SK19894A3 - Insulator for an external wire - Google Patents

Description

(57) Insulator for external conductors for attaching conductors to support structures such as columns and column cross members. The end of the insulator (1) is permanently provided with a pulling and clamping mechanism (2) provided with a space (4) for pulling the conductor which is defined from below, from the sides and optionally from above by rollers (5,6) and / or sliding washers. It is further provided with a thrust element (7) which is adjustable towards the bottom of the conductor pulling space (4). The conductor is closed between the pressing element (7) and the bottom of said conductor pulling space (4). The locking surfaces of the pressing element (7) and the bottom of the conductor pulling space (4), which are located opposite one another, are provided with toothing or a network of grooves to prevent the conductor from slipping after it has been installed.

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- 1 Insulator for external conductor

Technical field

The invention relates to an outer conductor insulator for fastening the conductor to support structures such as columns or transverse beams of columns. The invention also relates to a method of pulling, installing and clamping an outer conductor to an insulator.

BACKGROUND OF THE INVENTION

When a power grid is built with modern technology, medium voltage conductors are usually pulled using pulling pulleys. After stretching the conductor, it is necessary to lift the conductor into a groove on the insulator head or on the insulator neck, where it is then connected to the insulator by means of a biased screw fastener or aluminum tie wire. This work is time consuming and requires installers to climb the pole several times, and therefore assembly costs are high. In order to avoid the use of a traction sheave, a traction sleeve mounted at the end of the insulator and a hand roller was developed, eliminating the need for a separate traction sheave. In addition, means have also been developed to replace traditional binding wire, such as e.g. top end at insulator end.

To date, however, an insulator has not been developed that integrally includes the device necessary for both pulling and clamping the driver. It is an object of the invention to provide such an insulator which would greatly facilitate the design of power lines, reducing the amount of work required for its construction.

It is a further object of the present invention to provide an insulator which is suitable for various applications and is thus able to reduce the number of types of insulators that must be available. For example, it is preferred that one type of insulator is useful for pulling and fastening both sheathed and unsheathed conductors. In the case of a sheathed conductor, it would also be appropriate to provide the insulator with an arc protection, thus eliminating the need for separate arc protections.

Another object of the invention is to provide an insulator that facilitates the installation of a helicopter guide.

SUMMARY OF THE INVENTION

Said objectives and objects are achieved by an outer conductor insulator for securing the conductor to a support structure, such as a column or a transverse beam of the column, wherein the end of the insulator is permanently equipped with a pulling and clamping mechanism comprising both a pulling space defined below. on the sides and optionally also from above by rollers and / or sliding pads, and on the other hand a clamping element for fastening the conductor, which is adjustable towards the bottom of the conductor pulling space, the conductor being clamped between the clamping element and said bottom according to the invention, The locking surfaces of the pressing element and the bottom of the conductor pulling space are arranged opposite each other and are provided with a toothing or a network of grooves to prevent the conductor from slipping after it has been installed. The bottom of the driver pulling compartment is equipped with a separate bottom plate with a toothing or a network of grooves on one or both surfaces.

Further objects of the invention are achieved by the features of the invention according to the appended claims.

Overview of the figures in the drawing

An exemplary embodiment of the invention will be described in more detail with reference to the accompanying drawings in which:

Fig. 1 shows a side view of the insulator according to the invention seen in the direction of the conductor.

Fig. 2 is a view perpendicular to the direction of the conductor showing the pulling and clamping mechanism included as an integral component in the insulator of FIG. 1 and FIG. 3 is a plan view of the pulling and clamping mechanism of FIG. 2 fig. 4 shows an insulator according to the preceding figures which is provided by an additional device to facilitate the installation of the wire by a helicopter.

Fig. Figures 5-7 show the pressure element contained in the insulator from different sides; 8-10 illustrate a tear-off plastic component which, together with similar plastic components, is used to hold the thrust elements apart and to overlap the teeth during pulling of the conductor.

DETAILED DESCRIPTION OF THE INVENTION

The insulator X may be a solid ceramic or plastic insulator or a composite insulator, the base of which is fixed by bolts to the column or to the crossbeam. The insulator X can also be a pin insulator with a metal stud inside the insulating material. Such pin insulators are especially used in medium voltage conductors.

The upper end of the insulator X is permanently connected to the traction and clamping mechanism 2 comprising a body X fitting into the profiles clamped around the upper end of the insulator X. The upper section of the body X is provided with a driver pulling space 4.

The opposite ends of the driver pulling space 4 are provided with rollers 5 for supporting the driver from below to facilitate the pulling of the driver. The rollers 5 may be replaced by plain friction pads with a low coefficient of friction. Thanks to the rollers 6, the pulling of the conductor can also be facilitated at angles. The distance between the rollers 6 is slightly greater than the maximum diameter of the driver. Additional devices, in particular upper rollers, may be mounted between the upper ends of the rollers 6, which facilitate the pulling of the conductor at an angle upwards from the horizontal plane.

In order to secure the conductor, passing at a suitable tensile stress, against the bottom of the conductor pulling space 4, the insulator comprises a pressing element 7 which is compressible downwards by means of a horizontally pulling member 8 with locking screws 9 which extend through its end. The screw holes in the member 8 do not have a thread, like the holes 9 ', located in the pressure element 7. The opposite sides of the body 3 are provided with threaded holes 23 for receiving the screw shafts 9, 9. One locking surface of the pressing element 7 is provided with a sharp pointed toothing 11 and the other locking surface is provided with a toothing 12 comprising flat-shaped or double-ended protrusions. The purpose of the toothing 11, 12 located on the locking surfaces is to prevent the driver from sliding under the influence of a load applied to the driver during operation. Also, the bottom of the conductor pulling space 4 is preferably secured by a toothed locking surface. The bottom of the driver pulling space 4 is therefore provided with a separate bottom plate 7 'having a toothing 11, 12 on one or both surfaces. The pressing element 7 and the bottom plate 7 'are preferably identical and interchangeable as such. Opposite surfaces of the bottom plate 7 'are also provided with different types of gearing. Of course, teeth 11. 12 can have a variety of shapes and these teeth can also be replaced by a network of grooves. In the exemplary embodiment, one face is provided with a sharp-edged toothing 11, and the toothing 12 on the other face is formed by flat-shaped or blunt teeth.

The sharp edges of the tooth tips 11 extend in the longitudinal direction of the wire to penetrate between the wire of the wire without breaking the fibers. The unattached bottom plate 7 'and the element 7 can be inverted, whereby the angular toothing 11 can be used for insulated conductors and the toothing 12 for uncoated conductors. The toothed region of the pressing element 7 and the bottom plate 2 'has a width which exceeds the distance between the side rollers 6, allowing the driver to always remain between the teeth, even if its position and direction can change within the range given by the rollers 6. In practice, the conductor is aligned with the teeth 11 and 12 or on a network of grooves which are located on the locking surfaces.

When the insulator is used to support the conductor V covered by the insulating sheath, the length of the teeth 11 is sufficient to penetrate the insulating sheath and then the tips of the teeth 11 come into contact with the metal conductor. In order to provide an insulator capable of serving as a discharge protection, the metal body 3, e.g. by means of a screw, a protective rod 20 extending at an acute angle and away from the conductor (FIG. 2). The electric arc generated by the current shock that moves the conductor discharges from the end of the rod 20, e.g. into the transverse beam of the column. The wire will therefore not be damaged, which could occur if the electric arc discharges directly from the wire.

Figures 8-10 illustrate a plastic component 14 primarily intended to hold the pressing element 7 in its up position during retraction of the conductor. For this purpose, the plastic component 14 is provided with plate elementary 15 for covering the toothing 11, 12 on the pressure element 7 and on the bottom plate 7 '. Between the pressing element 7 and the bottom plate 7 'are two identical plastic components 14, each inserted from their own side into the recess 21, the locking screws 9 passing through the slot 23 and finally the groove 27 is gripped by the retaining brackets 26. The plastic components 14 insertable from the opposing sides are inserted relative to each other relative to each other, with the teeth 24 in one plastic component 14 engaging a recess 25 in the other plastic component 14. The plate elements 15 of one plastic component 14 cover the bottom plate 7 'and the pressing element 7 is covered by the plate elements 15 of the second plastic component 14. When the conductor retraction is complete, the plastic components 14 are simply removed by pulling out the handle 20. it is provided with a curved side edge 22 which allows the plastic components 14 to be peeled off. The part 28 has a height corresponding to the desired distance between the pressing element 2 ^{and the} bottom plate 7 '.

When the pulling of the conductor is complete, the plastic components 14 are plucked and the conductor is clamped between the pressing element 7 and the bottom plate 7 '. The pulleys 6 are located in the support brackets V3, the top open recess 21 is, on the one hand, wide enough to receive the lowering ends of the pressing element 7 and the bottom plate 7 'and guiding the pressing element 7 when pressed down by the locking screws 9.

The surface of the body 3 over which the bottom plate 7 ' is supported is provided by a growth elevation comprising the elevations 22. between which teeth 11 or 12 fit.

The height of the elevations 22 in the elevation grid is equal to or slightly greater than the height of the teeth 11. As a result, the tips of the teeth 11 are not blunted when the pressing element 7 and the bottom plate 7 'are pressed against the uncoated conductor and the teeth 12 are directed against the conductor.

Fig. 4 shows an embodiment of an insulator according to the invention with an additional device 16-19 for use in the installation of a wire by a helicopter. The wire lifted into the air by the helicopter is lowered so that it touches the guide 16, which is fixed by means of a screw 17 to the body 3, e.g. to the upper end of the pulley pin

6. The second guide 16 'forms a V-angle with the guide 16. The guide 16 projects obliquely upwardly from the insulator i and thus the lowered conductor descends along the guide 16 into the driver pulling space 4 where it is

Ί wire V automatically retained by folding lever 19. The lever 19 is pivotable about the support shaft 18 in such a manner. that the driver V can enter the driver pulling space 4 but cannot exit it anymore. The thrust element 7, whose pulling member 8 is bound thereto by a thrust screw, is at this stage on the side of the space 4 and can be rotated from this area to its position. The guide and retention mechanism 16-19 is removed by loosening the screws 17. The pressure element 7 is rotated on top of the space 4 and pressed down by screwing the closing screws 6.

The embodiment described above is only one possible embodiment of the invention. For example, the closing screws 9 of the pulling member 8 may be replaced by an assembly in which one end of the pulling member 8 is fixed in position by a hinge and the other end is fastened with a bayonet bolt that can be actuated e.g. from Earth. This completely eliminates climbing on the pole. Such tightening of the screws 9 can be carried out remotely by means of a commonly known extension tool. In both cases it is also possible to work on live conductors.

The use of the insulator according to the invention makes it possible to apply larger conductor angles and higher operating loads, which facilitates and speeds up the design of power lines. Separate plumbing devices such as traction sheaves, top tips and cumbersome mounting spirals can be forgotten and installation work is greatly facilitated.

In addition, the invention makes it possible to reduce the amount of insulators and crossbeams necessary for the construction of the line. The insulator according to the invention also always provides the same clamping of the conductor, since the tension-tensioned conductor can be clamped directly in this position.

Claims (12)

An insulator for an outer conductor for fastening the conductor to support structures such as columns and transverse beams, the end of the insulator (1) being permanently equipped with a pulling and clamping mechanism (2) of the conductor, comprising both a space (4) for pulling the conductor. delimited from below, from the sides and optionally also from above by rollers (5,6) and / or sliding washers and on the other hand by a pressing element (7) which is adjustable towards the bottom of the driver pulling space (4). 7) and said bottom, characterized in that the locking surfaces of the pressing element (7) and the bottom of the conductor pulling space (4) opposite one another are provided with a toothing (11, 12) or a network of grooves to prevent the conductor from slipping. its installation and that the bottom of the driver pulling space (4) is provided with a separate bottom plate (7 ') containing a toothing (11, 12) or a network of grooves on one or both and areas. An outer conductor insulator for securing the conductor to support structures such as columns and transverse beams, wherein the insulator end (1) is permanently equipped with a pulling and clamping mechanism (2) of the conductor comprising both a conductor pulling space (4) defined from below, from the sides and optionally from above by rollers (5,6) and / or sliding washers and on the other hand by a thrust element (7) which is adjustable towards the bottom of the driver pulling space (4). ) and said bottom, characterized in that the locking surfaces of the pressing element (7) and the bottom of the conductor pulling space (4) which are opposite one another are provided with a toothing (11, 12) or a network of grooves to prevent the conductor from sliding installed and that the pressing element (7) is held in its upper position by means of the plucking component (14). An insulator according to claim 1 or 2, characterized in that the toothing (11) located on at least one of said securing surfaces is long enough to penetrate the insulating layer of the insulated conductor and that the pulling and clamping mechanism (2) is provided with a rod (20). ) a discharge protection which forms an acute angle (a) with respect to the conductor (V) mounted in the pulling and clamping mechanism (2). An insulator according to claim 1, characterized in that the pressing element (7) and the bottom plate (7 ') are interchangeable or identical. Insulator according to claim 1 or 4, characterized in that the opposing faces of the pressing element (7) and / or the bottom plate (7 ') are provided with different toothing so that one face is provided with a sharp toothing (11) and the other face with a toothing. (12) with flat or blunt ends. An insulator according to claim 1 or 2, characterized in that the sides of the conductor pulling space (4) are provided with a vertical top-open recess (21), the width of which allows the downward ends of the pressing element (7) to be received. An insulator according to any one of claims 1 to 6, characterized in that the region of the pressing element (7) provided with a toothing or groove has a width which exceeds the width of the conductor pulling space (4) and that the pressing member (8) of the pressing element (7) is mounted transversely with respect to the driver pulling space (4) and its opposite ends are provided with locking screw holes (9) and threaded holes for said locking screws (2) are located in the body (3) of the pulling and clamping mechanism (2) ( 9). An insulator according to claim 2, characterized in that the tear-off component (14) is provided with plate elementary elements (15) which cover the teeth (11, 12) of the pressing element (7) and the bottom plate (7 '), (15) is a slot (22, 27) for receiving the locking screws (9) of the pressing element (7). Insulator according to claim 1 or 2, characterized in that, for the installation of the helicopter wire, the traction and clamping mechanism (2) is provided with a removable attachment consisting of a diagonally extending guide (16) and a tilting lever (19) located on the pin above a driver pulling space (4) which allows the driver descending along the guide (16) to find a way into said space (4), but prevents the driver (V) from leaving the space (4). Insulator according to claim 1 or 2, characterized in that the opposite ends of the bottom of the driver pulling space (4) are equipped with rollers (5) rotatable about horizontal axes and the sides of the driver pulling space (4) are primarily delimited by rollers (6). rotating around vertical axes. A method for installing and clamping an outer conductor to an insulator, in particular by means of a helicopter to an insulator mounted to a transverse beam of a column, characterized in that the conductor lifted into the air by a helicopter is contacted with a conduit (16) attached to the insulator (1) and protruding from the insulator upwardly, then the conductor is lowered along the guide (16) to the pulling area (4) of the conductor located at the top of the insulator and the conductor is automatically retained in the space (4) by tilting lever (19); tensioned by longitudinal pulling to a suitable tensile stress and then the conductor (V) in the insulator (1) is clamped between the toothed or groove network provided with locking surfaces formed on the pressing element (7) and the bottom of the conductor pulling space. Method according to claim 11, characterized in that during the installation of the conductor (V), the pressing element (7) is held in position along the conductor pulling chamber (4) and before the clamped conductor is clamped the auxiliary device (16-19) is removed and the pressure element (7) is moved to the top of the space (4) and then the driver is clamped. ¾v / tfg- cm cm (V <40- [0035] FIG. 4 7Α ⁷ , i 9 ' Fig. 7 w T