DE3843192A1 - Mounting device for spare lengths of optical waveguides - Google Patents

Abstract

The invention relates to a mounting device for spare lengths of optical waveguides for telecommunication racks. It is to be produced in a simple and cost-advantageous manner and is to permit the spare lengths to be inserted rapidly and without complications and removed in a similar simple manner. For this purpose, a disc-shaped coil former is proposed which has, in a side wall, a passage opening which extends over the region between the winding discs. The device is used for telecommunications appliances. <IMAGE>

Description

The invention relates to a receiving device for before Recommended lengths of optical fibers for frames of the night leveling technology. For holding the cradle A holder is attached to the frame.

In telecommunications, racks can be used Device units used, the plug-in on their back Wear binder elements, in the used state via appropriate plug-in arranged in the racks binder counterparts links to further uses or to be produced from outside. The device units are with plug-in modules pieces. These plug-in modules can be used as printed circuit boards ten be carried out in the side in the unit th arranged guide rails are guided and on egg ner side wear connector elements with which they in corresponding mating devices in the device intervene. The printed circuit boards can be used for shielding also in flat, rectangular metal cups brought, the guide strips on their narrow sides wear with which they are guided in the guide rails are. Via internal wiring in the device unit are the connector elements and the mating connector directions connected with each other.

When wiring device inserts with light waves conductors who e.g. from one arranged above the frame Cable grate come to the stacked Ge council units go are cradles for Vor  recommended lengths of fiber optic cables required because the Fiber optic cables usually already in excess length pre-assembled connector parts are supplied and because of the not problem-free connection technology connect optical fibers to connector parts should be avoided at the installation site if possible.

The invention has for its object a very fold and inexpensive to manufacture cradle for supply lengths of optical fibers for frames of Telecommunications to indicate a quick and un complicated insertion of the stock lengths as well as one easy removal allowed.

This problem is solved with a disc-shaped spu steering body with between two side walls at a distance mutually arranged winding disks and one Sidewall prevail over the area between the winding disk extending through opening. The The distance between the winding disks is slightly larger than the diameter of an optical fiber. At a The bobbin with two winding disks is the passage Opening in the side wall is S-shaped and runs from one Side of the disc-shaped bobbin to the opposite lying side. One on one side of the bobbin in the through opening is inserted optical fiber initially led half around a winding disc, then between two winding disks and follow around half a second winding disc the. On this side the optical fiber emerges from the Out of the bobbin. It is therefore advantageous that the sides in the area of the S-shaped through opening protrudes slightly over the edge of the winding discs, with the exception of the area between the winding disks. The routing of the optical fiber between the two  Winding discs causes rotation of the coils body around an axis approximately in the middle between the the winding disks both extensions of the optical fiber evenly in a uniform winding direction on the coils body can be wound up.

In the following, the invention will be explained in more detail using an exemplary embodiment shown schematically in FIGS. 1 and 2 .

Show it:

Fig. 1 in an oblique view of a bobbin in a Hal tion.

Fig. 2 in an oblique view of a bobbin with dash-dotted line of an optical waveguide.

The schematically indicated in Fig. 1 holder 1 for receiving devices for excess lengths of optical fibers can be fastened with rear flange webs 2 in a frame of telecommunications. Such racks are standardized, for example, under the name "Bauart 7R" at the Deutsche Bundespost, the insertable device units are arranged one above the other in these racks. The bracket is delimited by two side walls, between which, in the embodiment shown, three receiving devices for excess lengths of optical fibers can be used, of which one such receiving device 6 is shown in FIG. 1. The coil body lies in a corner of the holder, for support a support 3 made of angled sheet metal is arranged on the front of the holder, which surface on its forward-facing side has recesses for guiding optical fibers 5 . The receiving device 6 is a bobbin, between the two side walls 7 and 8 in this embodiment, two winding disks are arranged at a distance from each other. The winding disks 12 and 13 are covered by the side wall 8 in the figures and indicated by dashed lines in FIG. 2. The disc-shaped bobbin has the shape of a rectangle, the corners of which are very rounded. These curves have about the same center as the winding disks, the side walls project outwards over the winding disks, so that between the side walls and the winding disks a receiving space for light waveguides is formed similar to a groove. An S-shaped opening 9 runs from a narrow side of the rectangle to the opposite side in the outer wall 8 . The through opening is about so wide that an optical fiber can be inserted comfortably. In the area of the winding disks, the side wall is above the edge of the winding disks with the exception of the area directly between the winding disks. An optical waveguide inserted into the through opening loops half around the first winding disk 12 , is passed between the two winding disks 12 and 13 and then wraps around the second winding disk 13 in the opposite winding direction. If the bobbin is rotated about an axis approximately in the middle between the two winding disks ben, the two extensions of the light wave lenleiters 5 are wound in the same winding direction on the formed by the two juxtaposed winding disks th winding body. The two extensions of the optical waveguide 5 can then emerge from the coil body next to one another and in the same direction and can be guided downward out of the holder.

The diameter of the winding disks is permissible dimensioned to the smallest bending radius of the optical fibers  sen. It is ensured with this coil former that this minimum permissible bending radius is not undershot will. In the area of the two winding disks are the Openings provided through the bobbin, the one Allow easier handling of the bobbin.

The coil body is easy to handle, the light waves ladder can be easily inserted and wound up, oh ne that there is a risk that the smallest allowable bending radius is undershot and without a winding from The bobbin can fall down. The distance between the winding discs and the edge of the bobbin can so be dimensioned that a variety of windings open can be brought. The bobbin itself can be made from egg plastic in a conventional injection molding process ren be inexpensively manufactured. Except in racks the communications technology with Ge arranged one above the other he can also use advisory units in other areas directions where there is a need for Receiving device for excess lengths of optical fibers consists.

Claims (7)

1. Recording device for supply lengths of optical fibers for frames in communications technology, characterized by a disc-shaped coil body with between two side walls ( 7 , 8 ) at a distance from each other NEN winding discs ( 12 , 13 ) and a side wall ( 8 ) penetrating over the area between the winding disks extending through opening ( 9 ). 2. Recording device according to claim 1, characterized in that the distance between the winding disks ( 12 , 13 ) et what is greater than the diameter of a Lichtwellenlei age ( 5 ). 3. Receiving device according to one of claims 1 or 2, characterized in that the through opening ( 9 ) is S-shaped. 4. Receiving device according to one of claims 1 to 3, characterized in that in the region of the S-shaped passage opening ( 9 ) the side wall ( 8 ) projects beyond the edge of the winding disks ( 12 , 13 ), with the exception of the region ( 11 ) between the winding discs. 5. Receiving device according to one of claims 1 to 4, characterized in that the coil former has the shape of a rectangle with strongly rounded corners and the S-shaped passage opening ( 9 ) extends from one narrow side to the opposite narrow side. 6. Recording device according to one of claims 1 to 5, characterized in that the radius of the winding disks ( 12 , 13 ) corresponds to the smallest permissible bending radius of the optical waveguide. 7. Recording device according to one of claims 1 to 6, characterized in that the Spu steering body penetrating openings ( 10 ) are provided approximately in the region of the winding disks ( 12 , 13 ).