An optical fiber winding mechanism feeds an optical fiber from raw material bobbins and winds the optical fiber around a winding bobbin, and includes a first raw material bobbin-side unit to mount the first raw material bobbin thereon, a second raw material bobbin-side unit to mount the second raw material bobbin thereon, a winding bobbin-side unit to mount the winding bobbin thereon, and a controller to control each of the units. The first raw material bobbin-side unit includes a body device, a head capable of rotating with respect to the body device, a rotation assist device capable of engaging with the head, a rotation mechanism capable of rotating the body device around a Z direction, and a slide mechanism capable of moving the rotation mechanism.

A reel frame stand for supporting a reel thereon comprises a first pair of hingedly connected legs oppositely disposed from a second pair of hingedly connected legs; a first axle bearing on the first pair of legs and a second axle bearing on the second pair of legs, and each of the first and second axle bearings comprising a base and a bushing having a cylindrical inner surface surrounding an open channel; an axle having opposing cylindrical portions being rotatably secured within the open channels of the opposing first and second axle bearings to permit selective rotation of the reel supported thereon; a first brace having one end being rotatably secured to one of the legs of the first pair of legs and a second end being selectively securable at one of a plurality of ports on the first pair of legs by a fastener that is sized and configured for engaged receipt within each of the plurality of ports; a second brace having one end being rotatably secured to one of the legs of the second pair of legs and a second end being selectively securable at one of a plurality of ports on the second pair of legs by a fastener that is sized and configured for engaged receipt within each of the plurality of ports; and wherein each of the first and second pairs of hingedly connected legs may be selectively positioned relative to each other in one of a plurality of configurations including a flat configuration, a closed configuration and an open configuration.

A straightening device (15) for aligning a line (11) along a delivery route. The device including a straightening stand (20) having a first row of rollers (21) and a second row of rollers (31) which rows can be moved relative to one another and between which the delivery route of the line runs. At least one of the two rows of rollers (21, 31) has a plurality of rotatable rollers (25, 35). A braking device (40) is provided for braking at least one of the rotatable rollers (25, 35) of at least one of the two rows of rollers (21, 31) in the straightening stand. A method for braking at least one rotatable roller (25, 35) of at least one of the two rows of rollers (21, 31) in a straightening device, a cable processing machine with a straightening device, and an upgrade kit for a cable processing machine.

A vehicle-mounted reel utility. A brake wheel is macro-positioned to a non-contact position adjacent to the reel by sliding along a reel-supporting lifting arm. An actuator pivots the brake bracket bringing the wheel into a contact position with the reel. A cable dispenser for figure 8'ing the cable is mounted to the free end of a positioning arm that rotates from a position parallel to a lifting arm to a position perpendicular to the lifting arm. The dispenser is pivotally mounted to the positioning arm, allowing the user to swivel the dispenser about a horizontal arc while maintaining the dispenser in a central lateral position relative to a reel or a vehicle during the swivel movement. A hydraulic circuit controls the dispenser and the actuator that controls the brake wheel from a contact to non-contact position, to coordinate the stopping of cable dispensing.

Provided is an optical-fiber-cable winding bobbin 100 including: a body member 110 on which an optical fiber cable is wound; and a pair of flange members 120 that are provided at both ends of the body member 110, wherein the flange members 120 are made of ABS resin, and the body member 110 is made of a material having a smaller linear expansion coefficient than the flange members 120.

A system that may be used for deploying optical cables, the system may include a track having an outer edge and a surface, the track having a track gear disposed proximate the outer edge and a plurality of track grooves disposed on the surface of the track. The system may also include a spool having a first outer edge and a second outer edge. The spool may include a first wheel disposed on the first outer edge, a second wheel disposed on the second outer edge, a spool gear disposed on the first wheel and interfacing with the track gear, plurality of spool grooves, and a plurality of guides interfacing with the track to align the track grooves with the spool grooves.

A cable spool for networking and cross connect equipment is shown which comprises a telescoping arrangement and is moveable between a retracted and an extended position. In a particular embodiment a static cable spool is provided together with the moveable cable spool and arranged along the same axis. The cable spool is also moveable horizontally.

A fiber optic cable spool is disclosed herein. The fiber optic cable spool may include a first radial flange located at a first axial end of the fiber optic cable spool, a second radial flange located at a second axial end of the fiber optic cable spool, and a drum that extends axially between the first and second radial flanges. The fiber optic cable spool may also include a storage compartment located within the drum. The first radial flange may define a first opening for accessing the storage compartment within the drum. The drum may have a circumferential drum surface that defines a second opening for accessing the storage compartment within the drum.

A method may include (1) coating a segment of fiber optic cable with an adhesive substance, (2) forming a coil of the segment of fiber optic cable, (3) deforming the coil into a noncircular shape defining a slot external to the coil while obeying a minimum bend radius requirement for the segment of fiber optic cable, and (4) activating the adhesive substance to stabilize the noncircular shape of the coil. Various other methods and apparatuses, such as those for performing the deforming operation, are also disclosed.

A carousel for pipe products including cables and umbilicals includes a drum coupled to a carousel adapter, the carousel adapter coupled to a drive unit. The carousel adapter includes an upper base plate opposite a lower base plate, a fixed base leg coupled between the upper base plate and the lower base plate and extending radially outwardly therefrom. The carousel adapter also includes a plurality of foldable base legs coupled between the upper base plate and the lower base plate and extending radially outwardly from the upper and lower base plates. Each of the foldable base legs is disposed about a periphery of the upper and lower base plates and is rotatable about an independent axis perpendicular to the upper base plate and the lower base plate.