A cable storage device includes a first elongate bracket member attachable to a support structure and having a length extending between a first end and a second end. A second elongate bracket member is configured to be coupled to the first elongate bracket member proximate one of the first end or the second end such that the second elongate member extends in a different direction from the first elongate member when installed on the support structure. At least one set of a plurality of retaining mechanisms is configured to be coupled to the first and second elongate bracket members to receive and store a first cable. The at least one of the at least one set of the plurality of retaining mechanisms is adjustable along the first elongate bracket member or the second elongate bracket member. Methods of installing and making the cable storage device are also disclosed.

A method of winding an optical fiber includes winding the optical fiber using a bobbin that includes: a body portion having two end portions; and a pair of flanges, respectively disposed at the end portions in an axial direction of the body portion. An inner surface of each of the flanges is inclined toward an outer side in the axial direction and toward a radial outer side. The method further includes guiding the optical fiber to the bobbin using a final pulley. The bobbin and the final pulley reciprocate relative to each other in the axial direction at a traverse speed V (mm/sec) such that 0.0050≤θ (rad)≤0.1000, where θ is a delay angle, θ=arctan (V/L), and L (mm) is a distance from a winding position of the optical fiber at the bobbin to the final pulley in a radial direction.

A telescoping cable spool for attaching to a networking equipment and supporting a plurality of fiber optic cables is shown. The spool comprises a fixed part for attachment to a surface adjacent the networking equipment; a spool housing comprising a pair of cable retaining flanges interconnected by a hollow cable support dimensioned to fit in a telescoping arrangement over the fixed part. The spool housing is moveable relative to the fixed part between a first retracted position and a second extended position.

This disclosure relates to a single-reel winding device comprising a distributor wheel for distributing an optical fiber to a first reel, a winder, for revolving the first reel around a center axis of the first reel and for moving the first reel along the center axis between different positions, an attachment device for attaching the optical fiber to the first reel, a cutter for cutting the optical fiber, a gripper for gripping onto the optical fiber, and keeping the optical fiber stationary during attaching and cutting of the optical fiber, and while the first, full reel is removed from the exchange area and a second, empty reel is provided to the exchange area in order to continue winding of the optical fiber.

An equipment is disclosed for attaching an optical fiber to a reel, the equipment including a tape supply station configured to cut and supply pieces of tape, an attachment device having a frame with a collector for collecting a piece of tape from the tape supply station for attaching the optical fiber to the reel, an actuator for moving the attachment device and for pressing the collector, having the piece of tape, against the optical fiber and the reel in order to attach the optical fiber to the reel, and a cutter for cutting the optical fiber. Such an equipment can be advantageous as manual labour can be excluded from the process of attaching an optical fiber to a reel.

Embodiments of a method of collecting a tail section of a long product, such as an optical fiber cable, are provided. In the method, a lead wire from a tail spool is unwound, and the lead wire is fed through a flange of a main spool. The tail spool and the main spool have a common rotation axis. The lead wire is attached to the long product. The tail spool is rotated while holding the main spool stationary so as to wind the lead wire and the tail section onto the tail spool. The rotation of the tail spool is stopped, and the main spool and the tail spool are rotated together so as to wind the long product onto the main spool. Also provided are embodiments of a winding apparatus using the tail spool and a tail reel that includes the tail spool and a drive mechanism.

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 pressurised liquid in the closed chamber (13) provides a positive pressure for supporting the carousel (1) and allowing rotation (4) of the carousel (1).

An apparatus for tensioning and threading an optical fiber includes a first roller, a second roller, a belt that wraps around the first and second rollers, and a third roller. The belt may be in direct physical contact with the first and second rollers. The third roller may be movable between an engaged and a disengaged configuration relative to the belt. Alternatively, the first roller, second roller, and belt may be movable between the engaged and the disengaged configuration relative to the third roller. Actuation from the disengaged to the engaged configuration captures an optical fiber between the third roller and the belt.

Systems, devices, and methods for drain cleaning using high voltage, high frequency AC electrical power supplied through a video push-cable are disclosed. In one embodiment, a drain cleaning system may include a cable for carrying electrical control and/or data signals as well as alternating current (AC) power at a high voltage and high frequency relative to AC mains frequencies.

The cable cleaning and rolling system combines an automated cleaning and winding system for industrial cables and the like with a water filtration system for recycling the water used to clean the cable. The cable cleaning and rolling system includes a hollow base, a feed drum and a receiving drum. The feed drum is adapted for releasably retaining and feeding the cable to be cleaned, and the receiving drum is adapted for receiving and rolling the cable after it has been cleaned and dried. At least one nozzle, for spraying cleaning water on the cable, at least one brush, for scrubbing the cable, and a blower, for drying the cable, are positioned between the feed drum and the receiving drum. Waste water from the cleaning is received within the hollow base, extracted therefrom, and delivered to a water filtration unit for recycling.