DE3743632A1 - Cross-connection coupler for optical waveguides - Google Patents

Abstract

Receiving panels (2) which are arranged in a rack and can be rotated about vertical longitudinal side axes (1) exhibit a multiplicity of optical coupling devices (3), which are arranged next to one another and above one another row by row and column by column, for optical waveguides. The ends of the optical waveguides (4, 6) coming from a central exchange or leading to the subscribers are connected to these coupling devices. Separate optical waveguides (7) which interact with the coupling devices (3) on the rack via connectors at the end are provided for optionally connecting these optical waveguides (4, 6). Both the optical waveguides coming from the exchange and those leading to the subscribers and the separate optical waveguides (4, 6, 7) are run close to the axes of rotation of the individual receiving panels in the rack and allow the receiving panels to be rotated open. This creates the necessary space for running and connecting the optical waveguides and the separate optical waveguides between the receiving panels which are normally close together. <IMAGE>

Description

The invention relates to a distribution distributor for Optical fiber for optional connection of one central exchange coming with optical fibers the optical fibers leading to the participants.

Optical fibers are crowding out in transmission technology taking the copper conductors used so far, because they the Have an advantage of an extraordinarily broadband data over enable carrying. For example, one single optical fiber in channels in time division or Frequency division multiplexing simultaneously over several telephone calls averages or any other data from a participant be transmitted to another subscriber. Which includes in addition to data from office communication, data on planning tax an operational sequence and data on the display device control tion including the data for the operation of video telephones and televisions. The light coming from the participants waveguides, similar to copper cables the case is not directly to the central office, but first on a distribution board. This shunting distributor serves to establish a fixed assignment between those of the Exchange coming to the to the optical fibers Manufacture leading optical fibers, the same but to offer the opportunity at an early stage to cancel or change again.

Such distribution boxes for optical fibers are already known (company publication Western Electric, ClR 636-099-002 TD, March 1986).

The object of the invention is to provide a distribution distributor for Optical fiber for optional connection of a zen central exchange coming with the to create optical fibers leading to the participants, the routing of a variety of optical fibers allows confined space and is easy to handle for the operating personnel  is cash.

The invention solves this problem by the characterizing Features of claim 1. Advantageous training of the distribution distributor according to the invention are in the dependent claims specified.

The invention is explained in more detail below with reference to exemplary embodiments shown in the drawing. Fig. 1 shows a marshalling rack, in which the elements to be connected to one another are arranged on mounting plates which can be pivoted via pivot axes arranged next to one another in a plane, and in Fig. 2 an embodiment of the invention, in which the pivot axes lie on an arc.

Fig. 1 shows a frame assembly having a plurality of pivotable about vertical axes 1 frame high receiving plates 2, each of which has a plurality of rows and columns in side by side or superposed optical coupling means 3; in the drawing, for the sake of better clarity, only a single block of such coupling devices is shown in detail. The mounting plates 2 are rectangular and are pivotably mounted about a longitudinal axis. The pivot axes of the individual recording plates lie in a common vertical plane. The optical fibers 4 coming from a central switching center are supplied to the rack arrangement from above and are mechanically fixed on a rack 5 on the rack side. The fiber optic cables 6 leading to the subscribers are fed to the actuating arrangement from below, for example from a cable duct located below the distribution space. The assignment of the optical fibers to the exchange and to the subscribers can also be interchanged; it is also possible to feed the optical waveguide to the distribution frame from only one direction.

The optical fibers 4 , 6 are summarized in bundles and laid in the swivel axis near the individual mounting plates each up to the level of those coupling devices to which they are to be connected. From there, they are angled into the horizontal and guided to the individual coupling devices. The optical fibers are to be mechanically fixed in a suitable manner on the mounting plates.

To connect as needed individual of the optical fibers 6 leading to the participants with the optical fibers coming from a central exchange 4 , special optical fibers 7 (patch cables) are used, which either run above the rack arrangement or below the rack arrangement and similarly to the other optical fibers along the pivot axes of those Mounting plates, which receive the optical fibers to be connected by these separate optical fibers, are each guided up to the level of the relevant coupling devices on the frame. There they are also angled into the horizontal and laid along the mounting plate to the coupling devices. The separate optical fibers are provided with plugs that cooperate with the frame-side coupling devices 3 of the optical waveguides and produce the optical connection between the subscriber-side and the switching-side optical waveguides. In the drawing, the greenness of the clarity only schematically indicates a single optical waveguide 7 for establishing such a connection.

The optical coupling devices 3 , via which the individual optical waveguides are to be connected to one another, are on one side of the mounting plates and the optical waveguides 6 and 7 or 4 and 7 leading to the coupling devices are arranged on the other side of the mounting plates. In this way, good accessibility of the optical coupling devices and clear line management is possible. On the coupling devices 3 are mechanically fixable caps to cover the coupling devices on the coupling devices or the mounting plates. These caps can be made so large that they cover the individual coupling devices line by line. The coupling devices can be designed as plug devices or as splice connections.

The arrangement of the coupling devices on pivotable Take-up plates make it possible to use a large number of couplings to accommodate directions in the smallest of spaces, but still through Swiveling the mounting plates to create the possibility towards the coupling devices and the optical fibers to grab. This is necessary when installing the maneuvering device divider and may be desirable to make the association between the subscriber-side and the switching-side lighting world cable conductors to change later in individual cases, or in the event of a fault to have access to the individual optical fibers.

In the embodiment of a patch distributor according to the invention shown in FIG. 2, the optical coupling devices 3 are also arranged in rows and columns next to or on top of one another on mounting plates 2 . These mounting plates can also be pivoted about one of their vertical lateral longitudinal axes; they are angeord net that the pivot axes of all the mounting plates stored in a common frame lie on a circle or arc. The leading to the participants optical fiber 6 and the leading to the exchange optical fiber 4 are, as well as the separate optical fiber 7 (patch lines), in the swivel axis near the individual plates on the plates and angled from there to the optical coupling devices 3 . By pivoting the individual mounting plates, both the individual coupling devices and the associated optical fibers for the assembly personnel are easily accessible; This accessibility is also available for later maintenance work.

Claims (12)

1. distribution distributor for optical fibers for optional connection of the optical fibers coming from a central exchange with the optical fibers leading to the participants, characterized in that
that a frame arrangement with a plurality of verti cal axes ( 1 ) pivotable frame-high mounting plates ( 2 ) is provided, each of which a plurality of in rows and columns arranged side by side or above one another optical coupling devices ( 3 ) for optical fibers ( 4 , 6 , 7 ) has
that the coming from a central office and leading to the participants fiber optic cables ( 4 , 6 ) combined into bundles and in the rack arrangement in the swivel axis near the mounting plates up to the level of those hitch be devices ( 3 ) to which they are to be connected,
that for connecting individual optical fibers ( 4 , 6 ) separate optical fibers ( 7 ) are provided, which run along the rack arrangement or below the rack arrangement ent and along the pivot axes of the receptacle which the optical fibers to be connected by these separate optical fibers ( 4 , 6 ), are guided up to the level of the relevant coupling devices ( 3 ) on the frame
and that the additional optical fibers ( 7 ) interact with the frame-side coupling devices ( 3 ) of the mounting plates via end-side plugs. 2. patch panel according to claim 1, characterized in that the receiving plates ( 2 ) are quite square and are pivotable about a respective longitudinal axis bar. 3. distribution distributor according to claim 1 and 2, characterized in that the pivot axes ( 1 ) on the receiving plates ( 2 ) in the frame arrangement are arranged in one plane next to each other ( Fig. 1). 4. distribution distributor according to claim 1 and 2, characterized in that the pivot axes of the acquisition plates on the frame arrangement are arranged side by side on a circle or arc ( Fig. 2). 5. patch distributor according to at least one of claims 1 to 4, characterized in that the optical coupling devices ( 3 ) on one side of the mounting plates ( 2 ) and the leading to the coupling devices leading optical fibers ( 4 , 6 , 7 ) on the other side the mounting plates are arranged. 6. distribution distributor according to claim 1 or 5, characterized in that mechanically fixable caps are provided for covering the optical coupling devices ( 3 ). 7. patch panel according to claim 6, characterized ge indicates that the caps to line by line Covering multiple optical coupling devices set up are. 8. patch distributor according to at least one of claims 1 to 7, characterized in that the optical fibers ( 4 , 6 , 7 ) on the mounting plates ( 2 ) are mechanically fixed. 9. Distribution box according to at least one of claims 1 to 5, characterized in that an above the rack arrangement attached cable grate ( 5 ) is provided on which the frame supplied from above light waveguide ( 4 ) are mechanically fixed. 10. patch distributor according to claim 9, characterized in that the separate light waveguide ( 7 ) on the cable grate ( 5 ) are mechanically fixed. 11. patch distributor according to one of claims 1 or 5, characterized in that the optical coupling devices ( 3 ) are designed as plug devices. 12. patch distributor according to one of claims 1 or 5, characterized in that the optical coupling devices ( 3 ) are designed as splice connections.