DD299206A5 - FIBER OPTIC CABLE - Google Patents

Abstract

In a fiber optic cable with a Auszenmantel and with optical waveguides, which are arranged around a central element, it is provided that zippers are provided between the optical fiber strands or in the region between the optical waveguides and the Auszenmantel and that the Reiszfaeden are stranded.

Description

For this 8 pages drawings

An optical fiber cable is known to have in the middle a central element around which the individual optical fiber cores are distributed in the form of a layer. Each optical waveguide has one or more glass fibers as optical waveguides. The entirety of the optical fiber cores is surrounded by a sheath that can be made by winding. The cavities between the optical waveguide can be filled by filling materials, such as petrolatum. To the sheath for the optical fiber cores strain relief elements are generally arranged, which are generally stranded. The strain relief elements are bonded to a band surrounding the strain relief elements or directly to an outer jacket.

When mounting fiber optic cables, the fiber optic cables must be exposed to connect the fiber optic cables. The optical fiber cores sometimes have to be exposed even in a length of several meters and thus be freed from the surrounding elements of the optical fiber cable. The invention has for its object to provide a fiber optic cable, which allows in a simple manner, the exposure of the optical fiber cores (for assembly or repair purposes). This object is achieved by a fiber optic cable having the features of claim 1.

The invention will be explained below with reference to exemplary embodiments.

FIG. 1 shows the cross section of an optical waveguide cable according to the invention. The optical fiber cable of Figure 1 consists of a central element 1, are arranged around the optical fiber cores. According to FIG. 1, the optical waveguides consist of an optical waveguide 2 and a cladding 3. The cladding 3 generally contains a filling compound in which the optical waveguide 2 is embedded. In the embodiment of FIG. 1, not only optical waveguide arrays are arranged around the central element 1, but also the two ripcords 4 and 5. The ripcords (4, 5) generally have a smaller cross section than the optical waveguide, although they are shown in the figures for the sake of simplicity are shown with the same cross section. The rip threads are generally made of twisted threads.

As FIG. 1 further shows, the optical waveguides and the tear threads are surrounded by a core wrapper 6. The soul winding consists for example of wound paper or plastic bands or to achieve particular longitudinal water-tightness of swellable bands. The Seelenbewicklung 6 is surrounded according to the figure 1 of strain relief elements 7, which consist for example of glass or aramid yarn. On the strain relief elements 7 follows the outer sheath 8 made of plastic. The strain relief elements 7 are glued to the outer jacket 8 in general.

As can be seen from FIG. 2, in the arrangement of FIG. 1, the tear threads 4 and 5 are stranded according to the invention, in the same position as the optical waveguide cores. FIG. 3 again shows the cable of FIG. 1 in a perspective view and in the cutaway state.

4 shows a second embodiment of the invention in section. The optical waveguide cable of Figure 4 consists of a central element 1 and optical waveguide, which surround the central element 1. In the exemplary embodiment of FIG. 4, the optical waveguide consists of a plurality of optical waveguides 2, which are surrounded by a sleeve 3. The optical waveguide are surrounded by a Seelenbewicklung 6, as in the first embodiment of bands

consists. In the optical waveguide cable of Figure 4 tear threads (4, 5) are also provided, which are not arranged in the position of the optical waveguide in the second embodiment, but in the interstices 9, which are present between the optical waveguides and the Seelenbewicklung 6. The Seelenbewicklung 6 is surrounded by an outer jacket 8.

As FIG. 5 shows, the tear threads 4 and 5 are arranged in a stranded manner. FIG. 6 shows the optical waveguide cable of FIG. 4 in a perspective view.

FIG. 7 shows a third embodiment of the invention in a sectional view. The optical waveguide cable of Figure 7 consists of a central element 1, which in turn are arranged fiber optic wires.

In the case of the optical waveguide cable of FIG. 7, the optical waveguide cores consist of two optical waveguides 2, which are surrounded by a cladding 3. Apart from optical fiber cores, the central element 1 is also surrounded by two copper cores (10) in the embodiment of Figure 7, which are stranded together. The optical fiber cores and the copper cores are surrounded by a core winding 6, which consists of bands as in the other embodiments. The Seelenbewicklung 6 is surrounded by strain relief elements 7, which may be arranged in one or more layers. In the embodiment of Figure 7, two layers of strain relief elements 7 are present. The strain relief elements of the two layers are offset from each other. The tear threads 4 and 5 are in the embodiment of Figure 7 between strain relief elements 7. In the embodiment of Figure 7, the rip threads are arranged in the outer layer of the two layers of the strain relief. The tear threads are, however, arranged in a stranded with the strain relief elements in the outer layer to completely solve the separation of the cable bonded to the cable sheath outer layer of the strain relief together with the jacket completely from the inner part of the cable.

In the embodiment of Figure 7, the strain relief elements 7 are surrounded by a metallic shell 11, which consists for example of a longitudinal band. The band consists for example of aluminum or steel.

FIG. 8 shows that the tear threads 4 and 5 of the optical waveguide cable of FIG. 7 are arranged in a twisted configuration.

FIG. 9 shows a perspective view of the optical waveguide cable of FIG. 7 in the cut-open state.

If the tearing threads 4 and 5 are torn, in all cases the fiber optic cores are exposed in a simple manner.

This allows cable mounting.

Claims (9)

1. optical fiber cable with an outer sheath and with optical fiber cores, which are arranged around a central element, characterized in that tear threads are provided between the optical fiber cores or in the region between the optical waveguides and the outer sheath and that the tear threads are stranded. 2. Optical fiber cable according to claim 1, characterized in that the tear threads are arranged in the position of the optical fiber cores and that the optical fiber cores and the tear threads are surrounded by a common sheath. 3. Optical fiber cable according to claim 2, characterized in that there are provided between the shell and the outer jacket strain relief. 4. optical fiber cable according to claim 1, characterized in that tear threads are provided in the gusset between optical fiber cores. 5. optical fiber cable according to claim 4, characterized in that the optical fiber cores and the tear threads are surrounded by a sheath. 6. optical fiber cable according to claim 5, characterized in that follows the envelope of the outer jacket. 7. optical fiber cable according to claim 1, characterized in that strain relief elements are provided and that the tear threads are arranged between the strain relief elements. 8. optical fiber cable according to claim 7, characterized in that the strain relief elements surround the envelope for the optical fiber cores. 9. optical fiber cable according to claim 7 or 8, characterized in that the strain relief elements are glued to a surrounding band or directly to the outer jacket.