FR2534700A1 - Device for separating and protecting optical fibres from an optical cable. - Google Patents

Abstract

Device for transferring optical fibres from a first support means to a second support means 15, comprising a body consisting of a barrel portion 2 and a tapered extension 3. The body can be covered by a protective cap 12. The tapered extension includes grooves 6 which guide the optical fibres of the first support means towards cylindrical conduits housed inside the barrel portion 2 and extended by tubes 15 which receive the optical fibres individually.

Description

The present invention relates to a device allowing the separation, guidance, protection and tracking of optical fibers at the free ends of optical fiber cables, when these fibers are extracted from the grooved rod which usually serves as their support in cables. telecommunications
This device is of very simple design and implementation allowing use by unqualified personnel in difficult environments manhole, local infra-distributor, etc.

 In telecommunication links using optical fiber cables, a widely used structure consists of a grooved cylindrical rod, fibers being placed unconstrained in the grooves without any other individual protection than their primary coating.

The grooves can be distributed around the rod according to as many parallel helices, with a predetermined pitch. The rod provided with the fibers is protected by one or more ribbons wound around the rod so as to cover the fibers, these ribbons also having a function of closing the grooves.

 At the ends of these cabals, for connections to systems in bursting or dividing boxes, the fibers must be extracted from grooved rods over lengths which can reach several meters.

This imperative poses the following problems
- the separation of the different fibers of the same cable in order to connect them to the specific equipment for each fiber;
- guiding the separated fibers, which are liable to become entangled;
- the protection of bare fibers once extracted from the rods, for the purposes of manipulation necessary for connections;
- The identification of these fibers from the place where they are detached from the rod to their end, to avoid errors at connection without considerably increasing handling.

 The object of the present invention is to simultaneously solve the problems set out above.

 For this, there is provided according to the invention a separation device provided with a guide means capable of simultaneously receiving the different fibers substantially from the place where they leave a first support means such as a rod and the guide by keeping them separate from each other. In particular, the fibers can be guided to another support means than the rod, this other support means being able to be made integral with the device which is the subject of the invention thanks to a receiving means. Advantageously, a second support is provided having a structure which allows the fibers to be identified and a means for receiving this second support means.

This device which is the subject of the invention comprises means for receiving the first fiber support means and can therefore, for example, be threaded onto the rod of an optical target from one end of the cable, then be guided along the rod without special precautions, ensuring as and when it receives fibers, guiding them and transferring them to the second means of supports
This second support means can advantageously consist of a series of flexible tubes made of synthetic material, such as nylon, polyethylene,
PVC or similar. In this case, the means for receiving the tubes can be a series of tubular conduits in which the tubes are inserted. These conduits communicate with the means for receiving the fibers, which makes it possible to insert each fiber into an individual tube. which protects the fiber over the desired length.

 The fiber identification function is ensured either by a different coloring of each of the tubes, identical to the method used for copper conductors (colored sheath), or by an individual external numbering of each tube which can be repeated at regular intervals, such as than used for electrical cables.

The present invention will be better understood with the aid of the following description, made in conjunction with the appended drawings in which
Figure 1 shows a sectional view of a first embodiment of the present invention without protective cover;
2 shows a sectional view of a second embodiment equipped with a protective cover;
FIG. 3 represents a perspective view and in partial section of a rod end to which the extremity of the device of the present invention is adapted; and
Figure 4- is an overall perspective view of a cable equipped with the device according to the present invention, during assembly.

 The particular device to which this description relates is intended to equip a ten-fiber optical cable, such as those intended for the French administration of PTTs. The cabal shown therefore includes in particular a central rod with ten grooves.

 According to one aspect of the particular embodiment described, the means for guiding the separation device which is the subject of the invention consists of two main parts, one of them more particularly guiding the fibers as they exit the rod , and the other serving more particularly as a support for the flexible tubes which constitute the second means for supporting the fibers.

 More precisely, as can be seen in FIG. 1, the device described comprises a guide means 1 which essentially consists of a means for receiving the second fiber support in the form of a barrel 2 and a means of receiving fibers in the form of a frustoconical extension 3, the widest section of the frustoconical part being in contact with the barrel. The barrel part 2, which has been shown generally frustoconical in FIG. 1, can also be cylindrical in shape as shown in FIG. 2. The barrel part comprises ten conduits 4 passing through the barrel in its axial direction and arranged at equal distance from the from each other at the same distance from the axis of the barrel.

Each duct 4 advantageously ends in a flare 5 allowing easy insertion of flexible tubes 15 (FIG. 2). The frustoconical extension comprises ten grooves 6 intended to receive the optical fibers at their exit from the rod, placed in the extension of the cylindrical conduits 4, consequently at equal distance from each other on the surface of the frustoconical extension.

 So that the insertion of the fibers in the flexible tubes is carried out at best; the grooves 6 open into the tubular conduits 4 so that the bottom of each groove is located substantially in the center of each tubular conduit.

 The device further comprises means for receiving the first fiber support means, namely a conduit 7 coaxial with the device and passing right through it, of a width sufficient to receive the rod. The duct 7, typically cylindrical, has a flare 8 in the immediate vicinity of the end face of the barrel (opposite the frustoconical part). As can be seen in FIG. 2, the duct 7 can also be extended into a projection 16 outside the barrel at this end.

In the vicinity of the smallest section of the frustoconical part, the central duct 7 comprises a means for coordinating the relative movements of the first fiber support means and the guide means. This coordination means consists of ribs 9 embossed on its wall and parallel to the axis of the device, of a width which is sufficiently reduced to allow their insertion into the grooves of the rod and their sliding along these during the progression of the device. The ribs 9 must, however, be wide enough to limit the movement of rotation of the device relative to the rod coaxially with the latter. The ribs 9 thus make it possible to avoid shearing of the fibers. Their role is also to guide the device in its progression, according to a helical movement, not the same as the grooves 18 of the rod 19 (see FIG. 3 where a single fiber 17 has been shown),
As can be seen in FIG. 2, the device described also comprises a means of elastic retaining of the optical fibers, this comprises a circular groove 10 traced on the surface of the frustoconical part in a plane perpendicular to the axis thereof, which receives an O-ring 11 intended to prevent the fibers from escaping from the grooves 6 during the advancement of the device which is the subject of the invention. The diameter of the O-ring 10 is chosen to be slightly greater than the diameter of the bottom of the groove 10 so that the fibers can slide between the bottom of this groove and the O-ring without being slowed down in their movement,
As can be seen in FIGS. 2 and 4, the device described can advantageously be provided with a means of protection of the means for guiding the fibers such as a cover 12 which guides and protects the fibers over the part of their path situated between the O-ring 11 and the barrel part 2, The protective cover is made integral with the device at the level of the barrel part 2 by a removable fixing means such as a stud 13 received in an opening 'in bayonet 14 of the cover protective 12,
As shown in FIGS. 2 and 4, ten tubes 15 of synthetic material are fitted into the conduits 4 of the barrel part 2. These tubes of synthetic material extend out of the barrel over the entire length necessary for the fiber protection. they also extend inside the barrel over the entire length thereof, and abut on the shoulder produced by the base of the frustoconical part at its connection with the barrel.

 In connection with Figures 3 and 4, we will now describe the operation of the device. At the start of the operation, the fibers 17 are fitted into the grooves 18 of a cylindrical rod 19 coated with synthetic ribbons 20 for closing the grooves themselves covered with the envelope 21 of the target. After cutting the envelope, the rod is stripped over ten centimeters and the ribbons 20 are locked in position by an O-ring 22 which prevents any involuntary unwinding of the ribbons. The protective tapes being removed, the fibers 17 move away from the rod in the vicinity of the end thereof. The rod 19 is then inserted into the duct 7 of the frustoconical part of the device 1, the grooves of the rod 19 empty fibers cooperating with the frustoconical part by means of the ribs 9 described above. The barrel part 2 of the device 1 is fitted beforehand with the protective tubes 15. The device 1 is then advanced on the cable. The ten fibers 17 therefore follow the grooves of the frustoconical extension 3 outside of the latter, while the rod 19 itself progresses inside the device 1 via the conduit 7. The O-ring 11 is placed at this time towards the end of the frustoconical part furthest from the barrel part, and is therefore not yet fitted into the groove 10. Once the fibers 17 have exceeded the level of this groove, the joint O-ring 1 is put in place, then the fibers reach the barrel part 2 oR they penetrate into the conduits 4 of the barrel part and finally into the tubes 15. The protective cover 12 can be put in place as soon as the fibers have reaches the barrel part 2 The assembly can then be before along the rod 19. as and when the protective tapes are stripped over the necessary length. The device which is the subject of the invention being guided in the grooves 18 of the rod 19 via the ribs 9, the front anchoring can be carried out by towing and rotation at the pitch corresponding to the helical winding of the grooves 18 on the rod. This can be cut to size. output of the barrel part 2 as and when. advancement of the device.

The present invention is not limited to the exemplary embodiments which have just been described, it is on the contrary liable to modifications and variants which will appear to those skilled in the art.
In particular the guide means has been described in connection with an example presented in the form of a solid of revolution. It will be understood that the guide means may have any suitable shape or the whole of the structure in which it is used in particular. the distribution of the fibers can be done in one plane. In addition, the device can include a protection means running approximately from the stop of the cable sheath to the part protected by the cover. This means may be an elastic cover, a heat-shrinkable sheath, or a mechanical means or any other means of protection.

Claims (10)

REYENDICATIONS  1 - Device for separating optical fibers from an optical cable comprising a first support means (19) for optical fibers, characterized in that it comprises a guide means (1) for the various optical fibers and a means receiving (7) the first support means.  2 - Device according to claim 1, characterized in that it further comprises a second means (15) for supporting the optical fibers.  3 - Device according to claim 2, characterized in that the guide means comprises a means (3) for receiving the fibers and a means (2) for receiving the second fiber support means.  4 - Device according to claim 3, charac merise in that the means (3) for receiving the fibers is generally frustoconical in shape and in that the means (2) for receiving the second fiber support means comprises a series of conduits (4) in which various parts of the second means for receiving the fibers become entangled.  5 - Device according to claim 4, charac terized in that the means (3) for receiving the fibers has grooves (6) disposed on its surface in an axial direction and communicating with the conduits (4) of the part (2) of reception of the second fiber support means.  6- Device according to any one of the preceding claims, characterized in that the means for receiving the first fiber support means is a tubular conduit (7) located inside the guide means (1).  7 - Device according to any one of the preceding claims, characterized in that the means for receiving the first support means comprises means (9) for coordinating the relative movements of the first means (19) of fiber support and the means of guide (1).  8 - Device according to claim 7, characterized in that the coordination means comprises at least one rib extending radially from the wall of the tubular conduit (7) for receiving the first support means.  9 - Device according to any one of the preceding claims, characterized in that it further comprises a covering means (12) of the means (1) for guiding the fibers which can be fixed thereto by means a removable fixing means.  10 - Device according to one of the preceding claims, characterized in that the means (1) for guiding the fibers comprises means (10) for receiving a means (11) for elastic retention of the optical fibers.