DE3937695C1 - Optical cable for subscriber distribution in housing area - has markings on sheath surface giving unambiguous positions for fibres - Google Patents

Abstract

The optical cable has a carrier body (7) for optical fibres. The carrier has walls (6) extending radially outwards from the cable axis and an external wall or sleeve (3). The optical cable has marks provided on the outer wall or sleeve which allow a given segment, separated by the radial walls (6) of the carrier body, to be localised and the optical core (2) is drawn out of the cable and then eventually given an extra protective sleeve. A reserve length of core is provided for subscribers remote from the control centre. USE - Broadband communications network subscribers.

Description

The invention relates to an optical cable for laying in the subscriber access area according to the preamble of the An Proverb 1. So far you had to connect participants broadband communication networks, for example for everyone Participants a spliced branch and a directional coupler intended. However, a not inconsiderable occurs at the splice point considerable additional attenuation in the optical transmission path. In addition, a splice is not as mechanically reliable like the undamaged fiber.

In the publication 'Flat cable sets as modular Interconnections in electronic systems and devices', Feinwerktechnik und Meßtechnik, 1978, pages 36-42 becomes one electrical flat cable described, which by cutting divided into different bundles and the corresponding Assemblies can be fed. These lines serve the electrical signal transmission especially in devices with modular design.

From DE-OS 31 05 068 is an optical fiber cable known, in which the combined into a bundle Optical fibers from a distributor to individual Participants are led. Each fiber of the cable is connected to a distributor in the distribution point and each distributor is like a group of subscribers assigned that a group of participants over their own, each Participants separately assigned fiber optic cables connected. The individual connections already separated from each other when laying, each time a separate cable is provided for each participant.

The disadvantage of such an arrangement is that each participant must connect with a separate cable, which from a distribution point to the Participants is relocated. Such a cable is already running near another participant, so is out of this cable out the participant does not connect, but it must be a additional cables are laid in parallel.

While the known optical cables an increased effort required when wiring subscribers is the electrical ribbon cable only for laying in Control cabinets con zip and offers the expert no role model in the event that Participants connected via cables laid in the ground Need to become.

The invention is based, in the participant closing area a splice-free connection from the main cable to create the individual participants, which special is inexpensive and easy to manufacture and the optical core easily removed from the cable for the subscriber connection and can be found. This object is achieved according to the invention by the features of claim 1 described in the characterizing part solved. Further developments of the invention are in the subclaims described.

The optical cable according to the invention is particularly suitable for installing broadband communication services in residential command. The advantages over the prior art are to see that the connection method with the Invention contemporary cable can be done with less effort and the connections are highly reliable.

An embodiment of the invention is described below the drawing explained in more detail; shows

Fig. 1 shows schematically an optical cable with subscriber connections and

Fig. 2 shows a cable in cross section.

The optical cable 4 generally runs in an installation channel to the subscriber T 1 , T 2 , T 3 ,. . . TN, over (see Fig. 1). The sheath 3 (see Fig. 2) of the cable is separated near a participant and an optical wire is pulled out.

The optical cable preferably has 3 markings on the cable sheath, which make it possible to locate a specific segment which is separated from the walls 6 of the support body 7 . The optical wire is pulled out of the cable with a length reserve removed from the center and possibly provided with a further protective sheath. It is particularly favorable to connect the most distant participants first; because there the lengths of the wires that have to be pulled out are the shortest. In addition, the work is made easier when pulling out additional wires from the cable 4 . The wires 2 can be filled or unfilled and preferably contain a tensile sheath. Fixed veins in which the optical fibers are enclosed by a plastic mass are particularly favorable in this case.

The optical wire can contain up to ten optical fibers. It preferably contains three to five fibers. The wires 2 run parallel to one another and to the walls 6 within the cable. The walls 6 of the support body 7 can be rotated about the longitudinal axis with a stroke of 60 to 800 cm. The lay length of the optical wires is preferably 500 to 600 cm.

It is particularly important that the optical wires 2 are arranged in the cable 4 with play. In addition, it is advantageous if the optical cable 4 is filled with a gel-like substance. In this case, the frictional forces between the optical wires are low and the optical wires can be easily pulled out of the cable. This is also particularly easy if the optical wires 2 are already continuously shortened from the end of the cable; the lengths to be extracted then remain approximately constant even when connecting the subscribers who are closer to the head office.

After the optical wire has been removed from the cable and it has been moved to the subscriber, the cable 4 is closed again at the separation point. When all connections have been made, the cable can be refilled using a gel-like liquid. It is capped at the end and is therefore longitudinally watertight.

Claims (14)

1. Optical cable for laying in the subscriber connection area with optical fibers, which are arranged in a carrier body ( 7 ), the walls ( 6 ) which extend radially from the cable axis and wherein an outer jacket is provided, characterized in that several optical fibers ( 1 ) are combined to form a tensile optical core ( 2 ) which can be pulled out of the optical cable ( 4 ), with all optical cores ( 2 ) having a clearly definable position relative to a marking on the surface of the cable jacket ( 3 ) take in. 2. Optical cable according to claim 1, characterized in that the optical wires ( 2 ) are arranged in layers. 3. Optical cable according to claim 1 or 2, characterized in that the optical wires ( 2 ) within a layer are arranged substantially parallel to each other. 4. Optical cable according to claim 1 or 2, characterized in that the optical core ( 2 ) from 2 to 10 optical fibers ( 1 ) in a common sheath ( 5 ) is assembled. 5. Optical cable according to claim 4, characterized in that 3 to 5 optical fibers ( 1 ) are combined in an optical wire ( 2 ). 6. Optical cable according to claim 3, characterized in that the optical wires ( 2 ) according to the course of the radial walls ( 6 ) are stranded around the longitudinal axis of the optical cable ( 4 ). 7. Optical cable according to one of claims 1 to 6, characterized characterized in that the lay length be 60 to 800 cm wearing. 8. Optical cable according to claim 7, characterized characterized that the lay length 500 to 600 cm is. 9. Optical cable according to one of claims 1 to 8, characterized in that each optical wire ( 2 ) in the cable ( 4 ) is arranged with play. 10. Optical cable according to one of claims 1 to 9, characterized in that the optical wires ( 2 ) corresponding to the separation points in the cable ( 4 ) have different lengths. 11. Optical cable according to one of claims 1 to 10, characterized characterized in that it has a gel-like sub punch is filled. 12. Optical cable according to one of claims 1 to 11, characterized in that it can be filled with a gel-like substance after the removal of optical wires ( 2 ). 13. Optical cable according to one of claims 1 to 11, characterized in that the cable ( 4 ) can be filled from the end which has the fewest optical wires ( 2 ). 14. Optical cable according to one of claims 1 or 6 to 8, characterized in that the marking on the Ka belmantel the stranding of the wires ( 2 ) in the cable ( 4 ) is arranged following.