FR2957154A1 - Cable i.e. optical fiber cable, connecting device for e.g. subscriber card, has socle comprising cable guiding path arranged with cable, where radius of curvature of path is greater than minimum radius of curvature allowed by optical fiber - Google Patents

Abstract

The device (1) has a socle (2) comprising N orifices (10a-d) formed in a lateral wall different from a same side of a wall of a base (5), where N is greater than or equal to 2. Each orifice forms a lateral inlet for a cable (40) in the device, and the socle comprises a cable guiding path (55) and each of the lateral inlets. The guiding path arranged with the cable has radius of curvature greater than minimum radius of curvature allowed by an optical fiber (41), where the path is housed in a thickness direction of the socle.

Description

The present invention relates to a connection device between a first and a second cable each comprising at least one optical fiber placed in a protective sheath. Such a connection device may be used to connect a fiber optic network cable and a subscriber's cord. The network cable, which contains the optical fiber placed in a protective sheath, is brought to the connection device which can for example be fixed on a wall inside a building or in a telecommunications box. Inside the device, the cable is stripped and the optical fiber is accommodated in winding and storage paths which ensure that the curvature of the fiber is greater than the minimum allowable bending radius. A connector placed at least partially in the housing receives on the one hand a tip equipping the end of the optical fiber of the network and on the other hand a tip equipping the end of the optical fiber of the subscriber, so to allow the connection of said fibers. In known manner, such a connection device comprises a base and a cap removably assembled to the base, so as to form a housing. The base comprises a base wall - forming the bottom of the housing - and a peripheral wall formed of a plurality of side walls. In order to allow the installation of the connection device according to the different configurations of the ground, the base generally comprises: an inlet formed in the base wall, for the entry of the cable from the rear of the housing, in particular when the connection device is installed on a flush-mounting box; And one or more lateral inlets in the peripheral wall for the cable entry through a side wall, in particular when the connecting device is installed on a DIN rail or a partition. In practice, when the connection device is delivered wired, the supplier of this device is obliged to choose a cable entry 30 by default, not knowing a priori what will be the configuration of the installation. If this default entry proves to be unsuitable for the installation configuration, the installer must himself manipulate the device to place the cable entry at the desired location. Concretely, for this, the installer must first open the housing, undo the cable fixing means at the default input, then perform the total or partial decabling of the bare fiber before you can place the cable in its new position, at the appropriate entrance. This operation is long and delicate, because it is most often performed in the middle of a construction site by an untrained operator in the manipulation of optical fibers. However, the proper functioning of the optical connection requires the respect of certain constraints, in particular: the minimization of the contacts with dust and the respect of the low threshold of radius of curvature. Thus, the devices of the prior art do not allow the adaptation of a prewired housing to all the configurations desired by the user or imposed by the premises, with respect to a satisfactory quality. It follows risks of fiber breakage or, in operation, excessive attenuation of the transmitted signal. Such a connection device may furthermore be used to connect a first and a second fiber optic cable so as to lengthen the fiber. With the known connection devices, it is not possible to choose the relative position of the input in the housing of the first cable with respect to the entrance of the second cable, unless it is manipulated on the fiber. -even. We therefore find the same risks as those previously indicated. The present invention aims to overcome the disadvantages mentioned above. To this end, the invention relates to a connection device between a first and a second cable each comprising at least one optical fiber placed in a protective sheath, the device comprising a base comprising: a base wall and a peripheral wall; formed of several side walls; A first zone for fixing the first cable in the vicinity of a stripped end of said first cable, said first fixing zone being formed in the base wall; N orifices each formed in a distinct side wall, on the same side of the base wall, with N 2, each orifice forming a lateral inlet for the first cable in the device.

According to a general definition of the invention, the pedestal further comprises a path for guiding said first cable between said first fixing zone and each of the N lateral entrances, each path being arranged so that the first cable disposed in said path has a radius curvature greater than the minimum radius of curvature admissible by the fiber and is housed in the thickness of the base. Thus, from an attachment zone of the first cable imposed in the default base wall, the invention allows the operator who sets up the connection device, on site, to choose the input configuration of the first cable without having to manipulate the fiber. Indeed, it is sufficient for him to place the first cable in the appropriate guide path leading from the first attachment zone to the chosen lateral entrance. The manipulation is therefore at the cable and not the optical fiber. Of course, it is also possible to keep the default configuration.

The invention also makes it possible to adapt the relative position of the input of the first cable and the output of the second cable, always from an imposed standard configuration. In practice, the first attachment zone may be in the form of orifices provided in the base wall for the passage and fixing of a clamping collar of the first cable. For aesthetic and protective reasons, the side entrances are usually initially closed by a breakable flap. When the operator chooses a lateral input for the first cable, he breaks the corresponding flap to free access to this side entrance, the other flaps 25 remaining intact and thus still fulfilling their functions. The operator then equips the first cable, at the side entrance chosen, sealing means to water and dust, which ensure the quality of data transmission. Thanks to the invention, it is not necessary to equip each of the potential inputs of these sealing means 30, which is advantageous in terms of cost. Concretely, the peripheral wall may comprise an inner portion extending from one side of the base wall and an outer portion extending from the other side of the base wall, the base thus defining a compartment and an outer compartment which are turned inwardly and outwardly respectively of the connecting device and which are separated by the base wall, the N side inlets and the guide path being located in the same compartment. Thus, the first cable remains substantially on the same side of the base wall of the base. The fiber of this first cable can be located in the same compartment or in the other, depending on the applications.

According to one possible embodiment, the base wall of the base comprises a substantially central opening through which the first cable can pass from the outside of the connection device to the first attachment zone, without passing through one of the lateral inputs. In other words, the invention makes it possible to provide for the entry of the first cable directly from the rear of the connection device, which is better adapted to certain configurations of the premises. Advantageously, the connection device comprises an additional fixing zone of the first cable in the vicinity of each of the N lateral inputs. There is thus a first fixing zone of the first cable by default, and an additional fixing zone at the level of the chosen lateral entry, which allows a very good maintenance of the cable in the device in the chosen configuration. The guideways may comprise at least partially curved partitions projecting from the base wall of the base. In addition, the connection device may comprise a cover that can be removably assembled to the base to form a housing therewith, and a plate mounted on the base and housed in the housing in the assembled position of the base and the cover. According to a first embodiment, the first cable is the cable of a fiber optic network and the second cable is the cord of a subscriber. In this case, the first cable is housed essentially in the outer compartment and the optical fiber located in the stripped portion of said first cable is housed in the inner compartment, the base wall of the base having an opening in the vicinity of the first attachment area for the passage of the cable from the outer compartment to the inner compartment. Advantageously, the first attachment zone may be arranged substantially centrally in the base wall. Thus, the opening for the passage of the cable is also substantially centered. For example, the connecting device is substantially rectangular and includes four side entrances.

According to one possible embodiment, each guide path successively comprises, from the first attachment zone to a lateral entrance: a curved portion, arranged such that the meeting of all the curved portions of the guide tracks forms a corridor substantially circular; - And a portion which is substantially straight and tangential to the circular corridor, and which is substantially orthogonal to the side wall in which is formed said side entrance. According to a second embodiment, the invention makes it possible to connect a first and a second cable, for example of the same type, to form an extension cord. The base comprises: a second zone for fixing the second cable in the vicinity of a stripped end of said second cable, said second fixing zone being formed in the base wall; - N 'orifices each formed in a separate side wall on the same side of the base wall, with N' 2, each orifice forming a side entrance for the second cable in the device; a path for guiding said second cable between said second fixing zone and each of the N lateral entrances, each path being arranged so that the second cable disposed in said path has a radius of curvature greater than the minimum radius of curvature admissible by the fiber and for said second cable is housed in the thickness of the base, the first and second cables being housed in the inner compartment. A splice area of the optical fibers of the first and second cables is further provided in the connection device, either on the base or on a plate belonging to said device. The base may also include an entry through the base wall with a suitable guide path for the first and / or second cable. According to one possible embodiment, one can have N = N '= 2, the peripheral wall then comprising: a first lateral wall having a first input for the first cable and a first input for the second cable; a second side wall adjacent to the first side wall, in the vicinity of the first input for the first cable, and having a second input for the first cable; a third lateral wall adjacent to the first side wall, in the vicinity of the first input for the second cable, and having a second input for the second cable. Several possible embodiments of the invention are now described, by way of non-limiting examples, with reference to the appended figures: FIG. 1 is a perspective view, from above, of a connection device according to a first embodiment of the invention; Figure 2 is a perspective view from below of the device of Figure 1; Figure 3 is an exploded perspective view of the device of Figure 1, showing the base, the cover and the plate; Figures 4 and 5 are plan views of the base, respectively of the inner face and the outer face thereof; Figures 6 to 9 are plan views of the outer face of the pedestal, showing the first cable arranged in four different configurations; Figure 10 is a perspective view, from above, of a connection device according to a second embodiment of the invention; Fig. 11 is an exploded perspective view of the device of Fig. 10 showing the pedestal, cover and platen; Figure 12 is a plan view of the inner face of the base. FIGS. 1 to 3 show a connection device 1 according to a first embodiment of the invention, which makes it possible to connect an optical fiber cable of a telecommunications network to the cord of a subscriber. The device 1 essentially comprises a base 2, a cover 3 and a plate 4. These are for example made by molding a plastic material. As illustrated in FIGS. 1 and 2, the base 2 and the cover 3 can be assembled to one another reversibly, including the plate 4, so as to form a housing. The base 2 comprises a base wall 5 substantially flat, rectangular or preferably square, and a peripheral wall having four side walls 6a, 6b, 6c and 6d. The peripheral wall extends on either side of the plane defined by the base wall 5: the peripheral wall thus comprises an inner portion which extends on one side of the base wall 5 and an outer portion which extends on the other side of the base wall 5. Thus, the base 2 defines an inner compartment 7 and an outer compartment 8 which are separated by the base wall 5. The terms "inside" and "outside" are defined Relative to the housing when the base 2 and the cover 3 are assembled.

In the outer portion of each side wall 6a-6d is provided an orifice 10a, 10b, 10c, 10d, which thus allows access to the outer compartment 8. In the embodiment shown, each orifice 10a-10d is located in the vicinity of an angle of the base 2 and the orifices are regularly disposed at the periphery of the base 2. These orifices are initially closed by a breakable flap 9. In the orifice 10a which will form the lateral inlet chosen for a cable, as will be seen below, will be placed a seal 11 provided with a central passage 12 closed by flexible webs. In the central portion of the outer portion of each side wall 6a-6d is formed a notch 17 for fixing the base 2 on a DIN rail. The base 2 also comprises, on the inner side, lateral tongues 13 each provided with a latching hook 14. In addition, at each corner of the base 2, a lug 15 L projects inwardly. Each lug 15 thus has two branches perpendicular to each other and each parallel to a side wall of the base 2, each branch having an opening 16. The base wall 5 of the base 2 comprises an opening 18, preferably substantially central, allowing the passage of a first cable 40. As seen in particular in Figures 2 and 6 to 9, the first cable 40, which is here a cable of a telecommunications network, comprises at least one sheath 42 in which is housed at least one fiber optic 41. The first cable 40 arrives in the connection device 1 by the outer compartment 8 of the base (that is to say "from below" or "from the rear"), passes through the opening 18 and is thus found in the inner compartment 7.

In the vicinity of the opening 18, the upstream side and in the outer compartment 8, the base wall 5 comprises a guide member 45, which is integral with the base wall 5 and has a flared shape to limit the movements of the first cable 40, in particular to ensure that the fiber 41 is not too curved. In the vicinity of the opening 18, on the downstream side, is provided a first attachment zone 46 for the first cable 40. This first attachment zone 46 may typically be in the form of orifices provided in the base wall 5 of FIG. on either side of the path of the first cable 40, in which a collar 47 for clamping the cable 40 is passed through. The first cable 40 is thus fixed to the base wall 5 of the base 2, in the inner compartment 7, on the near its bare end, that is to say just before the fiber 41 is bare. It should be noted that the terms "entry" or "upstream", on the one hand, and the terms "exit" or "downstream", on the other hand, are used for the purpose of simplification according to a fictitious sense of the party still sheathed from the first cable to the bare fiber, that is to say from the network cable to the subscriber's cord. Moreover, the positioning terms, such as "front", "back", "above" and "below", are used to simplify the description but do not define a precise and fixed orientation of the connection device, which can be placed in different positions in space. As seen more particularly in FIG. 4, on its inner (or "upper") face, the base wall 5 of the base 2 comprises projecting partitions 19 defining between them a first winding and storage path 51. the fiber 41, open at its upper part. The path 51 allows the guiding of the bare fiber 41, with a suitable radius of curvature, from the first attachment zone 46 of the first cable 40 in the vicinity of its stripped end, to an output zone 52 towards the plate 4, as we will see later. Tabs 53 parallel to the base wall 5 and extending from the upper edge of the partitions 19 and / or the upper edge of the peripheral wall of the base 2, above the path 51, make it possible to prevent the fiber 41 does not come out of way 51 undesirably. The base wall 5 also comprises, projecting from its inner face, splicing zones 54 for connecting the fiber 41 to another fiber. According to the invention, as illustrated in Figures 5 to 9, the base 2 comprises partitions projecting from the outer face (or "bottom") of the base wall 5 and defining a guide path 55 of the first cable 40 between the opening 18 and each of the four orifices 10a-10d, that is to say each of the four possible lateral entrances for the first cable 40. More specifically, the base 2 comprises: a partition 56 substantially circular and centered, comprising an interruption located opposite the opening of the guide member 45 which is extended by edges 57 facing each other extending towards the opening 18, and which forms a passage zone 58 for the first cable 40; four partitions 59 in an arc of substantially identical radii and greater than that of the circular partition 56, along this circular partition 56 at a distance, and each located in the vicinity of an orifice 10a-10d; - In the vicinity of each orifice 10a-10d, an assembly of two walls 60, 61 substantially straight, parallel to each other and orthogonal to the side wall 6a-6d wherein said orifice is formed. In one possible embodiment, one of these 60 partitions is located at one end of a partition 59 in a circular arc and the other 61 of these partitions is adjacent to a side wall 6a-6d. From the opening 18, the first cable 40 can be led, by the passage zone 58, to a curved portion of the guide path 55 formed between the circular partition 56 and the partition or walls 59 in an arc. The first cable 40 can then follow a straight portion of the guide path 55, substantially tangentially to the curved portion, to pass between the partitions 60, 61 which are parallel to said right portion of the path, to finally cross the orifice 10a -10d corresponding, whose component 9 has previously been broken. In the vicinity of each orifice 10a-10d, there is provided an additional attachment zone 62 of the first cable 40 to maintain it in the chosen configuration. This additional attachment zone 62 may typically be in the form of orifices in the base wall 5 on either side of the path of the first cable 40, in which a cable clamp 40 is passed through. first cable 40 is thus fixed to the base wall 5 of the base 2, in the outer compartment 8, in the vicinity of the chosen side entrance. The guide path 55 is arranged so that the first cable 40 disposed in said path has a radius of curvature greater than the minimum radius of curvature admissible by the fiber 41 and is housed in the thickness of the base 2, in the outer compartment 8. The height of the partitions 56, 57, 59, 60, 61 is less than or equal to that of the outer portion of the peripheral wall and sufficient to retain the cable 40 between them.

The cover 3 is now described. It comprises a rectangular upper wall 20 and a peripheral wall comprising four lateral walls 21a, 21b, 21c, 21d. The upper wall 20 has an advancing portion 25, which extends beyond the corresponding side wall of the base 2, namely the wall 6a in the embodiment shown in the figures. The side wall 21a has a wide notch 22 over substantially its entire height, and the walls 21b and 21d have tabs 23 extending towards the base 2 and coming in line with the corresponding side walls of the base 2 in the mounted position (at namely the walls 6b and 6d, respectively, in the illustration of Figures 1 and 2). The side walls 21 bd comprise, on the inner side, notches (not shown) intended to each receive a hook 14 of a tongue 13 of the base 2, for the assembly of the cover 3 to the base 2, snap-fastening, detachably . In the assembled position (see Figure 2), the cover 3 has a portion protruding beyond the wall 6a of the base 2, formed in particular by the advance 25 of the upper wall 20 and the side wall 21a. The plate 4 is in the form of a rectangular plate 34 which project, towards the cover 3 in the mounted position, partitions 35 defining between them a second path 58 of winding and storage of the optical fiber 41.

The plate 4 further includes tabs 37 located at two adjacent corners of the plate 34. The tabs 37 have lateral studs 38 facing outwards, each engaging in an opening 16 of a tab 15 of the base 2 Thus, the plate 4 can pivot relative to the base 2, around the common axis of the pins 38, between a folded position where the plate 34 is substantially parallel to the base wall 5 of the base 2, the plate 4 can then be housed in the closed housing, and an unfolded position allowing access to the base 2. The path 58 occupies about half of the surface of the plate 34, on the side of the nipples 38. It comprises a main portion of generally oval shape, adjacent three sides of the plate 34, in which is wound the fiber. Tabs 60 parallel to the plate 34 and extending from the upper edge of the partitions 35 above the path 58 prevent the fiber from leaving the path 58 undesirably. The path 58 also comprises an auxiliary portion, substantially circular and located in the middle of the main portion, around which is wound the fiber towards an exit zone of the path 58.

The second path 58 has an inlet zone 24, situated in the vicinity of the edge of the plate 34 situated between the two tabs 37, and four exit zones 36 formed in the partition 35 located in the middle of the plate 34.

Of course, the path 58 is designed so that the fiber that is wound therein is not curved beyond the minimum radius of curvature, and this over its entire path. The plate 4 also has four housings arranged at the edge of the plate 34 opposite the input zone 24, forming four outlet ports 26 in each of which can be introduced a cord of a subscriber. For this purpose, a coupling (not shown) is fixed on the plate 4 at each outlet port 26. A connector comprises, on the side of the output zones 36 of the path 58, a first receiving cavity of a fitting endpiece. the fiber and, on the side of the outlet ports 26, a second receiving cavity of a tip equipping the fiber of the cord. At each of the outlet orifices 26, the plate 4 comprises lugs 31 protruding from the underside of the plate 34 (that is to say the face facing the base 2) and bent upwards. In addition, a closure member 28 is provided to be mounted on the plate 4, each at an outlet port 26. A closure member 28 comprises a substantially planar front wall 29 and an axis 27 which is located in the lower part and on the side of the plate 4, substantially parallel to the front wall 29. The axis 27 is intended to snap into the lugs 31 of the plate 4. Thus, each closure member 28 can rotate around of the axis 27 in the lugs 31. In the open position, the closure member 28 releases access to the corresponding outlet port 26. In the closed position, the closure member 28 closes the outlet port 26 and is housed in the notch 22 by extending the side wall 21a of the cover 3 (see Figures 1 and 2). Elastic return means 33, here formed of a wound wire, are arranged to urge the closure member 28 towards its closed position. In practice, the plate 4 is mounted on the base 2, the pins 38 of the tabs 17 of the plate 4 being engaged in the orifices 16 formed in the legs 15 of the base 2.

A cable 40 of a telecommunications network is fixed to the base wall 5 of the base 2 in the first attachment zone 46, in the vicinity of its stripped end, in the inner compartment 7. The fiber 41 is wound in the first path 51 formed between the partitions 19 of the base 2, passes through the outlet zone 52 and by input zone 24 to the plate 4, then is wound in the second path 58 formed between the partitions 35 of the plate 4. The fiber leaves the second path 58 by one of the outlets 36 and, by means of a connector, can be connected to the fiber cord of a subscriber inserted in one of the orifices 26 of the plate 4. The connection device 1 is generally delivered already wired in this way, the cable 40 being waiting in the outer compartment 8 of the device. An operator may choose to keep the default input of the first cable 40 in the device 1, that is to say the entry through the opening 18 formed in the base wall 5 of the base 2. This provision is suitable in particular when fixing the device 1 on a flush-mounting box. However, depending on the configurations of the premises and the installation, for example for wall-mounted mounting on an wall, an operator may need to change the input position of the cable 40 in the device 1. For this purpose, as illustrated in FIGS. 6 to 9, the operator winds the cable 40 in the outer compartment 8, in the guide path 55. The cable 40 is thus brought from the opening 18 to the passage zone 58, then wound around the circular partition 56 and finally passed between the straight partitions 60, 61 corresponding to the selected lateral inlet The cable 40 is then fixed in the corresponding additional attachment zone 62, and the seal 11 is put in place around the cable 40 at the inlet port 10a-d chosen. Thus: to reach the input 10d, the cable 40 is substantially half a turn (FIG. 6); - To reach the input 10c, the cable 40 is substantially three quarters of a turn (Figure 7); - To reach the input 10b, the cable 40 is substantially a complete turn 30 (Figure 8); - And to reach the input 10a, the cable 40 is substantially a quarter turn (Figure 9). Thanks to the invention, it is possible to adapt the wired connection device 1 to the configuration of the premises in a simple and risk-free manner for the fiber, the necessary manipulations being carried out only on the cable 40 and not on the fiber 41. No opening of housing or intervention on bare fiber is required. In addition, by choosing one of the side inputs of the base 2, the operator can choose the relative position between the input 10a-10d of the cable 40 and the output 26 receiving the cord of the subscriber. Figures 10 to 12 show a connection device 100 according to a second embodiment of the invention, which allows to connect a first and a second fiber optic cables, for example substantially identical, so as to achieve an extension. The device 100 essentially comprises a base 200, a cap 300 and a plate 400. These are for example made by molding a plastic material. As illustrated in Figure 10, the base 200 and the cover 300 can be assembled to each other, reversibly, including the plate 400, so as to form a housing. The base 200 comprises a substantially flat, rectangular or preferably square base wall 500 and a peripheral wall having four sidewalls 600a, 600b, 600c and 600d. The peripheral wall extends on either side of the plane defined by the base wall 500: the peripheral wall therefore comprises an inner portion which extends on one side of the base wall 500 and an outer portion which extends on the other side of the base wall 500. Thus, the base 200 defines an inner compartment 700 and an outer compartment 800 which are separated by the base wall 500. The terms "inside" and "outside" are defined. Relative to the housing when the base 200 and the cover 300 are assembled. A first sidewall 600a has, in its inner portion, a first input 110a for a first cable 40 and a first input 111a for a second cable 140. A second sidewall 600b, adjacent to the first sidewall 600a in the vicinity of the first input 110a for the first cable 40 has, in its inner portion, a second input 110b for the first cable 40. A third sidewall 600d, adjacent to the first sidewall 600a in the vicinity of the first input 111a for the second cable 140 (that is to say opposite to the second side wall 600b) has, in its inner portion, a second input 111 b for the second cable 140. The inputs 110a-b and 111 ab therefore allow access to the inner compartment 700. These orifices are initially closed by a shutter 900 breakable.

In the central portion of the outer portion of each side wall 600a-600d is made a notch 170 for fixing the base 200 on a DIN rail. The base wall 500 of the base 200 comprises an opening 180, preferably substantially central, allowing the passage of a cable 40, 140. As seen in Figure 12, the cables 40, 140, which are here cables of a telecommunications network, comprise at least one sheath 42 in which is housed at least one optical fiber 41. A first attachment zone 146 for the first cable 40 and a second attachment zone 145 for the second cable 140 are formed in the base wall 500 of the base 200, the side of the inner compartment 700. These attachment zones 146, 145 may typically be in the form of orifices in the base wall 500 on either side of the cable path, in which there is passed a clamp cable, in the vicinity of its stripped end, that is to say just before the fiber 41 is bare. In the embodiment shown, the attachment zones 146, 145 are located on either side of the opening 180. On its inner face (or "upper"), the base wall 500 of the base 200 comprises partitions 190 in projection defining between them a first path 510 of winding and storage of the fiber 41, open at its upper part. The path 510 allows the guiding of the bare fiber 41, with an appropriate radius of curvature, from the first attachment zone 145, 146 to a second guide path (not shown) formed on the lower face of the plate 400 (FIG. that is, the face facing the base 200). This second guide path comprises a splicing zone for connecting the fibers of the first and second cables 40, 140. According to the invention, the base 200 comprises partitions projecting from the inner face of the base wall 500 and defining a guide path 550 of the cables 40, 140 between the attachment zones 146, 145 and each of the corresponding inputs 110a-b, 111b1 and the opening 180. The base 200 thus comprises, symmetrically for each cable: - two partitions 560 substantially parallel curves adjacent to the input 110b, 111b, defining a curved corridor 561; two substantially parallel straight partitions 570 adjacent to the inlet 110a, 111a, defining a straight corridor 562 substantially directed towards the corresponding fixing zone 146, 145; corridors 561 and 562 joining in a common zone 563 and then extending to the attachment zone 146, 145. Thus, since the first attachment zone 146, the first cable 40 can be brought, while remaining substantially rectilinear, towards the first input 110a (Figure 12) or to the second input 110b. From the second attachment zone 145, the second cable 140 may be fed to the first input 111a or, curved, to the second input 111b (FIG. 12). The cables can also be brought to the opening 180. Of course, the shutter 900 corresponding to the selected input has been previously broken. In addition, an additional attachment area 162 of the cable 40, 140 is provided adjacent each input 110a-b, 111a-b.

This additional attachment zone 162 may typically be in the form of orifices in the base wall 500 on either side of the cable path in which a cable clamp is passed. Each cable 40, 140 is thus fixed to the base wall 500 of the base 200, in the inner compartment 700, in the vicinity of the selected lateral entrance.

The guide path 550 is arranged so that the cable 40, 140 disposed in said path has a radius of curvature greater than the minimum radius of curvature admissible by the fiber 41 and is housed in the thickness of the base 200, in the inner compartment. 700. The height of the partitions 560, 570 is less than or equal to that of the inner portion of the peripheral wall and sufficient to retain the cable 40, 140 between them. The cover 300 essentially comprises a wall 320 of the same contour as the base wall 500 of the base 200. The plate 400 is in the form of a square plate 340 which can be assembled to the base 200, with the possibility of pivoting thanks to the pins 380 In practice, the plate 400 is mounted on the base 200. The operator wishing to connect the cables 40 and 140 can choose the position and the relative position of input of these cables in the device 100. this, it must open the device 100, but no manipulation on the bare fiber is necessary. It suffices to route the cable 40, 140, in the guide path 550, to the selected input 110a-b, 111a-b, from the first or second attachment zone 146, 145, and to fix said cable in the additional attachment zone 162 corresponding. Thus, the device according to the second embodiment of the invention also makes it possible to adapt to the configuration of the premises in a simple and risk-free manner for the fiber. It goes without saying that the invention is not limited to the embodiments described above as examples but that it encompasses all variants.

Claims (12)

REVENDICATIONS1. Connecting device between a first and a second cable (40, 140) each comprising at least one optical fiber (41) placed in a protective sheath (42), the device (1, 100) comprising a base (2, 200) comprising: - a base wall (5, 500) and a peripheral wall formed of a plurality of side walls (6a-d, 600a-d); a first attachment zone (46, 146) of the first cable (40) in the vicinity of a stripped end of said first cable, said first fixing zone being formed in the base wall (5, 500); - N orifices (10a-d, 110a-b, 111a-b) each formed in a separate side wall, on the same side of the base wall (5, 500), with N 2, each orifice forming a lateral inlet for the first cable (40) in the device; characterized in that the base (2, 200) further comprises a guide path (55, 550) of said first cable (40) between said first attachment zone (46, 146) and each of the N lateral inputs (10a-d). , 110a-b, 111a-b), each path (55, 550) being arranged so that the first cable (40) disposed in said path has a radius of curvature greater than the minimum radius of curvature admissible by the fiber (41) and is housed in the thickness of the base (2, 200). Connecting device according to claim 1, characterized in that the peripheral wall comprises an inner portion which extends on one side of the base wall (5,500) and an outer portion extending from on the other side of the base wall (5, 500), the base (2, 200) thus defining an inner compartment (7, 700) and an outer compartment (8, 800) which are respectively turned inwards and towards the outside of the connection device (1, 100) and which are separated by the base wall (5, 500), the N lateral inputs (10a-d, 110a-b, 111a-b) and the guide path (55, 550) being located in the same compartment (7, 700, 8, 800). 3. Connecting device according to claim 1 or 2, characterized in that the base wall (5, 500), the base (2, 200) comprises a substantially central opening (18, 180) through which the first cable ( 40) can pass from outside the connection device (1, 100) to the first attachment area (46, 146) without passing through one of the side inputs (10a-d, 110a-b, 111a). -b). 4. Connecting device according to one of claims 1 to 3, characterized in that it comprises an additional fixing area (62, 162) of the first cable (40) in the vicinity of each of the N lateral inputs (10a-d , 110a-b, 111a-b). Connection device according to one of Claims 1 to 4, characterized in that the guideways (55, 550) comprise partitions (56, 57, 59, 60, 61, 560, 570), at least in part. curves protruding from the base wall (5, 500) of the base (2, 200). 6. Connecting device according to one of claims 1 to 5, characterized in that it further comprises a cover (3, 300) can be assembled to the base (2, 200) removably to form with the latter a housing, and a plate (4, 400) mounted on the base (2, 200) and housed in the housing in the assembled position of the base and the cover. 20 7. Connection device according to one of claims 2 to 6, characterized in that the first cable (40) is the cable of a fiber optic network and the second cable is the cord of a subscriber, and in that that the first cable (40) is housed essentially in the outer compartment (8) 25 and the optical fiber (41) located in the stripped portion of said first cable (40) is housed in the inner compartment (7), the base wall (5) the base (2) having an opening (18) in the vicinity of the first attachment zone (46) for the passage of the cable (40) of the outer compartment (8) to the inner compartment (7). 30 Connecting device according to claim 7, characterized in that the first fixing area (46) is substantially centered in the base wall (5). 10 15 9. Connection device according to claim 7 or 8, characterized in that it is substantially rectangular and in that it comprises four lateral inputs (10a-d). 10. Connection device according to one of claims 1 to 9, characterized in that each guide path (55) comprises successively, from the first attachment zone (46) to a side entrance (10a-d): - a curved portion, arranged such that the meeting of all the curved portions of the guide tracks forms a substantially circular passage; and a portion which is substantially straight and tangential to the circular passage, and which is substantially orthogonal to the side wall (6a-d) in which is formed said lateral entrance (10a-d). 15 11. Connection device according to one of claims 2 to 6, characterized in that the base (200) comprises: - a second attachment zone (145) of the second cable (140) in the vicinity of a stripped end of said second cable, said second attachment zone (145) being formed in the base wall (500); - N 'orifices (110a-b, 111a-b) each formed in a separate side wall (600a, 600b, 600d), on the same side of the base wall (500), with N' 2, each orifice (11 Oa -b, 111 ab) forming a side entrance for the second cable (140) in the device (100); A guide path (550) of said second cable (140) between said second attachment zone (145) and each of the N 'lateral inputs (110a-b, 1 1 1 ab), each path being arranged so that the second cable (140) disposed in said path has a radius of curvature greater than the minimum bend radius allowed by the fiber (41) and for said second cable (140) to be housed in the thickness of the base (200), the first and second cables (40, 140) being housed in the inner compartment (700). 12. Connection device according to claim 11, characterized in that N = N '= 2, the peripheral wall comprising: - a first side wall (600a) having a first input (110a) for the first cable (40) and a first input (111a) for the second cable (140); a second sidewall (600b) adjacent to the first sidewall (600a) adjacent the first input (110a) for the first cable (40), and having a second input (110b) for the first cable (40) ; a third side wall (600d) adjacent to the first side wall (600a), in the vicinity of the first input (111a) for the second cable (140), and having a second input (111b) for the second cable (140); ).