HU200242B - Overhead line pole-head structure - Google Patents

Abstract

According to the invention, longitudinal insulators (4b) at least on one side of the column (1) with an angle α of at least one side of the column (1) are secured to the longitudinal axis of the insulator (6b) opposite the column (1) by at least one end of the column (1). compared to 90-a, a reinforced wire is provided with a gripping device (7b), wherein the angle α is from 0 to 45 '. (Figure 3) EN 200242A Scope of the description: 4 pages, Figure 8 -1-

Description

FIELD OF THE INVENTION The present invention relates to a freestanding column head design in which insulators carrying phase conductors are mounted on an electric three-phase power line stub.

The cross-head columns of the free-line transmission line brackets are custom-made with steel cross-brace columns. The horizontal cross member is mounted perpendicular to the column and perpendicular to the transmission line.

The triangular configuration of one phase wire insulators t ^r lake insulating the column is secured to the tip of the other two phase cable support insulator and is fixed to the end of the cross member a projection. In a one-plane arrangement, all three insulators are located on the cross member and the cross member is secured at the top of the post. In the highly secure column head design, the insulators are doubled, each phase conductor is secured to two insulators in the snow.

A cross-bracket solution is also disclosed in U.S. Patent No. 194,654. Here, the three-phase wires are fastened to insulating spacers and the spacers are hooked to the crossbar by a hook.

For cross-bearer solutions, the need for a power line trail corridor is determined by the distance between the two outermost insulators on the cross-member and twice the standard safety lane.

In the present invention, it is an object of the present invention to provide a column type design that allows a reduction in the need for a power line path corridor without loss of security.

The invention thus provides a freestanding column head design in which insulators carrying phase conductors are attached to the support column of an electric three-phase power line and characterized in that at least one side of the column at least one side of the column is angled with respect to the longitudinal axis the wire is provided with a clamping device, the angle α being 0-45 '.

In the column head design of the present invention, the distance between the outermost phase conductors is smaller than the known cross-bearer solution, assuming the same conditions, by about 20 mm. it can be reduced by half, so the width of the power line trail is also much smaller. As a result, the power lines can be routed to places where the current line would not have been suitable and the land used by the power line, taking into account the safety zones, is much smaller. This is beneficial both in terms of the cost of expropriation after the land occupation and in terms of environmental protection.

The column head design of the present invention also results in material savings compared to the cross-bracket solution, since the weight of the supporting structures required to fasten the insulators is much greater than the combined weight of the crossbar and the structure securing the insulators to the crossbar. A further advantage is that when installing the power line under voltage, the installer on the column will more easily reach the phase conductor fixed to the insulator head.

In the column head design of the present invention, the conductor clamping device used at the ends of the insulators is known per se, e.g. in a preferred embodiment of the invention according to U. S. Patent No. 189,427, the first phase conductor is provided with a vertical longitudinal insulator with a support extending upwards at the top of the column, the second and third phase conductors being symmetrical to each other on both sides of the column. two insulators are attached. Two insulators placed symmetrically on each side of the column can be fastened to the column either by their own support structure or by a common support structure. In another preferred embodiment, each of the phase conductors is provided with a longitudinal axis insulator relative to the horizontal, the insulators being positioned one below the other so that one of the insulators is located at the top of the column. Particularly preferred is the design in which the longitudinal axis of the lateral insulators has a horizontal angle of 25-35 *.

High security design, eg. at an overhead power line, or on a road or road. rail junctions can be achieved by securing the earth conductor to prevent the fall of the phase conductor under the insulators, when the insulator is tolerated, attached to the post or insulator support structure. This requires half the amount of insulators compared to the known solution.

However, the increased safety design of the column head design of the present invention can also be achieved by securing to the first phase conductor two vertical longitudinal insulators adjacent to one another on each side of the column, with a support extending upwardly at the top of the column. horizontal insulator and a longitudinal axis insulator at an angle of 25-35 'to the horizontal. In another embodiment, each of the phase conductors is provided with a horizontal insulator and a longitudinal insulator having a longitudinal axis of 25 to 35 ', which are placed one below the other along the column so that one of the insulating pairs at the top of the column. In these embodiments, it is highly advantageous that the insulating pair conductor structures of the single-phase conductor are interconnected by a security bracket. Thus, at one end of the insulating pair, only the phase conductor gripping device is required, and at the other end of the insulator, a device to which the safety support member can be connected is released.

In embodiments in which all three phase conductors are insulated or insulated. the insulating pair is mounted on the same side of the column, and on the other side of the column an additional, optionally three-phase, low-voltage insulated wire system can be placed. Thus, a medium voltage system for which the invention is particularly suitable and one

-2EN 200242 The Low Voltage System is run on an awkward pillar row.

The invention will now be further described with reference to the preferred embodiments illustrated in the drawings, wherein:

Fig. 1 is a perspective view of a known cross-brace column design;

Figure A is a side view of the column head design of Figure 1; shows a drawing of

Figure 2 shows a further possible arrangement of a known cross-brace column design, a

2A. Figure 2 is a side view of the column head design of Figure 2. drawing the

Figure 3 illustrates a possible embodiment of a triangular arrangement of the column head design of the present invention;

Fig. 4 shows an elevated security embodiment of the triangular arrangement of Fig. 3;

Figure 5 illustrates another enhanced security arrangement of the column head design of the present invention, a

Figure 6 is a column head design similar to Figure 5, but with insulators on one side of the column,

Figure 7 shows a further embodiment of the column head design according to the invention, a

Figure 8 illustrates an enhanced security embodiment of a column head design similar to Figure 3.

In the drawings, the same or similar elements are denoted by the same reference numerals throughout.

1 and 1A. In the known arrangement shown in FIG. 1A, a cross-member 2 is secured to the column 1 by means of a fastener 3. Each phase conductor 11 is provided with two insulators 4 for increased safety. One pair of insulators 4 is mounted at the top of the column 1 and the other two pairs of insulators 4 are mounted at both ends of the crossbar. All phase conductors are held by one of the insulators 4, while the other adjacent insulator 4 is responsible for holding the branch wire connected by banding to the two phase conductors in two places.

2 and 2A. FIG. 3B illustrates an embodiment of a known cross-head post design in which the insulators 4 are flush with the cross-member 2. One of the insulators 4 holding the phase conductors 11 is mounted near the column 1 and the other two insulators 4 holding the phase conductors 11 at each end of the cross member 2. In this embodiment, the cross member 2 is secured at the top of the column 1.

Figure 3 shows a triangular embodiment of a column head design according to the invention. At the top of the pillar 1, the insulator 4a is secured to the vertical by a longitudinal axis by means of a support 5 by means of a support structure 6a. At the other upper end of the insulator 4a is a device 7a for gripping the phase conductor.

At the apex of the pillar 1, two insulators 4b are mounted at a suitable distance with supporting structures 6b and mounted symmetrically to the longitudinal axis of the pillar 1. The support structures 6b are attached to the post by a common fastening means 8. The longitudinal axis of the insulators 4b is at an angle α to the horizontal, for example! version approx. 30 stars. The structure 7b is disposed at the end of the insulator 4b so as to close at an angle 90'a to the longitudinal axis of the insulator 4b, which in the embodiment shown is about 90 °. 60'os. This ensures that, despite the oblique position of the insulators 4b, the structure holding the phase conductors is in the correct position.

Figure 4 shows an elevated security embodiment of a column head design according to the invention in a triangular configuration. At the top of the column 1, the support 5 secures a support structure 6a on which two insulators 4a are mounted side by side. One of the insulators 4a to the left of the figure has a structure 7a which serves to fix the phase conductor. The other structure 7a 'at the end of the drawing on the right-hand side seal 4a is configured to attach a bracket 9 which engages the structure 7a. The function of the support 9 is that if the left insulator 4a is broken, the structure conducting the phase conductors 7a will be retained by the other insulator 4a. At the end of the insulator 4b mounted on the column 1 at an angle α there is provided a structure 7b for gripping the corresponding phase conductor. This structure 7b is also connected with a support 9 to a structure 7c mounted on the end of a horizontal longitudinal insulator 4c. The insulator 4c is secured to the post by a support structure 6c. The support structure 6c of the insulators 4c, which are mounted symmetrically to each other, is attached to the column 1 by a common fastening means 8. Similarly, the support structure 6b of the two symmetrically disposed insulators 4b is also attached to the column 1 by a common fastening means 8. Thus, in this embodiment, increased safety is achieved by two insulators as phase conductors.

Figure 5 also shows an embodiment of increased safety, but unlike Figure 4, the top phase conductors are supported by a horizontal longitudinal insulator 4c. In this embodiment, the insulators 4c and 4b for the uppermost phase conductor are mounted at the top of the column, going downwards the insulators 4c and 4b for the next phase conductor are on the other side of the column, and the insulators 4c and 4b are placed.

Fig. 6 differs from Fig. 5 in that the insulators 4b and 4c holding each of the three phase conductors are arranged one after the other on the same side of the column. This design allows an additional wiring system, e.g. a low voltage insulated wiring system shall be installed.

Figure 7 shows a further preferred embodiment of the column head design according to the invention, wherein a first three-phase conductor system is provided on one side of the column 1 and a second three-phase conductor system on the other. In each of the two conductor systems, the individual phase conductors are held by longitudinal insulators 4b which have an angle α relative to the horizontal. The opposing insulators 4b of the upper and lower phase conductors are secured to the column 1 by means of the supporting structures 6b, which is formed by a threaded screw. The middle phase conductor insulators 4b have a common support structure 6b *

-3EN 200242 The one that is attached to the 1 post by means of screws, not shown in the drawing *.

Fig. 8 shows a triangular column head arrangement similar to Fig. 3, in which mounting means 10 are provided under each phase conductor to prevent the conductors from falling. In the illustrated embodiment, the clamping element 10, e.g. 6a is welded to the supporting structure. However, it is also possible that the receiving element 10 is attached directly to the post. The clamping elements 10 are earthed and their function is to provide the earthing elements 4a and 4a. The insulator 4b is broken, the falling phase conductor is grasped and a short circuit is produced which results in a voltage cut-off.

In Fig. 8, structures 7a and 7b are exemplified by way of example. is shown. With the design of Fig. 8, the increased security is shown in Figs. 4b can be achieved without duplicating insulators, resulting in significant savings.

Claims (14)

Claims A free-conductor column head arrangement, wherein insulators carrying a phase conductor are mounted on a column of an electric three-phase power line, characterized in that at least one side of the column (1) has longitudinal axial insulators (4b, 4c) 6c) fastened, which insulators (4b, 4c) are provided at their ends opposite to the column (1) at an angle of 90 'to the longitudinal axis of the insulator (4b, 4c) with a wire gripping device (7b, 7c) -45 '. The column head design of claim 1, wherein the first phase conductor is a. a vertical longitudinal axis insulator (4a) is mounted at the apex of the column (1) with an upwardly projecting support (5a), and the second and third phase conductors are secured symmetrically to each other on the two sides of the column (1); . Column head arrangement according to claim 2, characterized in that the two insulators (4b) which are symmetrically mounted on each side of the column (1) have a support structure (6b) which are fixed to the column (1) by means of a common fixing member (8). . Column head design according to Claim 2, characterized in that the two insulators (4b), which are symmetrically mounted on each side of the column (1), have a common support (6b ') which is secured to the column (1) by a strap. The column structure according to claim 1, characterized in that each of the phase conductors is provided with a longitudinal axis insulator (4b) with respect to the horizontal, which is insulated (4b) along the column (1). they are arranged side by side so that one of the insulators (4b) is located at the top of the column (1). 6. A column head design as claimed in claim 5, characterized in that all three insulators (4b) are located on one side of the column (1). 7. Figures 1-6. A column head design according to any one of claims 1 to 4, characterized in that the angle α is from 25 to 35 *. I 8. Figures 1-7. Autumn head design according to any one of claims 1 to 3, characterized in that, for increased safety, the insulator (4a, 4a) under the insulators (4a, 4b) 4b), in the event of a break, the ground conductor (10), which prevents the phase conductor from falling, is secured to the post (1) or to the support structure (6a, 6b) of the insulator (4a, 4b). A column head arrangement according to claim 1, characterized in that two vertical longitudinal insulators (4a) are fastened side by side with the support (5) projecting upwards at the top of the column (1) for increased safety For the phase phase conductor, a longitudinal insulator (4c, 4b) is mounted on one side of the post (1) on one side and at an angle of 35-35 * with respect to the horizontal. 10. A column head design as claimed in claim 1, characterized in that, for increased security, a horizontal insulator (4c. 4b) is mounted on the column (1), one above the other for each phase conductor and a longitudinal insulator (4c. 4b) at an angle of 25-35 *. the insulating pairs (4c, 4b) being disposed below each other along the column (1) so that one of the insulating pairs (4c, 4b) is located at the top of the column (1). The column head arrangement according to claim 10, characterized in that the first and third insulating (4c, 4b) pairs on one side of the column (1) and the second insulating (4c, 4b) pair on the other side of the column (1) is placed. The column head arrangement according to claim 10, characterized in that all three pairs of insulators (4c, 4b) are disposed on one side of the column (1). 13. A column head design according to any one of claims 1 to 4, characterized in that the insulating (4a; 4b, 4c) pairs of conductors (7a, 7a '; 7b, 7c) of the single-phase conductor are connected to each other by a safety bracket (9). Column design according to Claim 6 or 12, characterized in that insulators of an additional, optionally three-phase conductor system are fastened to the other side of the column (1).