DE4007405A1 - Splice coupling for optical fibres - has each splice fitted in guide at an angle to its longitudinal axis - Google Patents

Abstract

The splice coupling has a respective splice (11) for each pair of optical fibres (20,21) the latter inserted in the splice (11) at an angle. The splice (11) is supported in a guide (15) at an angle to its longitudinal axis and is held in place by a fixing element (16). Pref. a number of individual splice couplings are combined in a module, with a number of such modules combined in a stepped configuration, one above the other to provide a complex coupling cuff.

Description

The invention relates to a device for connection of optical fibers, consisting of splicing with receptacles, on which longitudinally displaceable press sleeves are attached, optical fibers can be plugged into the receptacles, each receptacle in a carrier provided with a recess body and a bracket is divided and this in a guided tour.

The increasing importance of the use of optical fibers in The message transfer raises the question of the effort involved for assembly is necessary, more and more in the foreground. The main focus here is on the time involved should be further minimized, of course under Beibe maintaining the quality of the work. Today's Applying upcoming principles in connection technology from Optical fibers are the welded or plug connections. The latter prove to be time-consuming advantage over welded connections. A device for connecting optical fibers using this principle applies, is described in E 02 84 658. Through the This is sufficient for the large number of optical fibers to be connected Device only today's requirements for final assembly limited.

Therefore, the task arises, the device to connect a variety of optical fibers improve that ergonomic requirements at the end assembly can be fulfilled even better.

The solution of the problem according to the invention is that the splice is set at an angle to the longitudinal axis of the guide is arranged.  

In this way, the final assembly is particularly advantageous adhesive ergonomic arrangement significantly improved. The before Ready-made fibers are already on the lower side summarized. The fibers to be connected can then be easily inserted from above and placed on the top. At- and outgoing fibers are thus geometric from one another Cut.

A particularly advantageous embodiment of the invention is that the optical fiber in the upper end of the Splice can be plugged in and by means of the press sleeve located there can be locked. ln contrast to the horizontal opposite the This splice simplifies the longitudinal axis of the guide order the insertion of an upper optical fiber considerably and the optical fiber can be used with that from E 02 84 658 lock the known mechanism quickly and securely.

Another advantageous embodiment of the device exists in that they are individually or several in a module are arranged. This allows many variants of the invention can be found that meet the specific needs of users account. Especially the Reali sation of an excess fiber length or to multiple use of a module. When using a module more than once be for example on the series of two or pointed out several modules. This and the others Arrangements are suitable, an identification of the connected Support light guides.

A particularly advantageous construction is obtained by the modules, as known from DE-OS 38 41 606, to several as part of a sleeve stair-shaped, one above the other are arranged. This brings the ergonomic advantage of sided good accessibility of the device preferably at the final assembly especially for carrying. The unfavorable effect of disadvantageous location of the summarized on the lower page  Connections are compensated for by the fact that they are already in the factory are pre-assembled. Here is a connection technology thought in which two devices of this type by means of one intermediate optical cable to a connector are manufactured or to optical cables that only with one side this device can be equipped to lay a Route. The connector in turn could be special effective for repairing a broken section cable be used. This could make the assembly time effort should be at least halved. The economic success that results from this shortening of the assembly time is by Synergy effects, such as faster removal of disruptive Construction sites and benefits from an earlier use of the Bring communication systems with them, further increased.

Further advantageous embodiments of this invention are described therein seen that the modules can be folded around an axis or laterally axially displaceable and the modules at least in Steps can be locked. This will still give the opportunity further increased, fiber optics compact with each other connect. In addition, this gives you the chance to do more Introduce order schemes. A loss of clarity in the establishment of the connections, despite the high number of connections cannot be accepted. The possibility of locking the open one, for inserting the light fibers into the splice ready modules thus supports the safe and fast Final assembly.

An embodiment of the invention is based on the Drawing and the following description explained. In the Drawing shows:

Fig. 1 a partial section through a device for Ver connection of two optical waveguides,

Fig. 2 shows a longitudinal section through a module for connecting four light waveguides and

Fig. 3 shows a partial section through a sleeve for connecting several optical fibers.

Fig. 1 shows the device 10 for connecting two light waveguides 20 , 21st The optical fiber 20 is inserted obliquely from above into the splice 11 , which is divided into a recess provided with a support body 12 and in a holder 13 . The splice 11 is held in the guide 15 by the fixing element 16 .

Fig. 2 shows a module with two consecutively arranged devices 10, in which the incoming optical fibers 21, are guided in a splice tray 32 23. The light fibers 20 , 22 to be connected are guided on the opposite end of the module 30 . This avoids an undesirable impediment between incoming and outgoing fibers. The incoming light fibers 21 , 23 are preferably guided through the axis 41 of the splice tray 32 . The device 10 lies on the support 31 of the module 30 .

Fig. 3 shows the use of the connecting device 10 in a plurality of modules 30 as part of a collar 40. Here again the particularly favorable ergonomic guiding speed of the fibers 20 and 22 to be inserted can be seen. The pre-assembled fibers 21 and 23 are preferably brought together by the axis 41 as a bundle in a channel 42 and through the wall 43 to form an optical cable.

Claims (6)

1. Device for connecting optical fibers, consisting of splicing with receptacles, on which longitudinally displaceable compression sleeves are attached, optical waveguides can be plugged into the receptacles, each receptacle is divided into a carrier provided with a recess and a holder and this in a guide are accommodated, characterized in that the splice ( 11 ) is arranged obliquely with respect to the longitudinal axis of the guide ( 15 ). 2. Device according to claim 1, characterized in that the optical waveguide ( 20 ) in the upper end of the splice ( 11 ) can be plugged and locked by means of the press sleeve ( 14 ) located there. 3. Device according to claim 1 or 2, characterized in that the device ( 10 ) are arranged individually or in groups in a module ( 30 ). 4. The device according to claim 3, characterized in that the modules ( 30 ) to a plurality as part of a sleeve ( 40 ) are arranged in a step, one above the other. 5. The device according to claim 4, characterized in that the modules ( 30 ) about an axis ( 41 ) are arranged foldable or laterally axially displaceable. 6. The device according to claim 4 or 5, characterized in that the modules ( 30 ) can be locked at least in stages.