DE4306190B4 - Fiber optic cable - Google Patents

Abstract

Optical fiber cable for laying in the subscriber access area, in which self-contained functional elements can be detached, characterized in that an extruded round cable (1) is divided into individual solid segments (2, 3) by a flat-shaped strain relief element (4) and into the There are segments of axially parallel cavities (5, 6) in which there are cable elements (7), the end of the strain relief element extending directly below the cable surface, so that a predetermined breaking point is created.

Description

The invention relates to an optical fiber cable for the Relocation in the subscriber access area. For this Use are known from the literature "breakout" cables, in which individual Switching cables stranded and surrounded by a common sheath are. The detachment of individuals Switch wires require special tools and the setting of a sleeve.

Furthermore, ribbon cables are known in which several wires are connected next to one another via a web or a carrier layer and individual segments can be removed ( DE-PS 3937 695 . DE-OS 3913 674 ). The laying of these cables in cable duct systems is problematic with extensive corner laying. An optical cable with a large number of ribbon-shaped cores is also described in the subscriber area. These wires are housed in a star-shaped chamber element. For the subscriber connection, the individual optical wires are arranged so that they can be pulled out of the cable ( DE-PS 3937 695 ). The manufacturing outlay for this cable construction is considerable, since the individual ribbon-shaped wires have to be produced first, which then have to be joined to form the cable in a layer arrangement.

In DE 40 04 429 A1 describes a cable with a high number of transmission elements, the cable construction of which is intended to be an extension of the two basic design principles, loose tube cable and chamber cable. Receiving elements are provided, in particular in a star-shaped arrangement made of textile fabrics, while maintaining full flexibility. In particular, the possibility of movement transverse to the running direction and the compensating movements of the reinforcing threads associated therewith are to be achieved.

In DE 37 24 326 A1 describes an optical waveguide which has one or more outer strain relief fiber bundles, which are optionally arranged concentrically to the cable core, and which are not flat, with at least one control light waveguide.

In DE 23 47 408 B2 describes an optical fiber strand in which optical fibers are arranged around a plastic thread that is not flat. Each optical fiber of the cable is arranged during installation of the strand so that it lies in a channel between two adjacent arms of the plastic thread. Each channel is formed from essentially flat side walls. The angle between the side walls of each channel is approximately 120 ° and should be at least 90 ° in order to avoid excessive tensioning of the fibers. It is required that the plastic thread has a multi-arm cross-section, and that along and within channels formed by two adjacent arms, the optical fibers in two-point contact of the adjacent arms by one closely fitting to the arms and the fibers Plastic sleeve around the optical fibers and the plastic thread are secured.

The invention is based on the object economical manufacturable fiber optic cable for the subscriber connection area to develop with a problem-free branching of the cable without special tools for different participants is possible.

According to the invention the object is achieved in that an extruded cable divided into individual massive segments by strain relief elements is and in the segments there are cavities parallel to the axis in which there are cable elements. The flat strain relief elements are sufficient with its face up to just below the cable surface, so that predetermined breaking points arise on the surface with additional color coding are marked. Tear threads can be arranged on the end faces of the strain relief elements his. As cable elements for filling of the cavities optical fibers, fiber optic ribbons, solid wires, fixed wires, Hollow cores, switching cables, loose tubes. If necessary, the cavities additionally filled with thixotropic gel. The Strain relief element is provided with an adhesive that attaches individual cable segments.

The invention is intended to: an embodiment are explained in more detail. The associated one Drawing shows a round cable in cross section.

The round cable 1 consists of massive segments 2 . 3 by a flat metallic strain relief element 4 be formed. Cavities parallel to the axis are located within the segments 5 . 6 in which fixed veins 7 are arranged. The strain relief elements are surrounded by a hot melt adhesive, which increases the stability of the cable. In the case of branching, individual separated cable segments can be exposed directly to heat, e.g. B. attached to the house wall. A cutting tool (e.g. knife) is all that is required to split the cables into the individual segments. The dividers are marked on the surface of the jacket so that the fitter can recognize the correct incisions from the outside. As a further variant, the strain relief elements can be mounted on the end faces 4 ripcords 8th be arranged, which eliminates the need to cut the cable.

Claims (5)

Optical fiber cable for laying in the subscriber access area, in which self-contained functional elements can be removed , characterized in that an extruded round cable ( 1 ) by a flat strain relief element ( 4 ) into individual massive segments ( 2 . 3 ) is divided and in the segments axially parallel cavities ( 5 . 6 ) are present in which cable elements ( 7 ) are located, the strain relief element with its end face extending directly below the cable surface, so that a predetermined breaking point is created. Optical fiber cable according to claim 1, characterized in that on the end faces of the strain relief elements ( 4 ) Ripcords ( 8th ) are arranged. Optical fiber cable according to one of claims 1 or 2, characterized in that as cable elements ( 7 ) Optical fibers, fiber optic tapes, solid wires, fixed wires, switching cables, loose tubes act. Optical fiber cable according to one of claims 1 to 3, characterized in that the strain relief elements ( 4 ) are surrounded with an adhesive. Optical fiber cable according to one of claims 1 to 4, characterized in that the thinnest places of the coat outside are marked.