An apparatus for the movement of a barrel pack containing spooled wire or cable. The apparatus comprising a frame, a handle attached to the frame, a plurality of wheels rotatably attached to the frame, securing structures attached to the frame, the securing structures securing the barrel pack to the frame and a footage counting assembly attached to the handle. The footage counting assembly counts the amount of footage of wire or cable passing through the footage counting assembly.

A system for processing an end of a cable. The system includes: a cable delivery system; a cable processing module; a pallet supported by the cable delivery system; a drive wheel rotatably coupled to the pallet; a motor operatively coupled for driving rotation of the drive wheel; and an idler wheel rotatably coupled to the pallet and forming a nip with the drive wheel. The cable processing module includes cable processing equipment configured to perform an operation on an end of a cable and a computer system. The computer system is configured to: (a) cause the drive wheel to rotate in a cable pushing direction to cause a specified length of cable to be inserted into the cable processing equipment; (b) activate the cable processing equipment to perform an operation on the inserted end of the cable; and (c) cause the drive wheel to rotate in a cable pulling direction to cause the specified length of cable to be removed from the cable processing equipment.

This invention relates to a creel structure integrated on the fiber placement head of the automated placement equipment, comprising: fiber placement head mounting base, fixed yarn box component fixed and mounted on fiber placement head mounting base, and revolving yarn box component mounted on fiber placement head mounting base, the said revolving yarn box component is coupled with the fiber placement head mounting base through revolving shaft. This creel structure can avoid intervention that arise due to equipment maintenance and spindle replacement, making equipment maintenance and spindle replacement more convenient and swift.

A creel, such as may be used to supply fiberglass roving to a production process, includes an enclosure and a number of rotatable axles held within the enclosure. Each of the axles is of a shape and size to be inserted into a bobbin of roving. The creel also includes a drive mechanism coupled to each of the plurality of rotatable axles, the drive mechanism synchronizing the rotation of the axles. Bobbins of roving may be stacked on the axles and connected to provide continuous roving. As roving is drawn from the creel, the rate of rotation of the axles may be selected to counteract twisting of the roving that would otherwise result.

A cable reel that has at least one support frame having an outwardly extending braking gear member and a first flange having a central opening with an internal braking gear member engaging the outwardly extending gear member of the frame, thereby rotatably coupling the at least one support frame and the first flange. A hub is provided between the first flange and a second flange that opposes the first flange. The hub is configured to support cable, wherein the engagement of the gear members provides friction for cable payoff from the hub.

A method of installing cable on a cable reel that has the steps of providing a cable reel that includes first and second opposing flanges where the first flange has a first hub portion and the second flange having a second hub portion and the first hub portion has one or more flexible segments; placing a cable coil over the first hub portion and on the first flange so that the first hub portion substantially extends through an inner diameter of the cable coil; and expanding the one or more flexible segments by inserting the second hub portion inside of the first hub portion so that the one or more flexible segments engage the cable coil.

A creel, such as may be used to supply fiberglass roving to a production process, includes an enclosure and a number of rotatable axles held within the enclosure. Each of the axles is of a shape and size to be inserted into a bobbin of roving. The creel also includes a drive mechanism coupled to each of the plurality of rotatable axles, the drive mechanism synchronizing the rotation of the axles. Bobbins of roving may be stacked on the axles and connected to provide continuous roving. As roving is drawn from the creel, the rate of rotation of the axles may be selected to counteract twisting of the roving that would otherwise result.

An apparatus for the movement of a barrel pack containing spooled wire or cable. The apparatus comprising a frame, a handle attached to the frame, a plurality of wheels rotatably attached to the frame, securing structures attached to the frame, the securing structures securing the barrel pack to the frame and a footage counting assembly attached to the handle. The footage counting assembly counts the amount of footage of wire or cable passing through the footage counting assembly.

A reel enclosure includes a base and a door pivotally coupled with the base. The door is movable between a first closed position and a second open position and is configured to hold a reel at an interior surface of the door. The reel is configured to have cable wound thereon. In the first closed position, the base is configured to prevent the reel from rotating relative to the door and the base, and, in the second open position, the door is configured to hold the reel outside of an interior of the base and permit the reel to rotate relative to the door and the base.

A filament spool dry box includes a shell, a dehumidifier and a sleeve component. The shell includes a hanging structure configured to allow a bracket to be disposed in for hanging the shell. The dehumidifier is disposed inside the shell. The sleeve component is rotatably disposed inside the shell and configured to allow a filament to be disposed on. A central axis of the hanging structure is offset from and above a central axis of the sleeve component. The filament spool dry box can isolate the filament from an external environment outside the shell and remove moisture from an internal environment inside the shell by the dehumidifier. Therefore, the filament spool dry box can prevent the filament inside the shell from absorbing moisture. Furthermore, the filament spool dry box can replace disposable spools in the prior art and be energy saving and environmental protecting.