DE2302114B2 - High-frequency aerial cable for the transmission of telecommunication signals in high-voltage overhead line networks - Google Patents

Description

20th

The invention relates to an RF aerial cable for transmission of telecommunication signals in addition to high-voltage overhead lines, the core of which is made up of coaxial lines with against the return conductor insulated high-voltage resistant inner conductors is constructed.

In modern high-voltage overhead line networks the transmission of more and more telecommunication signals is necessary to ensure reliable network operation. Since the demand for electrical energy is constantly increasing, the number of Overhead lines required. The density of high-voltage overhead lines is increasing, particularly in industrial conurbations greater. The Supply ensured by the superimposed network. A prerequisite for this is a comprehensive, network-oriented Messaging system.

It is known to use carrier-frequency signals in overhead line networks to be transferred to the phase cables according to the Lecher principle. The disadvantage of such a system is that its efficiency is due to the corona noise and the weather is limited and that in metropolitan areas the mutual influence of neighboring overhead lines by radiation transmission energy cannot be excluded. In order to rule out interference in the transmission systems, there must be frequency overlaps avoided and it must therefore be reduced the number of transmission channels used. The emission of transmission energy also means a considerable loss of energy. For the Connection of the known transmission systems is a great effort, since the lines of the Transmission system lie on the high potential of the high-voltage overhead lines. In addition, is The transmission line based on the Lecher principle is very inhomogeneous, as the parallel conductors are in the overhead lines may have changing distances.

It has also become known (DT-OS 19 33 813), coaxial lines parallel to overhead lines to be laid, which are intended for the transmission of signals. The transmission of signals in Coaxial lines do not have the disadvantages of double lines based on the Lecher principle. Such is the number the channels in the coaxial lines are not restricted, Radiation losses and inhomogeneities do not occur. The effort involved in connecting the transmission system to the associated office systems is significantly reduced. The known communication device however, in certain cases, it is not able to meet the increasing demand for communication fully satisfy. In addition, this transmission facility only allows direct communication

⁸⁶ The present invention is based on the object of specifying an RF aerial cable of the type described at the outset, which has a large number of transmission channels, offers an extremely broadband transmission option and its production is achieved according to the invention in that the cable core consists of at least four coaxial lines stranded in a star shape consists in that the concentric Röckleiter of each coaxial mn an insulating sheath provided that the coaxial jointly surrounded by an electrically conductive sheath siHd and that the interstices are filled between the coaxial lines within the shell with a stable material.

The advantage of the cable according to the invention is that it is used in high-voltage overhead lines offers very broadband transmission options. By setting up the phantom circles over the isolated Return conductors of the coaxial lines can increase the number of possible transmission channels will. In this case the return conductors are not earthed. The phantom circuits can also be used for remote power supply be used. The cable according to the invention allows coupling and decoupling from the cable on the route. Transverse load forces that can act on the cable through suspension processes via rollers, are intercepted by the stable gusset filling. The filling of the gusset also has the Advantage that a water pocket is avoided by breathing the cable and that the cable is longitudinally watertight is.

An embodiment of the invention is in

Drawing shown.

F i g. 1 shows a cross section through an aerial cable according to the invention,

F i g. 2 the phantom circuit of the return conductors of the coaxial lines.

With 1 four coaxial lines are referred to, which with each other are stranded in a star shape. The coaxial lines 1 consist of an inner conductor 2, from one Plastic dielectric 3 - which can consist of solid or cellular polyethylene - and an outer conductor 4.

The outer conductors 4 are surrounded by an outer insulating sleeve 5. The Koaxialleiuingen 1 surrounds an electrically conductive jacket 7. All interstices within the jacket 7 are filled with a stable mass 6. The gusset filling ensures that no water pockets occur in the cable and that transverse load forces are absorbed. The tensile reinforcement 8 enveloping the jacket 7 makes the aerial cable tensile strength.

The outer conductors 4 of the coaxial lines can, as shown in FIG. 2 shown, form phantom circles Pl and Pl .

1 sheet of drawings

Claims (1)

Claim: High-frequency aerial cable with tensile armouring for the transmission of telecommunication signals next to High-voltage overhead lines, the core of which is made up of coaxial lines with high-voltage resistance to the return conductor insulated inner conductors is constructed, characterized in that the cable core stranded from at least four in a star shape Coaxial lines consists in that the concentric return conductor of each coaxial line is covered with an insulating sleeve is provided that the Koaxialleiiungen jointly by an electrically conductive sheath are surrounded and that the interstices between the coaxial lines within the sheath with are filled with a stable mass.