DE2846951A1 - Disconnecting and switching-over installation - aligns optical fibres of cables singly or in pairs by coupling members via conductor lead bowed pieces - Google Patents

Abstract

The disconnecting and switching-over arrangement is for light conductor cables using self-centering optical fibre connectors. The optical conductors (8) of an approaching cable are aligned singly or in pairs by coupling members (4) and led to a multiple plug element (2) via conductor lead bowed pieces. The optical conductors (9) of the leaving cable are similarly aligned by coupling members (4) and led to extensions of the plug element (2) running in a loose bow. The centering and aligning section can be in the form of a groove fixed in the plug element (2). The coupling members (4) can be loosely inserted in the plug element (2) with the loosely engaged optical fibre ends (10). Alternatively, the groove (12) can be pivotably fixed to a hinged section (13).

Description

Separating and switching device for fiber optic

cable The invention relates to a disconnecting and switching device for Fiber optic cables with the help of self-centering fiber optic couplings.

For broadband communication systems, optical systems are increasingly being used Cable inserted. Branched networks are similar to telephone networks Separation and switching devices are required. These facilities need separations and switchover between the cores of incoming and outgoing cables is possible be. This requires a connection technology with which the necessary switching operations can be carried out in a simple manner. For such a connection technology fasteners are particularly suitable for which the complex adjustment and Centering the fiber optic ends in special connector parts can be omitted. Such connecting elements are for example in DE-AS 26 22 607. This is where the fiber optic ends, which are held in connector parts inserted into a coupling piece, which has a centering the optical waveguide ends and having aligning groove. Separations and switchovers are therefore easier Way to execute.

The object of the invention is that a meaningful device for connecting, disconnecting and switching wires of incoming and outgoing fiber optic cables is developed in which it is possible to carry out the necessary switching operations at the installation site without special aids such as adjusting and centering devices. The object is achieved according to the invention in that the optical waveguide cores of an incoming fiber optic cable individually.

or fitted in pairs with connecting links and via conductor bends a multiple plug element for optical waveguide cores are supplied that the optical waveguide cores of the outgoing fiber optic cables also individually or in pairs with connecting links equipped and the multiple plug element via conductor bends with excess lengths running in loose bends are supplied. In the connecting links are those freed from the vein sleeve Optical fiber ends set loosely. The multiple plug element has a centering and alignment part for the free fiber optic ends.

The essence of the invention is that the fiber optic cables, but especially the cores of these fiber optic cables, the special requirements are adapted. Since the risk of breakage is very high, care must be taken that the wires are laid in bends, the radii of which are dimensioned in such a way that the casual The bend radius of the wires is not undershot.

It is also possible to remove the sheaths from the optical waveguide cores to insert without centering socket in a multiple plug element in which the alignment and centering takes place during the insertion process. The multiple plug element has expediently a centering groove in which the alignment and centering the fiber optic ends. Because the connections are made directly at the installation site should be, is the attachment of plug parts, where a centering and definition of the fiber optic ends must be done, not appropriate. It suit for this purpose the already mentioned connecting elements, the arrangement must be done in such a way that the risk of contamination of the centering grooves is as low as possible i.e. a vertical arrangement of the centering grooves is preferred. the Connections of the fiber optic cores must be detachable in order to make necessary switchings to be able to carry out. There are now essentially two possible versions. In the first case, the optical waveguide cores are held in connectors that are introduced into the multiple plug element. Thread during insertion then the free fiber optic cable ends into the centering groove and finally push to each other.

In the further case, the fiber optic ends are in the multiple plug element set and extend at a suitable angle against a pivot part the centering grooves are arranged. Thread when swiveling in this swivel part the fiber optic ends also fit into the centering grooves. Instead of of the centering grooves can also be two for centering the optical fiber ends parallel cylinder surfaces are used, which extend along a Surface line touch. In the "groove" formed in this way, an alignment and centering of the fiber optic ends.

For connecting the cores of incoming and outgoing fiber optic cables two principles are possible. In one case, the incoming wires are direct connected to the outgoing wires, while in the second case the connections from incoming and outgoing wires are done with the help of switching lines. Here the wires of the cables are fixed, and the required connection is made with the switching wires carried out.

The excess lengths required depend on the switching principle selected the fiber optic cores or the switching cables hanging down in loose bends to put on.

In the first case are the outgoing wires, in the second case the switching wires provided with excess lengths.

The invention will now be explained in more detail with reference to two figures.

Fig. 1 shows the separating and switching device with a multiple plug element, in which the centering groove is fixed.

Fig. 2 shows the multiple plug element with a pivot part that the centering grooves.

The housing 1 shown in Fig. 1 contains the isolating and switching device the fiber optic cable. In this housing 1 is, for example, an incoming Cable 6 with fiber optic cores 8 and an outgoing fiber optic cable 7 with fiber optic wires 9 introduced. The fiber optic cables 8 and 9 are now guided over wire guide arches 11 to prevent kinking of the sensitive fiber optic wires 8 and 9 to prevent. The incoming optical fiber cores 8 are at their ends provided with connecting links 4. With suitable casting compounds 5 or the like the optical waveguide cores 8 are fixed with their sheaths in the connecting member 4. The free, freed from their sheaths optical fiber ends 10 are at Insertion of the connecting member 4 into the centering groove 3 of the multiple plug element 2 introduced. The outgoing optical waveguide cores 9 are in this embodiment Laid in loosely hanging arches with excess length to allow the freedom of movement of the switching paths to ensure, i.e. that each switching point of the fiber optic cores 8 of the incoming Optical fiber cable 6 can be achieved. The optical fiber cores 9 of the outgoing fiber optic cable 7 are in the same way as the incoming Optical fiber cores 8 fitted and also introduced into the multiple plug element 2. The fiber optic ends 10 freed from the sheathing run into the centering ones Grooves 3 up to the joint with the incoming optical fiber end 10. In order to the connection between the fiber optic wires 8 and 9 is established. By this simple connection technology is now always one in accordance with the task at hand Separation or switching of fiber optic cables possible.

In a further embodiment, which is indicated in Fig. 2, are the fiber optic wires 8 and 9 in fixed links 4 of the multiple plug element 2 set and the centering grooves 12 are on one against the obliquely protruding free light waveguide ends 10 pivotable pivot part 13 attached arranges. This pivot part 13 is rotatably mounted about an axis 14. The connection of the Optical fiber ends 10 are made in a simple manner by pivoting the pivoting part 13 achieved because the optical waveguide ends 10 widened from the upper end Groove 12 spring loaded and in the further course basically the groove 12 up to the mutual Touching each other.

The connections are separated by swiveling out the swivel part 13. Here, too, there is a direct connection between incoming and outgoing fiber optic cables 8 and 9 or a connection via switch wires possible.

5 claims 2 figures

Claims (5)

Claims Separating and switching device for fiber optic cables with the help of self-centering fiber optic couplings, d a d u r c h g e k e n n z e i c h -n e t that the optical fiber cores (8) of an incoming Fiber optic cable (6) fitted individually or in pairs with connecting links (4) and a multiple plug element (2) for optical fiber cores via wire guide bends (11) are supplied that the optical fiber cores (9) of the outgoing optical fiber cable (7) also fitted individually or in pairs with connecting links (4) and over Conductor arches (11) with excess length of the multiple plug element running in loose arches (2) are supplied. 2. Separating and switching device according to claim 1, d a d u r c h g e k e n n n z e 1 c h n e t that the centering and aligning part in the form of a groove (3) is fixedly arranged in the multiple plug element (2), and that the connecting links (4) with the loosely gripped fiber optic ends (io) in the multiple plug element (2) are used releasably. 3. Separating and switching device according to claim 1, d a d u r c h g e k e n n n z e i c h n e t that the connecting links (4) in the multiple plug element (2) are fixed and that the centering and aligning part in the form of a groove (12) centering the loose optical waveguide ends (io) on a pivoting part (13) and is arranged pivotably aligning. 4. Separating and switching device according to one of the preceding claims, d a d u r c h e k e n n -z e i c h n e t that connecting elements for the production electrical connections on the multiple plug element (2) and on the connecting links (4) are arranged. 5. Separating and switching device according to one of claims 1 to 4, d u r c h e k e n n -z e i c h n e t that both the incoming and the outgoing cable (6, 7) each assigned to a multiple plug element (2) and the Connection between the multiple plug elements (2) with individual switching lines, which are equipped with connecting links (4) on both sides. is.