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.

A packaging assembly for telecommunications modules comprises a plurality of telecommunications modules provided in a stacked arrangement in a first container, a plurality of telecommunications modules provided in a stacked arrangement in an adjacent second container, and a removable radius limiter mounted between the first and second containers for guiding all of the fiber optic cabling extending from the telecommunications modules with minimum bend radius protection.

Provided is a multifunctional reel carrier, spoil material handling container device having a first trailer or first truck bed, a first container constructed to contain spoil on the first trailer or first truck bed, at least one spoil transporting device constructed to transfer spoil from a micro trencher and deposit the spoil in the first container and constructed to transfer spoil from the first container to a fill device, and at least one reel holder constructed to hold a reel of cable and/or innerduct/microduct present on the first truck or first trailer, or present on a second trailer or second truck. Also provided is a method of using the multifunctional reel carrier, spoil material handling container device to lay cable and/or innerduct/microduct underground.

A reel for the purpose of winding a length of cable of optical fiber cable type includes a winding support for winding the length of cable, a retaining part suitable for retaining the length of cable wound around the winding support, a first attachment part for the purpose of attaching the reel to an edge of a circuit board such that the reel is positioned laterally with respect to the circuit board, and a second attachment part for the purpose of attaching the reel flat to a face of the circuit board.

Holders for wound cables. The holders include retention features to control the rate at which cable windings are unwound during cable deployment. In some examples, the cable holder includes a pair of spaced apart spools and the cable is wound in windings configured as figure-8's. In some examples, the retention features include flexibly resilient fingers positioned to contact the windings at one or more retention points positioned at a deployment end of the holder.

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.

The invention relates to an apparatus for storing cable, comprising a cable carousel (1) rotatable about a vertical axis (2), and rotating means (30) for rotating (4) the carousel (1) about the vertical axis (2), for allowing winding cable (5) on the carousel (1) and unwinding cable (5) from the carousel (1). The carousel (1) is received in a pool (7), a seal (10) is arranged between an outer side (12) of the carousel (1) and a pool outer wall (9). A closed chamber (13) is defined in the pool (7) below the carousel (1), and pressurized liquid in the closed chamber (13) provides a positive pressure for supporting the carousel (1) and allowing rotation (4) of the carousel (1).

A method for continuously producing an optical fiber cable includes: producing a cable core through cable core producing equipment; conveying the produced cable core to a first cable storing device; conveying the cable core from the first cable storing device to a sheath extrusion device, wherein an exterior of the cable core is covered with a sheath, and the optical fiber cable is obtained by processing; receiving the optical fiber cable from the sheath extrusion device by a cable rolling device, wherein the optical fiber cable is rolled at a tray, and a finished tray rolled with the optical fiber cable is obtained; checking whether the finished tray rolled with the optical fiber cable is qualified, and carrying an unqualified finished tray rolled with the optical fiber cable to a repairing area for repairing until qualified; and fixing sealing plates at a qualified finished tray through a sealing device.

The invention relates to a machine (100) for manufacturing an optical fibre (200), characterised in that the machine comprises: at least one capstan (20, 21) and at least one pulley (22), which define a run of the optical fibre in a main area (2) of the machine, an optical fibre guiding system comprising a transmission member (25) and a clamping element (26) that is rigidly connected to the transmission member (25) and is able to retain an end of the optical fibre (200), the transmission member (25) being arranged parallel to the run of the optical fibre, a device (5) for having the clamping element (26) automatically grip the optical fibre (200), said device comprising: means (53) for placing the optical fibre in a starting position in which the optical fibre runs at a distance from the clamping element in a direction extending substantially perpendicularly to the clamping element (26), a fibre-spacing finger (51), that can move between a neutral position at a distance from the optical fibre located in the starting position and a position in which the finger (51) keeps the optical fibre at a distance from the starting position in such a way as to bring the optical fibre into an intermediate position opposite the clamping element (26), said means being designed to open the clamping element (26) when the finger (51) has brought the optical fibre (200) into the intermediate position and close the clamping element again when the finger (51) has returned to the neutral position thereof.

A portable device for attaching a connector to an optical fiber, the optical fiber having an end, the device comprising means for receiving the optical fiber at the end of the optical fiber; and a connector station for autonomously attaching the connector to the optical fiber.