DE2508825C2 - Stranding element for optical cables - Google Patents

Description

The development of communication cables has recently taken into account the possibility of sending messages optically, d. H. transmitted with the help of light waves. In the case of optical communication with the help of jo Instead of electrical conductors, cables are used as transmission elements for fiber optics Serve guidance of light rays. Such glass fibers usually consist of a core, its material has a higher refractive index, and from a j5 This core surrounding shell made of a material with a smaller refractive index.

Stranding elements in the form of a ribbon cable are already known for the construction of optical cables, in which the optical transmission elements are arranged next to one another on a ribbon-shaped base or between two foils or are embedded in a common covering (DE-OS 23 14 313, DE-OS 23 55 854, DE-OS 24 24 041). In the case of stranding elements of this type, in which the optical transmission elements are connected to the v-, carrier or the sheath, there is a risk that the optical transmission elements will be damaged when assembling sets.

In another known stranding element for optical cables, the optical transmission elements are applied to a profiled core and wrapped or molded with a sheath. During installation The common covering must be removed from sets on such a stranding element, other than the desired optical transmission element also has its place in the stranding element can leave (DE-OS 23 47 408).

For installation purposes electrical conductors or electrical lines in buildings are per se Cable channels known, which consist of a two-part profile body, with the lower part and upper part of the Profile body form chambers into which the electrical conductors or the wires are inserted. Upper and Lower parts of the profile body are designed to be self-locking and the clear width of the chambers can be greater than b5 be than the diameter of the inserted electrical conductor (DE-OS 2121638, FR-PS 1136 665, FR-PS 15 61 565).

The invention is based on the object of providing a plurality of optical transmission elements for optical cables To create containing stranding element, in which each transmission element for assembly purposes, for example in the production of splice points, is individually available and yet safe against external mechanical loads is arranged.

To solve this problem, the invention is based on a stranding element for optical cables in which the optical transmission elements are arranged next to one another in a common casing. According to the invention provides that the common envelope consists of a two-part profile body, whose lower part is box-shaped and has chambers arranged next to one another for receiving having individual optical transmission elements, the outer diameter of the individual optical Transmission elements are smaller than the clear width of the respective chamber, and the upper part is designed as a self-locking lid

In such a stranding element, each optical transmission element is at any splice point accessible and is therefore available individually for assembly purposes. For this purpose, the upper part of the box-shaped profile body can be cut at any point, thereby providing access to the optical transmission elements is created.

Because the clear width of the chambers is greater than the diameter of the optical transmission elements, a loose arrangement of the optical results Transmission elements in the chambers of the two-part profile body. This gives a certain flexibility the optical transmission elements ensured, which is advantageous in terms of mechanical protection of the optical transmission elements.

It is expedient to proceed in the manufacture of a stranding element designed according to the invention in such a way that the two parts of the box-shaped profile body simultaneously, for example by extrusion are made that then in the same operation, the optical transmission elements in the Inserted chambers of the lower part and then the upper part is pushed onto the lower part. Around to ensure a self-locking fit of the upper part on the lower part, the upper part in the Cross-section be U-shaped; at the ends of the legs that form the side walls of the box-shaped Project beyond the lower part, lugs are provided on the inside, which extend over the underside of the lower part reach away.

An embodiment of a stranding element designed according to the invention is shown in the figure.

The stranding element consists of the box-shaped lower part 1 and the self-locking one Lid 2. In the lower part 1 4 chambers 5 are formed by longitudinal webs, in which optical transmission elements 10 are loosely arranged. Each transmission element consists of a glass fiber 11 and one Protective sheath 12 made of, for example, an extruded Plastic.

The side walls 3 of the box-shaped lower part 1 are made somewhat stronger than the chamber walls 4. The cross-sectionally U-shaped cover 2 engages over with its legs 7 the underside of the Lower part 1, at the ends of these legs inwardly projecting lugs 8 are provided with which the

clamping seat of the lid 2 on the lower part 1 is ht.

: The stranding element shown has been adapted to different transmission capacities different widths of the stranding element thus by a different number of nern 5. In the simplest case, the stranding element contains only two chambers, but it can also be up to have ten or more chambers. If one assumes that an optical transmission element 10 about 0.3 mm in diameter and each chamber is about 0.45 mm high and 0.45 mm wide the stranding element with 10 chambers has a width of about 8 mm and a height of about 1.3 mm.

1 sheet of drawings

Claims (2)

Patent claims: 1. Stranding element for optical cables, in which the optical transmission elements are in a common Sheath are arranged side by side, characterized in that the common Enclosure consists of a two-part professional body (1, 2), the lower part (1) of which is box-shaped is formed and side by side arranged chambers (5) for receiving individual optical Having transmission elements, the outer diameter of the individual optical transmission element (10) is smaller than the liclue width of the respective chamber, and its upper part (2) than self-locking lid is formed. 2 stranding element according to claim 1, characterized in that the cover (2) is U-shaped formed and at the ends of the legs (7), the the side walls (3) of the box-shaped lower part (1) protrude on the inside with a nose (8) is provided.