DE2934684C2 - Live or earth rope - Google Patents

Description

The invention relates to a phase or earth rope unsupported high-voltage line and a method for Production of the same in the preamble of claim 1 or 4 Art.

There are high voltage lines in electrical distribution systems isolated from the arms of pylons or others Beams placed along the cable route at intervals are. To protect against lightning strikes is above the phase ropes a high-voltage cable between the pylons attached so that the lightning strikes the earth rope rather than the Break in phase ropes. The earth rope is not from the pylon insulated but electrically connected to it, creating a Connection to earth potential is established. That is why Earth rope an uninsulated cable. Conventional earth ropes contain strands of aluminum wire as an electrical wire and galvanized steel wires for strain relief, seven or more aluminum wires and galvanized steel wires in concentric layers are arranged. The central wire or the wires are made of galvanized steel and the outer layers are made of aluminum.

A phase or earth rope of the type mentioned is from FR-PS 22 39 742 known that the arrangement of an optical fiber in the middle of a phase or earth rope of a high-voltage line shows. Here, the one or more optical fibers a tubular sleeve made of plastic material, around it one or more layers of wire as a conductor and strain relief are arranged. The sleeve is made of plastic material enable a secure attachment of the optical fibers.  

In DE-OS 28 20 510 an overhead line is proposed, at the optical fiber first in a plastic tube or an extruded plastic body is embedded, the is in turn inserted into a sleeve which is replaced by a C-shaped cross section or formed by individual segments and is surrounded by a strain relief.

A C-shaped cross-sectional shape is also from DE-OS 26 04 766 known.

These known or proposed constructions have in common that much of the cross-section of non-conductive Material is ingested so that sufficient to achieve low DC resistance of the total diameter and thus the weight compared to phase or earth conductors is greatly enlarged without a signal conductor. When installing the signal conductor the DC resistance has a special meaning with regard to the risk of heat damage to the signal conductors Lightning strikes so that this DC resistance when installed should be reduced by signal conductors.

The invention has for its object a phase and earth rope of the type mentioned and a method for its production to create a safe protection of the Signal conductor results.

This object is achieved by those specified in claims 1 and 3, respectively Features solved.

Advantageous embodiments of the invention result from the respective subclaims.

Due to the design of the tubular elongated Component made of an electrically conductive C-shaped cross section, the optical fibers can be loosely inserted in this cross-section be what this cross section around these fibers is closed. This way, as well as by using it a pipe made of conductive material surrounding the strain relief there is an optimal cross-sectional utilization with little Weight without the DC resistance due to the installation of the signal conductors increased and thus the risk of heat damage to the Signal conductor is enlarged when lightning strikes.

Embodiments of the invention are described below with reference to the Drawings explained in more detail. Show it

Fig. 1 shows a section through a known phase rope, which can be used as an earth rope, and

Fig. 2 shows a section through an embodiment of the phase or earth rope according to the invention.

In Fig. 1, a known cable is shown, which consists of a steel-reinforced conductor 1 made of aluminum and can be used as a phase or earth rope. The conductor 1 contains seven galvanized steel wires 2 , which form a core around which there are two layers of aluminum wires 3 . The inner layer consists of 12 wires 3 and the outer layer of 18 wires 3 . In this so-called "Lynx" version of a conductor 1 (275 KV), the wires 2 and 3 have a diameter of 2.79 mm. The dimensions and weights of the "Lynx" conductor are given in Table 1. The nominal area of the aluminum is 175 mm². Different sizes of phase and earth cables are used for different voltages.

The embodiment of the phase and described below Erdseils has comparable dimensions and weights and has furthermore optical fibers for the transmission of messages. The specified embodiment represents an alternative to "Lynx" ladder represents, but it can with other diameters too be compared with other known conductors.

The embodiment of FIG. 2 has a group of z. B. five individual, coated optical fibers 10 , which are arranged loosely in an elongated electrically conductive component in the form of a tube 11 made of a closed C-part made of aluminum. The optical fibers 10 are placed in the channel of an open C-part, which is then pressed through a mold to close. The joint 12 can be welded or soldered for the hermetic sealing of the tube 11 . Alternatively, the tube 11 can also be closed by a layer of wires.

The embodiment according to FIG. 2 has a layer of 14 high tensile steel wires 15 with a diameter of 2.11 mm around the tube 11 . The steel wires 15 are surrounded by a tube 16 , which is formed by a copper strip with a thickness of 1.57 mm, which is placed lengthwise around the steel wires and the edges 17 of which are welded together.

The positions of the wires can be done by conventional reinforcement machines be applied.

The properties of the embodiment according to FIG. 2 are shown in the following table in comparison to the known phase rope according to FIG. 1:

The embodiment of Fig. 2 is designed to have the same aluminum area of about 175 mm² as the "Lynx" line to achieve the required small DC resistance. It is important that the I²R remains small to protect the optical fibers from heat damage from lightning. From the numbers in the table above it can be seen that the phase or earth rope with the optical fibers does not deviate significantly from the "Lynx" conductor neither in terms of the tensile values or the DC resistance and that it is even better in some values.

The use of optical fibers for the transmission of Messages, tax information and data in earth ropes or Phase ropes are a cost-effective alternative to the existing telephone networks.

Embodiments with more or less optical fibers than those described are conceivable, also those with other strain reliefs and aluminum wires or alloy arrangements that have the same parameters as the "Lynx" line. The arrangement of the optical fiber within the aluminum tube 11 protects the fibers, while the tube itself is part of the current-carrying system of the earth rope. The tube can alternatively be made of other electrically conductive material which can be formed into the C-shaped component and which results in the required direct current resistance together with the high tensile force.

Claims (4)

1. phase or earth rope of a cantilever high-voltage line with one or more optical fibers, which are surrounded by a tubular elongate component, and with a longitudinal strain relief arranged longitudinally around the tubular component, characterized in that the optical fiber (s) ) ( 10 ) are loosely arranged in the tubular elongate component ( 11 ), which is electrically conductive and is formed from a closed C-shaped cross section that the strain relief from a layer of high-tensile steel wires ( 13, 15, 18 ) over the electrical conductive elongated tubular component ( 11 ), and that the layer of high tensile steel wires ( 15 ) is surrounded by a copper tube ( 16 ). 2. phase or earth rope according to claim 1, characterized in that the electrically conductive elongated tubular member ( 11 ) consists of aluminum. 3. Process for the production of phase or earth ropes one of the preceding claims, in which one or more optical fibers in an elongated tubular component be placed around which a strain relief is placed, characterized in that the optical Fiber (s) in the channel of an electrically conductive C cross section is inserted and the C-section around the optical Fibers are closed around the elongated tubular To form a component around which the strain relief is then placed will and that about the strain relief to form a tube Copper tape with longitudinal joint around the wires of the Strain relief is placed and the longitudinal edges of the Copper tape are welded together.   4. The method according to claim 3, characterized in that the C cross section consists of aluminum and that the joint of the C-cross section is welded or soldered.