DE4400619A1 - Pylon supported overhead cable suspension for communications and LV conductors - Google Patents

Abstract

A pylon (8) supporting an overhead communication or LV conductor (1) is equipped with two stress-relieving outriggers (4) each of which carries a circular clamp (16) and the terminal points (5) thus formed enable a tension-free loop (6) to be formed from the conductor (1) on one side of the pylon (8).A vibration damping system for counteracting the effects of wind pressure etc. comprises the two members (9, 10) attached (15) to two of the pylon corner members (3) each having the eyelet guides (11) surrounding the conductor loop (6) for positional control.

Description

The invention relates to an overhead line with the features of the preamble of Claim 1.

The line masts for overhead lines have recently also been used and used for routing communication cables. Such cables or too in general, lines that do not carry high voltage have no elec insulation problems with respect to the line poles. Such air cables can be attached to the line mast using guy fittings attached to it be excited. The exact construction of such a guy fitting is known from DE 39 22 775 A1. At the attachment point of the guy fitting a so-called guy point is created with the aerial cable. In line length Direction of the aerial cable is a guy point on both sides of the mast available. Due to the tensioning of the aerial cable between the a cable loop free of tensile stress with both guy points an excess length compared to the distance between the two guy points. Because of The insulation loop can eliminate electrical problems View must be very close to the mast. However, since the cable loop is mechanical is not additionally fixed, it can e.g. B. undesirable due to wind and uncontrolled changes in target position of the cable loop. This undesired changes in the target position can lead to mechanical damage the cable loop in this section of the cable until the air cable breaks.

In GB 2 104 304 A there are fasteners arranged on the mast for fixing the cable loop in a target position. This fixative act like rigid clamping of the cable loop on the mast. The loop areas between the brackets are affected by wind score excited to mechanical vibrations. The resulting Alternating bending stresses of the cable loop can also lead to me  mechanical damage to the cable loop lead to destruction. The The result is complex and expensive repair measures on the air cable with it significant business consequences from the line break.

Based on the disadvantages described, the object of the invention underlying, further risk of mechanical damage for the cable loop to reduce. This task is achieved through the combination of features of the To Proverb 1 solved.

According to the invention, the device for fixing the cable loop on the Lei mast both a fastening effect and a damping effect. As a result, there is a particular risk of mechanical dynamic damage significantly reduced for the cable loop. Basically, all are usual for this Chen damping devices can be used. Depending on the design dimension The cable loop can be selected from the large number of available devices a suitable damping device can be selected. The damping vor direction does not require electrical insulation. The constructive structure of the Damping device remains very simple.

According to claim 2, the free end of the damping device is in an Ab stood up to the mast. The distance is expediently such chosen that even with the still occurring, damped vibration ampli the cable loop does not come into contact with the cable mast. On this way the cable loop is additionally protected against mechanical damage protected against damage.

Claim 3 strikes as a damping agent in terms of its mode of action and its constructive structure of well-known damper rope. The damper rope is z. B. also with vibration dampers for damping high-frequency mechanical vibrations of conductor cables. It is therefore available in large numbers. In addition to its spring elasticity the damper rope has enough inherent stability to move between the free end of the Damping device and the line mast the desired minimum to ensure standing.

An arrangement of the damping device and the cable loop according to An saying 4 and 5 ensures very large damping force components and thereby improves the efficiency of the damping device.  

Claim 6 ensures a mechanically stable fixation of the cable loop on the damping device and thus also on the mast. As Be Fixing clamp for this fixation are conventional fasteners in large number available.

According to claim 7, the cable loop is opposite the damping device fixed particularly stable. The form-fitting attachment of the loops cross-section also facilitates the assembly of the cable loop on the loading fastening clamp.

Claim 8 proposes several damping devices. This is also the sufficient damping of mechanical vibrations from cable loops particularly large design dimensions, e.g. B. at great length of Cable loop considered. Damping is also more mechanical Vibrations continue in the event of failure or defect of a damping device guaranteed.

The large length of the cable loop can be caused by a very large one Distance between the two guy points and the other by a very large one Radius of the cable loop may be caused. A large radian measure arises, if the cable loop z. B. in the manner of an arc of about 270 ° around the Pylon is led around.

According to claim 9, the cable loop is along its length direction held approximately in the same plane. This is the desired one Minimum distance of the cable loop to the line mast and also to others Objects such as B. other aerial cables of the overhead line along the entire The longitudinal direction of the loop is reliably observed. Let in on the same level damping devices also call a particularly large Ge velvet dampening effect.

Claims 10 and 11 relate to different designs of aerial cables. Earth wire aerial cables can use copper wires or light to transmit messages use waveguide (FO). Ground wire fiber optic air cables and metal-free fiber optic Air cables are z. B. from RIBE electrical Fittings, "Fitting system RIBE-OPTOFIT for fiber optic Luftkabel ", 2.0 / 9211 / MI known.  

According to claim 12 is a technically easy assembly of the Cable mast possible in the longitudinal direction of the air cable crossing. Disassembly to replace individual components of the overhead line is also possible facilitated. The two cable ends are in the area of the mast by means of suitable coupling elements galvanically and / or optically to one another coupled.

Claim 13 relates to a simple measure to avoid grounding problems if the aerial cable is an earth cable aerial cable.

The subject matter of the invention is illustrated in the figures tion examples explained in more detail. Show it:

Fig. 1 is a schematic plan view of a cable mast and fixed thereto cable loop an air cord,

Fig. 2 is a schematic side view of the inventive fixation of a cable loop.

In Fig. 1, an air cable 1 passes in line longitudinal direction 2 a pylon 3 only shown schematically. On the line mast 3 two guy fittings 4 as shown schematically are attached. The guy fittings 4 are aligned in the longitudinal direction 2 of the line and are above the line mast 3 in this direction. One guy fitting 4 braces the air cable 1 at one guy point 5 . The cable section of the aerial cable 1 between the two guy points 5 acts as a cable loop 6 . The length of the cable loop 6 in the longitudinal direction 7 of the loop is longer than the distance between the two guy points 5 in the longitudinal direction 2 . From the mast 3 is shown in Fig. 1 from the ground from approximately in the vertical direction 14 extending corner post 8 . At the two adjacent corners of the corner post 8 facing the cable loop 6 there are two damping devices 9 which project approximately horizontally in different directions. The damping device 9 essentially consists of a damper cable 10 , a free end 11 for fastening the cable loop 6 and a mast fixing 12 for fastening the damping device 9 to the corner post 8 . The two damper cables 10 are each arranged at right angles to the longitudinal direction 7 of the cable loop 6 with their longitudinal axis.

In FIG. 2, the damper wire 10 runs in the horizontal direction 13. The corner post 8 is arranged approximately perpendicularly thereto in the vertical direction 14 . The damper cable 10 is fi fixed by means of a connecting plate 15 attached to the corner post 8 on the mast 3 . . The terminal plate 15 in Figure 2 corresponds to the mast fixing 12 in Figure 1. The the connecting plate 15 facing away in the horizontal direction 13, the free end - in FIG. 1 referred to as a free end. 11 - is designed as a two-shell fixing clamp 16. The circular cross section of the cable loop 6 is clamped in a central cavity of the fastening clamp 16 .

Reference list

1 air cable
2 Longitudinal line
3 masts
4 guy fittings
5 guy point
6 cable loops
7 Loop longitudinal direction
8 corner handle
9 damping device
10 damper rope
11 free users
12 mast fixation
13 horizontal direction
14 vertical direction
15 connection plate
16 fastening clamp

Claims (14)

1. Overhead line anchored to a line mast ( 3 )

• - with at least one air cable ( 1 ),
• - with the pylon (3) fixed to the anchoring fittings (4) for stock removal of the drying air cable (1) on either side of the pole (3),
• - With a between the two guy points ( 5 ) of the air cable ( 1 ) as a cable loop ( 6 ) effective cable section with excess length compared to the distance between the two guy points ( 5 ) and
• - With a device for fastening the cable loop ( 6 ) to the line mast ( 3 ),

characterized in that the device is additionally designed as a damping device ( 9 ) for damping mechanical vibrations of the cable loop ( 6 ). 2. Overhead line according to claim 1, characterized in that the damping device ( 9 ) on the line mast ( 3 ) is fixed and with egg nem for fastening the cable loop ( 6 ) formed free end ( 11 ) protrudes from the line mast ( 3 ). 3. Overhead line according to claim 2, characterized in that the damping device ( 9 ) contains a free end ( 11 ) and the Mastfixie tion ( 12 ) connecting damper cable ( 10 ). 4. Overhead line according to claim 2 or 3, characterized in that the damping device ( 9 ) is arranged approximately perpendicular to the loop longitudinal direction ( 7 ) from the line mast ( 3 ). 5. Overhead line according to one of claims 2 to 4, characterized in that the damping device ( 9 ) lies in a horizontal cross-sectional plane of the line mast ( 3 ). 6. Overhead line according to claim 2, characterized in that the free end ( 11 ) is a fastening clamp ( 16 ) for receiving the cross section of the cable loop ( 6 ). 7. overhead line according to claim 6, marked by a positive fit of the loop cross-section. 8. Overhead line according to one of claims 2 to 7, characterized by a plurality of damping devices ( 9 ) for the cable loop ( 6 ). 9. Overhead line according to one of claims 2 to 8, characterized in that all damping devices ( 9 ) lie approximately in the same plane. 10. Overhead line according to one or more of the preceding claims, characterized in that the air cable ( 1 ) is an earth cable air cable. 11. Overhead line according to one or more of claims 1 to 9, characterized in that the air cable ( 1 ) is a metal-free fiber optic air cable. 12. overhead line according to one or more of the preceding claims, characterized by one of the two cable ends of a ankom to the pylon (3) Menden air cable (1) and an outgoing from the pylon (3) air cable (1) formed two-piece cable loop (6) . 13. overhead line according to one or more of the preceding claims, characterized in that a grounding terminal for grounding the cable loop (6) on the mast fixed line (3) and electrically connected to the pylon (3).