the wire 1 to the carrier 4, the pulley/clamping unit 2 can be disengaged from the pole structure and lowered on the ground. This is effected by removing the cotter pins 24 from both suspension means 10 of the pulleys 7, whereby the pulleys 7, together with the strip-like members 20, can be uncoupled from the frame element 8. Thereafter, the frame element 8 can be disengaged from the suspension element 5 by removing the cotter pins 9.

Claims

Claims

1. An apparatus for mounting wires (1) of high-voltage open cables, especially optical ground wires, on suspenders (3) set up therefor, said suspenders comprising a carrier (4), to which the wire (1) is secured, and a suspension element (5) for the carrier (4) , by means of which the carrier is pivotably suspended to a pole structure (6), c h a r a c t e - r i z e d in that said apparatus comprises a pulley/clamping unit (2), including at least two pulleys (7), arranged removably relative to the wire (1) on opposite sides of the carrier (4) in the longitudinal direction of the wire (1) and mounted on a frame element (8) of the pulley/clamping unit (2) fastened to the suspension element (5) of the carrier (4) in a vertically adjustable fashion.

2. An apparatus as set forth in claim 1, c h a r a c - t e r i z e d in that the suspension element (5) of the carrier (4) is provided with one or a plurality of holes for a cotter pin (9) or the like of the pulley/clamping unit (2) .

3. An apparatus as set forth in claim 1 or 2, c h a r a c t e r i z e d in that the frame element (8) of the pulley/clamping unit is constituted by a supporting beam for bearing suspension means (10) of the pulleys (7) thereagainst .

4. An apparatus as set forth in claim 3, c h a r a c t e r i z e d in that the supporting beam (8) is suspended by means of two braces (15) to the suspension element (5) of the carrier (4).

5. An apparatus as set forth in any of claims 1-4, c h a r a c t e r i z e d in that the suspension means (10) of the pulleys (7) are articulated to the frame element (8) of the pulley/clamping unit so as to be rotatable relative to a shaft (11) which is parallel to the wire (1) .

6. An apparatus as set forth in any of claims 1-4, c h a r a c t e r i z e d in that the suspension means (10) of the pulleys (7) are articulated to the frame element (8) of the pulley/clamping unit (2) so as to be rotatable relative to a shaft (12) which is perpendicular to the direction of the wire (1).

7. An apparatus as set forth in any of claims 1-6, c h a r a c t e r i z e d in that the suspension means (10) of the pulley (7) are provided with a counterweight (13) .

8. A method for mounting wires (1) of high-voltage open cables, especially optical ground wires, on suspenders (3) set up therefor, said suspenders comprising a carrier (4), to which the wire (1) is secured, and a suspension element (5) for the carrier (4), by means of which the carrier is pivotably suspended to a pole structure (6), c h a r a c t e r i z e d in that the suspension element (5) of the carrier (4) is fitted with a pulley/clamping unit (2), including at least two pulleys (7), arranged removably relative to the wire (1) on opposite sides of the carrier (4) in the longitudinal direction of the wire (1) and mounted in a vertically adjustable fashion on a frame element (8) of the pulley/clamping unit (2) , and that, after hauling the wire (1) into position upon the pulley/clamping unit (2), the pulleys (7) of the pulley/clamping unit (2) are lowered down to settle the wire (1) upon the carrier (4), followed by dislodging the pulley/clamping unit (2) .