RU99116602A - DEVICE FOR CONNECTING FIBER OPTICAL CABLES - Google Patents

Claims (10)

1. A sealed device for connecting fiber optic cables (101-104), made in the form of a sealed junction box (8) or junction box "with an optical wiring device", which contains a flat bottom part (81) and a cover (82), and also means for implementing four functions: securing fiber-optic cables (101-104) and sealing the input of these cables; the orientation of the optical fibers (125) in the direction of the actual optical wiring device (115); preservation in special rotary cartridges (117-120), which are part of the optical wiring device, splices and excess length of optical fibers (125); storing, if necessary, standby optical fibers, in particular optical fibers of loop-through or transit fiber-optic cables, characterized in that it contains a sealed device (111-114) for each fiber-optic cable (101-104) cable entry and fixing its reinforcing fiber strands (5, 6, 7), which is pre-mounted on the cable before insertion into the junction box (8), and the outer sheath (2) of the optical fiber cable is fixed directly in the sealed entry device and behind the sealing means (19, 20) of the device, wherein all sealed cable entry devices (111-114) are then inserted into the junction box on one side (107) and fixed in this position by means of a key connection (32); wherein the optical wiring device (115) is separated from the hermetic cable entry devices by the free space (116) of the transition of the stripped optical fibers (125) and contains a base (122), which is attached to the bottom part (81) of the junction box, and on which one or several modules (135, 136) of cartridge holders for preserving the splice and excess length of optical fibers (117-120), and each module (135, 136) is designed to accommodate from one to several cartridges of the mentioned type (117-120) so so that each the set was able to rotate at an angle of at least 90 ^o around its base (146), and these modules are mounted on top of each other along a direction that is inclined relative to the plane of the bottom part (128) of the junction box (8) to provide rotation each cassette, and the device contains special snap means (144, 143, 152) for fixing each cassette (117) in one of the two extreme positions when turning, behind the base of the optical wiring device there is a second free space (126) for of other optical fibers in “standby mode”, and the edges (204, 205) of the bottom part (81) of the junction box have a height small enough to provide free side access to all the cassettes (117-120) of the device. 2. A sealed device according to claim 1, characterized in that it contains a hermetic cable entry device (111-114) designed for fiber optic cables (101-104), which are arranged in a row on the same side (107) of the connecting boxes and placed in a plane (128) parallel to the bottom plane of the junction box, each of these sealed cable entry devices in the front part contains a rigid base (16) for fixing, containing holes (49) or slots (38, 39) for insertion central (7) and / or lateral (6, 5) along reinforcing fiber strands of a fiber optic cable, each of which interacts with a crimping body (50, 40, 41), which implements a compressive effect on one or more reinforcing fiber strands located in them by tightening the tightening screw (51, 44, 45) in the back parts - a special nut (24) for compression of the gland (20), which is additionally adapted (26, 27) for fixing the compression body with the clamp (30, 31) of the strong outer sheath (2) of the fiber-optic cable (101), in the interval between front and back - tr a barbed housing for sealing (17), the front part of which (68) telescopically slides on the tail of the base (16) for fixing, and the tubular body (17) is fixed on the base (16) in the connected position by means (18), the rear part ( 20) the tubular casing (17) together with the sealing sleeve (23) forms a sealing compression gland (21, 22), supplemented with a compression nut (24), ensuring tightness during compression along the strong outer sheath (2) of the cable, and it is additionally installed on the tubular casing agent (19) providing tightness with respect to the inlet (11) in the junction box (8), and the sealing housing further comprises a stop (63) to limit the degree of introduction of the hermetic cable entry device when interacting with the inlet element (62) of the inlet (11) (16, 17 , 24) into the junction box through the inlet (11), and the stop position (62, 63) is selected so that the head of the sealed cable entry device (35, 60) protrudes into the inner cavity of the junction box (8, 9), and provided tool (32) full-time fixing to lock the device in this position, the aforementioned base (122) is made of plastic material and contains an outer wall (123, 124) perpendicular to the bottom (128) of the junction box and having a rounded shape for the smooth direction of optical cables freed from the protective shells fibers (125) of the fiber optic cable, which extend on one and the other sides of the base, and on the base there are support blocks (135, 136), each of which is pivotally connected to one or more storage cassettes m there is splicing and excess length of optical fibers (117-120), and the support blocks are mounted on top of each other with a stepwise displacement of one cartridge in relation to the other in the bag (117-120) at an angle of about 45 ^o , which corresponds to the length of the step of the displacement ladder equal to the thickness of one cartridge, and ensuring that each cartridge from the bag (117-120) rotates through an angle of 90 ^o , and each support block (135, 136) contains special locking means (143, 152) to lock each cartridge in two fixed positions, the first of which is the position in which rum cassette is parallel to the plane (128) of the bottom of the junction box, and the second is the position in which the cassette is rotated around the axis (146) of the swivel with the support block 90 ^o or a quarter of a full turn to be perpendicular to the plane of the bottom of the junction box, the base (122) and the bottom part (81) of the junction box are configured to limit between this base and the side of the junction box (127) that is opposite to the location of the sealed cable entries (111-114) transition space (116), the second free space (126) in which the optical fibers are in standby mode, and at least part of the second free space is located under the first cassette (117) below the entire package of cassettes in the case when the first the cassette (117) is located in the first horizontal position, cantilever hanging over the free space (126), and on the said base (122) means are provided for holding the first cassette (130) in the cantilever position. 3. An optical wiring device for equipping a junction box according to one of claims 1 and 2, characterized in that it contains a base (122) on which one or more modules (135, 136) of cassette holder holders for preserving splices and excess optical fibers are installed (117-120), and each module (135, 136) receives from one to several cartridges (117-120) with the possibility of rotation by an angle of at least 90 ^o around its base (146), and the modules are installed at each other in direction (156) with a tilt sufficient to rotate each th cassette at a certain angle, and means (144, 143, 152) of the snap is provided for fixing each cassette (117) in one of two extreme positions. 4. The optical wiring device according to claim 3, characterized in that it contains a base (122) made of plastic material, the outer wall of which (123, 124), perpendicular to the bottom (128) of the junction box, has a rounded shape for direction without damage optical fibers freed from protective shells (125), which extend on one and on the other side of the base on which support blocks (135, 136) are placed by inserting into each other, each of which is pivotally connected to one or several cassettes the excess length of the optical fibers (117-120), the support blocks (135, 136) are mounted on top of each other by inserting one into the other with a stepwise displacement of one cassette relative to the other in the cassette package (117-120), and the displacement is carried out at an angle of about 45 ^o , which corresponds to the length of the steps of the displacement ladder, equal to the thickness of one cartridge for turning each cartridge from this package of cartridges (117-120) through an angle of 90 ^o , each of the support blocks (135, 136) contains snap means for fixing (143, 152) of each cartridge in two f the extreme positions, the first of which is a locking position, wherein the cassette is arranged parallel to the bottom plane (128) of the coupling box, while the second is a locking position, wherein the rotated cassette about the axis of articulation (146) with a corresponding reference block by an angle of 90 ^o or a quarter of a full revolution around this axis so that it is perpendicular to the plane of the bottom of the junction box.  5. The device according to any one of claims 1 and 2, characterized in that the second free space is designed to accommodate at least one cassette (129) of the spiral laying of optical fibers in standby mode.  6. The device according to any one of claims 1 to 4, characterized in that each storage cartridge (117-120) of the splice points and the excess length of the optical fibers has a rotation axis (146) and a parallel axis (144), which serves as a means of holding the cartridge in one of the extreme positions in the range of rotation of the cassette by clicking the axis in the means of conjugate geometric shapes (143, 148-151) of the optical wiring device (115).  7. The device according to claim 6, characterized in that for holding in each other extreme rotation position of each cartridge (117-120) in the optical wiring device (115) there are provided teeth (152-155) for locking the locking axis (144).  8. The device according to any one of paragraphs. 1-7, characterized in that on each cassette for preserving the splice points and excess length of the optical fibers (117-120) there are small corridors (160, 161) of the entrance and exit of the optical fibers freed from the protective shells, which overlap on these optical fibers with a corresponding cover (162, 163), which, when molded on one side, is attached to the cassette (117) using a flexible hinge (164).  9. A device according to any one of claims 1 and 2, characterized in that the lid (82) of the junction box (8) is connected to the bottom part (81) of the junction box using “frog” closing means (108).  10. A device according to any one of claims 1 to 9, characterized in that the modules (135, 136, ...) mounted on each other and the base (122) are made in such a way that the modules are inserted into each other and into the base (122 ) by forced pushing and jamming in this position.