DE2604766C3 - Phase cable for high-voltage overhead line networks for the simultaneous transmission of energy and information - Google Patents

Description

The invention relates to a phase rope for high-voltage overhead line networks for simultaneous energy and information transmission, which in addition to the tensile strength wires used for energy transmission in its structure at least one element serving the transmission of information Mifweis :.

Power overhead line networks are becoming stronger and stronger Dimensions are also used for the transmission of information from communications technology The cables used for power transmission have some form of elements built into them for the transmission of messages are used, for example, the pulse code modulation (PCM) - or the carrier frequency technology can be used. The advantage of such an approach is that the anyway Existing routes can also be used, and that the relocation for the message transmission elements thereby simplified

It has already become known to use so-called aerial cables for this purpose (DE-OS 23 02 114), soft are placed on the masts as earth ropes. In the soul of such an earth rope are for example Coaxial lines arranged These earth ropes require a special production, because next to the tensile wires also the coaxial lines with a much larger diameter than the wires have to be processed. There are also significantly larger dimensions for the earth rope compared to earth ropes without such Coaxial lines, whereby the same overall gets a larger diameter and becomes heavier, so that its laying also becomes more complicated.

DE-AS 20 11 016 also provides a phase rope ω became known, in whose soul, for example, a star quad is arranged. These types of phase ropes which can thus also be used for information transmission at the same time is special then Can be used economically if no self-supporting aerial cable can be laid as an earth wire. This case is especially the case when there is no space to attach such a heavy earth rope or if the load-bearing capacity of the masts does not allow the same to be attached, also for this one known phase rope, however, applies the already mentioned disadvantage that because of the different diameters a special production is required, and that, in addition, the dimensions of this phase rope become so large that considerable weight gain cannot be avoided

Furthermore, a phase rope has already been proposed (DE-AS 24 44 353) in which a wire of the outer layer replaced by a coaxial line, the outer diameter of which is equal to the diameter of the wire Compared to the known phase cables with an element for information transmission, such a Phase rope smaller dimensions and it can be manufactured more easily. For information transfer the usual technique with electromagnetic mode of action is used, so that interference is caused by external electrical and magnetic interference fields can occur.

The invention is based on the object of specifying a phase rope that is more common for such ropes Manufacturing technology can be produced and its dimensions are not increased compared to pure phase cables is

This object is achieved with a phase cable of the type described at the outset according to the invention solved in that the element used to transmit information is designed as a light guide element which is arranged instead of a wire in the outer layer of the phase cable and its optical waveguide with the interposition of a layer of insulating material in a completely closed metallic tube The outer diameter of which is embedded is the diameter of a wire of the outer layer of the phase rope is equivalent to

An advantage of such a phase rope, in which, instead of a wire, the outer layer is on off Optical waveguide, insulating layer and metallic tube existing light guide element is used lies in the simple manufacture, since common manufacturing machines because of the same diameter of wire and light guide element can be used. Instead of a wire, a light guide element is simply used here co-stranded The dimensions of the phase cable and its weight are not increased as a result not increased Additional reinforcement elements on the masts are therefore not required. Furthermore you can For such a phase rope, conventional anchoring and connecting fittings can be used. It is open this way it is possible to equip all phase cables in a route with such a light guide element, which results in a «: increased security for the transmission of messages, since in every route at least three ropes are available, so that if one of two required light guide elements fails, always on a reserve element can be switched.

The use of a light guide element for the transmission of information also offers the advantage that influences from external electrical and magnetic Interference fields cannot occur. In addition, light guides are very broadband and have little attenuation, $ 0 that transmit more channels with increased amplifier spacing compared to conventional metallic conductors can be.

An exemplary embodiment of the subject matter of the invention is shown in the drawings.

F i g. 1 shows a schematic view of a route for

an overhead power line network. In Fig.2 is a Cross section through a phase rope according to the invention shown F i g. 3 gives a section through FIG. 2 along the line UI-III on an enlarged scale again.

With 1 and 2 two masts of a high-voltage overhead line network are referred to, on the traverses in in this case three phase cables 3 are attached. The earth wire of this system, which is built up in the usual technology, is denoted by 4

According to FIG. 2, each of the phase cables 3 consists of a ι ο Number of flashing metallic wires S, which are stranded together, built up to achieve a The internal wires made of steel and the external wires made of aluminum can be used for tensile strength rope be made. However, it is also possible to use all wires to be constructed from steel-aluminum. The diameter of the wires S is so large that no difficulties arise result to accommodate a light guide element 6 of small dimensions in the outer layer of the Seiies 3, its Outside diameter corresponds to the diameter of a wire 5 in the outer layer of the phase rope In Fig. 2, the light guide element 6 is only indicated. Its more precise structure is based on the enlarged scale in Fig. 3 emerges.

The light guide element 6 consists of the actual optical waveguide 7, which consists of a glass thread (glass fiber) or a larger number of glass threads or similar structures which are suitable.

To transmit light waves without interference. A layer 8 of insulating material, which can consist of polyvinyl chloride, for example, is attached over this light guide. A closed metallic tube 9 lies above this layer, which is to be regarded as mechanical protection for the light guide 7. The diameter of the entire light guide element 6 corresponds to the diameter of a wire 5 in the outer layer of the phase cable.

The tube 9 can be produced, for example, by using a metal band of the required width running lengthways around layer 8 hem :: i to the pipe is formed, the abutting edges of which are welded with a longitudinal seam. To increase the mechanical strength of such a light guide element, the tube 8 can also be corrugated, whereby the bendability of the same is also improved at the same time.

When connecting the phase menu 3, As already mentioned, the anchoring and connection fittings customary for phase cables can be used. The connection fittings are, as usual, in Mounted on the elastic loops of the Phascr.s-üs A short-circuit-proof connection of the phase conductors themselves can be achieved using a compression sleeve. the Connection of the light guide element 6 can lie within such a compression sleeve.

1 sheet of drawings

Claims (3)

Patent claims: 1. Phase cable for high-voltage overhead line networks for the simultaneous transmission of energy and information, which in addition to the tensile strength wires used for energy transmission in its structure has at least one element serving to transmit information, characterized in that that the element used to transmit information is designed as a light guide element (6) is, which is arranged in place of a wire (5) in the outer layer of the phase rope (3) and its optical waveguide (7) with the interposition of a layer (8) of insulating material in a All around closed metallic tube (9) is embedded, the outside diameter of which corresponds to the diameter of a wire (5) corresponds to the outer layer of the phase rope Z phase cable according to claim 1, characterized in that that the tube (9) is provided with a longitudinal weld seam 3. phase rope according to claim 1, characterized in that the tube (9) is corrugated 25th