DE202004003673U1 - Multi-core transmission cable, in particular data transmission cable - Google Patents

Abstract

Multi-core transmission cable, in particular data transmission cable, comprising
- at least two separate cable units (1.1 - 1.4),
- A separating structure (9, 9 ', 17) extending over the cable length, which forms individual receiving channels (12) running in the longitudinal direction of the cable for each cable unit (1.1 - 1.4), and
- An outer shell (5), characterized by
- At least two optical waveguides (13) running in the separating structure (9, 9 ', 17).

Description

The invention relates to a multi-core transmission cable and especially data transmission cables, that at least two separate cable units, one over the cable length extending separating structure and an outer shell. The separation structure forms individual, in the longitudinal direction of the cable running recording channels for one each Cable unit. This can be a chamber profile - a so-called "spline" - made of relatively rigid Trade plastic that has a central support strand and protruding the recording channels between them for each has a web unit forming webs.

Alternatively, it is also known as a separating structure one or more metal foil strips folded to use, of which the separate cable units are encased and to be electrically shielded.

Are also from the prior art so-called hybrid cables as transmission cables known, in addition to the usual separate cable units, usually made of electrically conductive copper exist, one or more fiber optic cable elements added to the bandwidth of the usable transmission mechanisms and to increase the data transmission capacity. Problematic it is that this optical fiber has an additional Space requirements and their own line structure in the form of a protective cover need what to an increase which can lead to cross sections and rigidity of these transmission cables.

The invention proposes to solve this problem according to the characterizing part of claim 1, the separating structure in such multi-core transmission cables for the Recording and management of the or the additional To use optical fibers. This will make an existing one Space occupied, with no relevant cross-sectional expansion the additional Optical fiber is caused. Through this integration of Optical fibers in the separation structure becomes the necessary at the same time Strain relief for The glass fiber elements are manufactured and easy to divide of the transmission media allowed. Overall, it will be a particularly clever use of space for the additional Optical fiber achieved.

In a first preferred embodiment it is provided that the optical fiber cable elements with at least two optical fibers in a metal foil Integrate separation structure. So that is the metal foil lying assigned a double function, on the one hand it forms the one addressed Strain relief and on the other hand mechanical protection for the fiber optic cable element. It also ensures the electromagnetic shielding of the transmission elements.

In a further preferred embodiment, the for the version described above if the separation structure applies as a chamber profile, the at least runs an optical fiber in the central support strand of the chamber profile. The support strand is therefore also assigned a multiple function, it forms the mechanical backbone of the chamber profile, ensures the strain relief and also serves to mechanically protect the additional Optical fiber / s.

The preferred occupancy of the Chamber profile on the outside With an electrically conductive metal layer not only the electrical Shielding and crosstalk between improved the individual electrical cable units, but also at the same time increased foreclosure the optical fiber unit achieved. Are preferred one or more optical fibers arranged in an optical fiber element, that guides the optical fibers and protects.

Other features, details and Advantages of the invention can be gathered from the following description, in the different embodiments the invention with reference to the accompanying Drawings closer explained become. Show it:

1 to 4 schematic cross sections through multi-core transmission cables in different embodiments.

The in the 1 to 4 Transmission cables shown have a total of four cable units 1.1 to 1.4 in the form of transmission pairs, each consisting of two twisted lines 2.1 . 2.2 - so-called "twisted pairs" - are formed. The lines 2 themselves consist of a central copper conductor 3 with an insulation cover 4 ,

The four cable units 1.1 to 1.4 sit together in an outer protective cover 5 that have an outer plastic wrap 6 made of polyolefin. Optionally, the outer plastic covering can be arranged in radial succession 6 with a wire mesh 7 made of copper wires and an inner plastic layer 8th - optionally a metal foil - be supplemented. Through the wire mesh 7 an outer shielding of the transmission cable is achieved.

This in 1 Transmission cable shown used to form recording channels 12 one in folds 16 laid metal foil 17 , The individual bellows of the folds 16 enclose one of the cable units 1.1 to 1.4 , after which this configuration around a central fiber optic cable element 18 is looped in the peripheral direction. In this respect, the start A of the first fold lies 16 at the cable unit 1.1 radially outside in a certain circumferential position. The transverse end B of the metal foil 17 then comes to rest on the bellows of the first fold.

The fiber optic cable element 18 itself has four optical fibers 13 on that in a support structure 19 are embedded.

How out 2 is clear, is according to another embodiment in the longitudinal direction of the cable a separation structure in the form of a chamber profile 9 provided that in one piece from a central support strand 10 with webs protruding radially therefrom 11 is trained. These bridges 11 form the recording channels between them 12 for the cable units 1.1 to 1.4 , As can not be seen from the figures, the webs can also 11 be twisted in the longitudinal direction of the cable with a lay length of, for example, 8 to 10 centimeters.

In the central support line 10 run several optical fibers 13 - Preferably 2 or 4 -, with which digital opto-electronic signals can be transmitted via the cable shown. This fiber optic cable 13 consist of a glass fiber or polymer optical fiber (POF) in the usual way. In this respect, the representation of the optical fiber 13 exaggerated in size in the attached figures.

This in 3 shown transmission cable differs from the according 2 only in a so-called pair shield 14 in the form of a transfer pair each 1.1 to 1.4 metal foil lying around.

In the 4 the embodiment shown is in turn essentially the same as that according to 1 designed. In contrast to this, there is only a chamber profile 9 ' provided that on the outside of his support strand 10 and the bridges 11 with an electrically conductive metal layer 15 is occupied. This allows the recording channels 12 shield again against each other in an improved manner, what as a separate measure or in connection with the in 2 pair shield shown 14 for highly crosstalk-attenuated cables.

Claims (8)

Multi-core transmission cable, in particular data transmission cable, comprising - at least two separate cable units ( 1.1 - 1.4 ), - a separation structure extending over the cable length ( 9 . 9 ' . 17 ), the individual recording channels running in the longitudinal direction of the cable ( 12 ) for each cable unit ( 1.1 - 1.4 ) forms, and - an outer shell ( 5 ), characterized by - at least two in the separation structure ( 9 . 9 ' . 17 ) running optical fibers ( 13 ). Transmission cable according to claim 1, characterized in that the separating structure as a laid metal foil ( 17 ) is trained. Transmission cable according to claim 1 or 2, characterized in that the separating structure is used to form the receiving channels ( 12 ) in folds ( 16 ) placed metal foil ( 17 ), in the center of which is an optical fiber cable element ( 18 ) with preferably four optical fibers ( 13 ) is arranged. Transmission cable according to claim 1, characterized in that preferably four cable units ( 1.1 - 1.4 ) each consisting of a pair of insulated cable conductors ( 2.1 . 2.2 ) are provided. Transmission cable according to claim 1 or 4, characterized in that the cable units ( 1.1 - 1.4. ) each with an insulation cover and / or pair shielding ( 14 ) are provided. Transmission cable according to one of claims 1, 4 or 5, characterized in that the separating structure as a chamber profile ( 9 . 9 ' ) with a central support strand ( 10 ) and the spacing between them, the recording channels ( 12 ) for each cable unit ( 1.1 - 1.4 ) forming webs ( 11 ) is formed, the at least one optical waveguide ( 13 ) in the central support line ( 10 ) runs. Transmission cable according to claim 6, characterized in that the chamber profile ( 9 . 9 ' ) is designed as an extruded plastic profile. Transmission cable according to claim 6 or 7, characterized in that the chamber profile ( 9 ' ) on the outside of its support strand ( 10 ) and the bridges ( 11 ) with an electrically conductive metal layer ( 15 ) is occupied.