FI75443C - MED EN LEDNINGSDRAGANORDNING FOERSEDD FRILEDNINGSISOLERING FOER ELDISTRIBUTION. - Google Patents

Description

1 75443

Overhead line insulator with power supply unit for electricity distribution. - Med en ledningsdraganordning försedd frilednings isolering för eldistribution.

It is known to use traction wheels attached to either conductor insulators or columns to pull the air ducts along the line, supported by which the duct to be pulled moves more sensitively and with less traction. However, the use of separate traction wheels essentially causes additional work for the traction of the line, since such traction wheels with their fastening devices have to be transported to the column, mounted and removed after the line traction. In addition, they substantially increase the weight of the equipment carried in the management work, in addition to which the need for such equipment incurs its own equipment cost surcharge.

U.S. Pat. No. 4,178,470 discloses a lead pulling device in which a sleeve consisting of two sleeve halves is placed around a lead and supported between the jaws mounted at the end of the insulator for the duration of the lead run. After the lead is pulled, the sleeve is removed by moving it between the jaws, opening the sleeve halves. The jaw piece is complex and expensive and is only suitable for certain types of insulators. Installing and removing the towbar will cause an extra work step. The inner surface of the sleeve is straight in the longitudinal direction, whereby the stress is applied to the end corners of the sleeve, from which the sliding surface is rapidly abraded. This is facilitated by the small inside diameter of the sleeve relative to the thickness of the conductor. This results in a higher conductive resistance, which can even cause the insulator to rotate in the column. A particular problem is that the small inner diameter of the sleeve does not allow the conductor extensions to pass through.

The object of the invention is to provide a cable pulling device associated with an air duct insulator, which can completely eliminate the need for separate traction wheels and separate, separately installed and detachable cable pullers and is suitable for 2 75443 line pulling in all conditions, i.e. regardless of

This object is achieved by the invention on the basis of the features set out in the appended claims.

Some embodiments of the invention will now be described in more detail with reference to the accompanying drawings, in which Figure 1 shows an air duct insulator with wiring devices according to an embodiment of the invention and Figure 2 shows the same cable after installation when the slider and guide sleeve are twisted .

Figure 3 shows a side view of the sliding and guide sleeve of the drive device.

Figure 4 shows a second embodiment of the invention seen in the direction of the lead and partly in section.

Fig. 5 shows an auxiliary sleeve belonging to the cable pulling device according to the embodiment of Fig. 4.

In the case of Figures 1-3, a separate plastic sleeve 2 with a groove 3 for threading the cable inside the sleeve 2 is arranged in the groove 4 made in the upper end of the air duct insulator 1. The sleeve 2 is made of a slippery and tough plastic material, the hardness of which is chosen so that the metal wire does not break the surface under the loads in question. This pie- ’·. increases surface wear and coefficient of friction. The sleeve 2 can also be a plastic-coated metal sleeve, a ceramic-coated metal sleeve or a metal sleeve.

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The width of the upward opening of the groove 4 of the insulator 1 is slightly smaller than the outer diameter of the sleeve 2, whereby the sleeve 2 can be mounted in the groove 4 by compressing the sleeve by reducing the gap 3. When the widest point of the groove 4 is below said mouth opening, the sleeve 2 remains self-restrained in place. Instead of this self-retaining fastening, the fastening can be arranged e.g.

To lock the sleeve 2 in place in the axial direction, the ends of the sleeve have flanges 6 which engage the side surfaces of the insulator 1.

In order to distribute the load arising from the line pull more evenly over the entire length of the sleeve, the inner surface 8 of the sleeve is curved longitudinally so that the inner diameter is at its smallest in the central region of the sleeve and at its ends at its largest. Due to this design, in order not to have to make the middle part of the sleeve of unnecessarily thick material, there are circumferential relief grooves 7 on the outer surface of the sleeve.

According to a preferred embodiment of the invention, the sleeve 2 is made rotatable so that after the wire has been threaded in, the slot 3 can be turned to the position shown in Fig. 2, for example. The traction device with a rotatable sleeve 2 is suitable for use in all cases, even when the column is located in a valley between the cliffs and the line rests against the upper side of the sleeve 2. If necessary, the sleeve 2 can be arranged to be locked in one or more rotational angle positions. The locking member may be, for example, a separate locking member 5 to be placed on top of the insulator 1, in which a pin engages a recess or hole in the outer surface of the sleeve 2. The locking member may also be a protrusion integral with the insulator 1, which engages with notches, teeth, holes, cavities or the like in the outer surface of the sleeve 2.

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In the embodiment of Figure 4, the sleeve-like part 9 is a sliding coating fixedly connected to the surface of the groove 4. The coating can be made, for example, by a powder coating method, and the material can be nylon, Teflon or the like. In this case, the insulator 1 is ceramic.

In order to be able to use the traction device also in those cases where the load of the line is applied to the upper surface of the sleeve-like part, the slot 3 is arranged to be closed by a separate auxiliary sleeve 10 which can be pushed into place inside the sleeve-like part 9. The C-shaped auxiliary sleeve 10 covers a little over 180 ° and is flexibly compressible to reduce the diameter for installation. In this case, the own tension provided by the resilience of the closure piece and the end flange 11 prevent the auxiliary sleeve 10 from coming loose during loading. The auxiliary sleeve 10 is held axially in place by an end flange 11 corresponding to the side surface of the insulator. The end flange 11 may also be associated with a retaining lug engaging the upper edge of the insulator, which holds the closure piece 10 in place by means of a snap connection.

In all the above embodiments of the invention, it is essential that the minimum inside diameter of the sleeve-like part is at least 3 times, preferably 4 to 5 times, the diameter of the wire and the width of said gap 3, respectively. This, together with the design of the sleeve 2 or 9, ensures the lowest possible tensile resistance regardless of the tensile angle, while the cable splices can also be pulled through the sleeve.

It is clear that the invention is not limited to the embodiments presented above, but that many other embodiments are possible in various combinations or modifications of the details presented. For example, the direction of the cable mounting slot may be slightly different from the axial direction of the sleeve. The sleeve-like part can consist of many separate and / or different parts. For example, to prevent collisions in cable splices

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5 A guide suppole mounted in front of the sleeve can be used on the edge of the 75443. In some cases, the cable may be permanently slid into the guide sleeve, so that a suitable receiving groove can be formed in the inner surface of the sleeve, into which the conductor can be tightened by a fastening collar around the insulator.

Regardless of the embodiment, with the traction device solution according to the invention, compared to known solutions, e.g. the following advantages: - low cost - speeds up the installation work of the cables because the traction unit goes with the insulator without its own installation time - when pulling the cable the turning angle at the traction unit can always be 15 ° in any direction to the sides, up and down.

Claims (9)

An insulator for a power supply air supply, having a groove (12) in the periphery for mounting a conductor and having at its upper end a conductor device comprising a sleeve-like part (2, 9) mounted in the upwardly opening groove in the insulator (1) or fixed to the groove surface, an axial gap (3) through which the cable can be inserted inside the sleeve, the inner surface of the sleeve-like part (2, 9) being longitudinally curved so that the inner diameter is at its smallest and at its ends at its smallest, the rounded end edges of the sleeve-like part (2, 9) , characterized in that the minimum inside diameter of the sleeve-like part is at least 3 times, preferably 4 to 5 times, the diameter of the cable and the width of said gap (3), respectively. Cable pulling device according to Claim 1, characterized in that the sleeve-like part (2) is a separate sleeve to be mounted in the groove (4), which is rotatable about its axis in the groove (4) to close the gap (3). Wiring device according to Claim 1 or 2, characterized in that the sleeve-like part (2) is a plastic or metal sleeve or a plastic-coated metal sleeve or a ceramic-coated metal sleeve. Wiring device according to Claim 1, characterized in that the sleeve-like part is a sliding coating (9) which is fixed to the surface of the groove (4). Wiring device according to Claim 4, characterized in that the sleeve-like part is formed by a sliding coating which is nylon or Teflon and which is fastened to the surface of the groove (4) of the ceramic insulation by a powder coating method. 7 75443 Wiring device according to Claim 4 or 5, characterized in that a C-shaped auxiliary sleeve (10) can be mounted in the groove (4) provided with the sliding coating (9), which covers a little more than 180 ° and is flexibly compressed. can be installed in the groove of the insulator (4) by reducing the diameter. 6 75443 Wiring device according to one of Claims 1 to 3, characterized in that the width of the upward opening of the groove (4) of the insulator (1) is less than the outer diameter of the sleeve (2), the sleeve (2) being mounted in the groove (4) by pressing the sleeve size by reducing the gap (3). Cable pulling device according to Claim 1 to 3 or 7, characterized in that a locking element (5) is provided for locking the sleeve (2) in one or more angular positions, which engages both the insulator (1) and the circumference of the sleeve-like part (2). Wiring device according to Claim 2, characterized in that the inner surface of the insulating groove (4) is axially straight and the outer surface of the sleeve (2) has circumferential relief grooves (7) at least in the central region of the sleeve. 8 75443