DE8716726U1 - Device for mechanical mounting of optical splitter components - Google Patents

Description

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87G2924DE Siemens AG

Device for mechanically holding optical splitter components

The innovation relates to a device according to the generic term of claim 1.

IQ In transmission technology, optical fibers are increasingly being used for time and/or frequency multiplexed signal transmission. For example, a large number of telephone calls can be transmitted simultaneously via a single optical fiber. However, it is also possible to transmit

^5 different types of data to be transmitted, such as data, radio programs, television programs, telephone calls, office communication data, screen inputs to a central computer, a database or a process control system or outputs from there to a decentralized partner device, for example a display device or a printer. All of this data or information is transmitted using light of different wavelengths via one or more optical fibers. The data is coupled in and out via optical splitters, which are usually housed in distributors on the transmitting and receiving side. The incoming and outgoing optical fibers are connected to the inputs and outputs of the splitter modules via plug-in, screw or splice connections or are guided to shorter fiber pieces, so-called pigtails, which are glued or spliced onto them. A distinction is made between wavelength-independent splitters

₃ q and wavelength-selective branching devices.

It is desirable to define the splitter modules present in a fiber optic transmission path in a suitable manner in order to achieve a clear arrangement of these devices. This is particularly necessary if there are a large number of such splitter modules, e.g. in main distribution boards, and if individual splitter modules or the connected light sources are to be accessed later, e.g. for measurement and maintenance purposes.

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waveguide is to be accessed.

The aim of the innovation is to provide a device according to the generic term of claim 1, which allows a clear arrangement of the branching components and allows a mechanical fixation of the optical fibers guided to them in the vicinity of the branching components; this is intended to prevent the optical fibers from falling below the permissible bending radii and, in particular, to prevent the optical fibers from kinking.

10

The innovation solves this problem through the characterizing features of claim 1. Advantageous embodiments of the device according to the innovation are specified in the subclaims.

15

The innovation is explained in more detail below using an embodiment shown in the drawing.

The drawing shows a plate-shaped carrier 1 for the simultaneous accommodation of two known branching modules not shown in the drawing. These branching modules consist of essentially cuboid-shaped modules and are each provided with three inputs and outputs to which the further optical fibers are to be connected. The carrier i, the material thickness of which is at least equal to the thickness of a branching module, is provided with two recesses in the shape and dimensions of the branching modules to be accommodated and the plug, screw or splice connections or pigtail connections connected to their inputs and outputs. The recesses 21, 22, 23 or 31, 32, 33 for accommodating the plug, screw or splice connections or pigtail connections can be designed as grooves made in the carrier 1 as in the embodiment shown. These grooves are suitably designed, for example by means of retaining clips or spring-loaded noses, to fix the plug-in, screw-in or flush connections or plug-in connections between the splitter modules and the optical fibers in a force-fitting and/or form-fitting manner and thus to hold the splitter modules in the carrier.

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The carrier 1 is also provided with guide channels 4, 5, 6 or 7, 8, 9 embedded in its surface for receiving the optical fibers connected to the inputs or outputs of the splitter modules. These guide channels open out at a common end face of the carrier. The arrangement is such that one splitter module can be inserted into the recess 2 or of the carrier 1 from one side and the other from the other. The optical fibers leading to one splitter module run on the top of the carrier, and the optical fibers leading to the other splitter module run on the bottom of the carrier; access to the connections of a splitter module is thus not hindered by the optical fibers arranged on the other side of the carrier for the other splitter module. By specifying appropriately shaped guide channels and embedding the optical fibers in these guide channels, it is ensured that the optical fibers laid in loops cannot contract under tensile stress to the extent that the permissible bending radius is not exceeded. The tensile forces themselves are absorbed in the plug-in, screw or splice connections in which the protective covers enclosing the optical fibers are fixed. The optical fibers are fixed in the guide channels via their protective covers by means of spring-loaded lugs or similar in a force-fitting and/or form-fitting manner.

In the embodiment shown, two junction J modules are held in one plate. It is also possible to provide only one such module per plate.

It is also possible to install branching modules of a different shape in the plates by adjusting the recesses in the plates accordingly. This different shape can refer to the actual branching module as well as to the plug-in, screw or splice connections or the pigtail connections, which are led out of the branching module at a different angle, for example.

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"*T " * 8? G 2 92 4DE to be accommodated, as &zgr;.'&oacgr; in distributors, the supports holding these splitter modules can be arranged so that they can be moved between guide rails in a frame or cabinet. The supports must be arranged so that the optical fibers are accessible via the front of the support. The supports can also be provided with hooks or eyes, by means of which they can be hung on the rails of a frame or cabinet. The arrangement can be such that the supports are pivotably mounted on the guide rails or the rails individually or in groups together.

7 Schuizän sayings
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Claims (7)

• -««■ Protection claims 1. Device for the mechanical mounting of optical splitter components for wavelength-independent or wavelength-selective branching or merging of optical transmission paths, each of which is represented by an optical waveguide which is connected via a plug-in, screw-in or splice connection to an input or output of the splitter component or to a piece of fiber (pigtail) connected to it, characterized in that a plate-shaped carrier (1) is provided, the material thickness of which is at least equal to the thickness of a splitter pigtail,
that the carrier (1) is provided with at least one recess (2, 3) in the shape and dimension of a splitter module to be accommodated and the plug, screw or splice connections or pigtail connections connected to its inputs and outputs, into which the splitter module can be inserted and fixed in a force-locking and/or form-locking manner, that the carrier (1) is provided with guide channels (4 to 6, 7 to 9) let into its surface for receiving the optical waveguides connected to the inputs and outputs of the splitters, into which the optical waveguides are inserted and that these guide channels (4 to 6, 7 to 9) open at a common end face of the carrier. 2. Device according to claim 1, characterized in that the carrier (1) is designed to accommodate two branching modules, one of which can be inserted into the corresponding recesses (2, 3) of the carrier from one side and the other from the other side, that the optical fibers leading to the individual branching modules are laid in guide channels (4 to 6, 7 to 9) on one or the other side of the plate-shaped carrier and that the two branching modules are arranged in the carrier in such a way that their respective branching inputs and outputs run parallel to each other, offset by 180°. Ill 01 05 30 35 ·"'S"' 87 (2292 3. Device according to claim 1 or 2, characterized in that the optical waveguides are fixed in the guide channels (4 to 5, 7 to 9) in a force-fitting and/or form-fitting manner. 5 4. Device according to claim 1, 2 or 3, characterized in that the branching components can be fixed in the carrier via their plug-in, screw or splice connections or the pigtail connections. 10 5. Device according to claim 1 or 2, characterized in that the carrier is arranged so as to be displaceable between guide rails in a frame or cabinet. 15 6. Device according to claim 1 or 2, characterized in that the support is arranged so as to be able to be hung on a rail of a frame or cupboard. 7. Device according to claim ^ or 6, characterized in that the carrier is pivotably mounted. 25 &igr;&igr;&lgr; rt n/t