DE2846951C2 - Distribution device for fiber optic cables - Google Patents

Description

The invention relates to a distribution device for fiber optic cables with self-centering fiber optic couplings for the individual fiber optic wires, with a multiple plug element for the with Connecting links equipped ends of the fiber optic wires and guide elements for the arched extending excess lengths of the optical waveguide wires are arranged and wherein the excess lengths are so large that with each end of a fiber optic wire every switching point of the multiple plug element can be reached

For broadband communication systems are increasing Dimensions of optical cables used in branched networks are similar to telephone networks Isolation and changeover devices required With these devices, isolation and changeover devices must be used possible between the cores of incoming and outgoing cables Connection technology required with which the necessary switching operations can be carried out in a simple manner can. For this type of connection technology, fasteners are particularly suitable where the There is no need for time-consuming adjustment and centering of the fiber optic ends in special connector parts Such connecting elements are described in DE-AS 26 22 607, for example. Here they are in connector parts captured fiber optic ends inserted into a coupling piece, one of the fiber optic ends centering and aligning groove has separations and switchings are therefore easier Way to execute.

In DE-AS 26 18 205 is a Muffencinsatz to the connector, each from electrical conductors and Optical fiber cables described, this insert body from one of the connecting parts the housing that accommodates electrical conductors also has a connecting body attached to it to accommodate connecting means for optical fibers. There are guide elements for the optical fibers provided in order to be able to insert excess lengths in bends, the radii of which are larger than the permissible ones Bending radii of the optical fiber In this arrangement, slots are provided in which the optical fibers be inserted and held, and since there are several optical fibers inserted, it is less suitable for a distribution facility. In the case of such a facility, permissive maneuvering must first and foremost be possible be. Furthermore, the sleeve insert described consists of two separate connecting bodies, namely one for connecting electrical conductors and one for connecting optical fibers.

The object of the invention is that a useful device for connecting, separating and Switching of cores of incoming and outgoing fiber optic cables is developed, in which there is it is possible to carry out the necessary switching operations at the installation site without special aids such as adjustment and Centering devices to make. The object is achieved according to the invention in that the ends of the Fiber optic wires of an incoming fiber optic cable and the ends of the fiber optic wires of the outgoing fiber optic cables via guide elements designed as wire guide arches Multiple plug element are supplied and that the multiple plug element is a centering and aligning part in the form has a groove and that the connecting links with the loosely gripped optical waveguide ends in the multiple plug element are used releasably.

The essence of the invention is that the optical fiber cables, but especially the Cores of these fiber optic cables are adapted to the special requirements. Because the risk of breakage is very high

is large, care must be taken that the veins are in Bends are laid whose radii are dimensioned in such a way that the permissible bending radius of the cores is not undershot will. It is also possible to remove the sheaths from the optical waveguide cores without to introduce centering socket in a multiple plug element, in which the alignment and centering during the insertion process takes place. The multiple plug element expediently has a centering On the groove in which the alignment and centering of the fiber optic ends takes place. As the connections ani installation site is to be carried out directly, is the attachment of plug parts, where a centering and fixing of the fiber optic ends must be done, not attached It is suitable for this purpose the connecting elements already mentioned, the arrangement must be such that the risk of contamination the centering grooves are as small as possible, d. H. a vertical arrangement of the centering Grooves are preferred. The connections of the fiber optic wires must be solvable in order to be able to carry out the necessary switchovers. There come now essentially two versions in question. In the first case, the fiber optic wires are in connecting links taken, which are inserted into the multiple plug element. Thread during insertion Then the free fiber optic cable ends in the centering groove and finally abut one another. In the further case, the fiber optic ends are fixed in the multiple plug element and extend at a suitable angle against a pivoting part on which centering grooves are arranged. When swiveling Ξϊη of this pivoting part, the fiber optic ends are also threaded into the centering grooves a. Instead of the centering grooves, two parallel lines can be used to center the fiber optic cable ends Cylindrical surfaces are used that touch along a surface line. In those educated in this way Alignment and centering of the fiber optic cable ends can also be carried out using a “groove”.

To connect the wires of incoming and outgoing fiber optic cables there are two Principles possible. In one case, the incoming wires are connected directly to the outgoing wires, while in the second case the connections of incoming and outgoing wires with the help of Switching lines take place. The wires of the cables are fixed and the required connection is made with the switching wires carried out Depending on the switching principle chosen, the required extra length of the fiber optic wires or to lay the switching lines hanging down in loose bends. In the first case are the outgoing wires, in the second case the switching wires are provided with excess lengths.

The invention is now based on two F i g. explained in more detail

F i g. 1 shows the separating and switching device with a multiple plug element in which the centering Groove is firmly arranged

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

The in Fig. Housing 1 shown in FIG. 1 contains the separating and switching device for the optical waveguide cables In this housing 1 is, for example, an incoming cable 6 with fiber optic wires 8 and an outgoing optical waveguide cable 7 with optical waveguide cores 9 inserted The optical waveguide cores 8 and 9 are now routed through wire guides 11, to prevent the sensitive fiber optic wires 8 and 9 from kinking. The incoming fiber optic wires 8 are provided with connecting links 4 at their ends. With suitable casting compounds 5 or the like. The optical waveguide wires 8 are fixed with their sheaths in the connecting member 4 The free optical waveguide ends 10 freed from their sheaths are when the connecting member is inserted 4 inserted into the centering groove 3 of the multiple plug element 2 The outgoing optical waveguide wires 9 are laid in loose, hanging arches with excess length in this exemplary embodiment, to ensure the freedom of switching paths, i.e. that each switching point of the fiber optic wires 8 of the incoming fiber optic cable 6 can be reached. The fiber optic wires 9 of the outgoing fiber optic cable 7 are in the same way as the incoming fiber optic wires 8 fitted and also introduced into the multiple plug element 2 The freed from the envelope Optical fiber ends 10 run into the centering grooves 3 up to the point of contact with the incoming one Optical fiber end 10 a. The connection between the fiber optic wires 8 and 9 is thus established Thanks to this simple connection technology, separation is now possible at any time, depending on the task at hand or switchover of fiber optic wires possible.

In another embodiment shown in FIG. 2 is indicated, the optical waveguide wires 8 and 9 fixed in fixed links 4 of the multiple plug element 2 and the centering grooves 12 are on a pivoting part 13 pivotable against the free optical waveguide ends 10 protruding at an angle This pivoting part 13 is rotatably mounted about an axis 14 The connection of the optical fiber ends 10 is achieved in a simple manner by pivoting the pivoting part 13, since the optical waveguide ends 10 threaded from the groove 12, which is enlarged at the upper end, and in the further course basically the groove 12 can be moved against each other until they touch each other. The connections are broken by pivoting out the pivoting part 13. Here, too, there is a direct connection between incoming and outgoing Fiber optic wires 8 and 9 or a connection via switch wires possible.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: ! Distribution device for fiber optic cables with self-centering fiber optic couplings for the individual fiber optic wires, with a multiple plug element for the with Connecting links equipped ends of the optical waveguide wires and guide elements for the Arched excess lengths of the fiber optic wires are arranged and wherein the excess lengths are so great that each switching point of the multiple plug element with each end of an optical waveguide wire is reachable, characterized in that that the ends of the fiber optic cables i8) of an incoming fiber optic cable (6) and the ends of the fiber optic wires (9) of the outgoing fiber optic cables (7) are fed to the multiple plug element (2) via guide elements designed as wire guide bows (11) and
that the multiple plug element (2) has a centering and aligning part in the form of a groove (3) and
that the connecting links (4) with the loosely gripped optical waveguide ends (10) are detachably inserted in the multiple plug element (2). 2. Distribution device for fiber optic cables with self-centering fiber optic couplings for the individual fiber optic wires, with a multiple plug element for the with Connecting links equipped ends of the optical waveguide wires and guide elements for the arcuate excess lengths of the optical waveguide wires are arranged and wherein the Overlengths are so great that each switching point of the multiple plug element with each end of an optical waveguide wire is reachable, characterized in that that the connecting links (4) are fixedly arranged in the multiple plug element (2) and
that the centering and aligning part is arranged in the form of a groove (12) on a pivoting part (13), centering and aligning the loose optical waveguide ends (10) so that it can pivot 3. Distribution device according to one of the preceding claims, characterized in that Connecting elements for making electrical connections on the multiple plug element (2) and are arranged on the connecting links (4). 4. Distribution device according to one of the preceding claims, characterized in that both the incoming and outgoing cables (6, 7) are each assigned to a multiple plug element (2) and the connection between the multiple plug-in elements (2) with individual switching lines, which are equipped on both sides with connecting links (4) is made