Techniques for implementing a pipe deployment system that includes a pipe reel, in which the pipe reel includes reel ends and a reel drum and the pipe reel enables a pipe segment to be wrapped on the reel drum. The pipe deployment system includes a brake assembly with a brake wheel having a shaft socket keyed with flat inner surfaces, and a shaft adapter assembly, which includes an adapter head to be coupled between the pipe reel and the brake assembly. The adapter head includes an adapter shaft keyed with flat outer surfaces, in which the adapter shaft matingly interlocks with the shaft socket and is to be partially inserted through a reel end of the pipe reel, and a rotation control pin coupled to the adapter shaft, in which the rotation control pin is to be inserted between adjacent reel spokes in the reel end of the pipe reel.

An apparatus for lifting, maneuvering, winding or unwinding reels comprising a pair of devices having an elongated retractable frame having a first end and a second end which are adjustable relative to one another; a first crossbar having two opposite ends, the first crossbar being mounted to a first end of the elongated retractable frame; a second crossbar having two opposite ends, the second crossbar being mounted to a second end of the elongated retractable frame; a first roller carrier mounted on the first crossbar; a second roller carrier mounted on the second crossbar, parallel to the first roller carrier, wherein the roller rotates axially about the roller carrier; and a means for adjusting the first and second end of the elongated retractable frame relative to one another so that the first and second ends of the elongated retractable frame are moved closer together and further apart.

An apparatus for lifting, maneuvering, winding or unwinding reels comprising a pair of devices having an elongated retractable frame having a first end and a second end which are adjustable relative to one another; a first crossbar having two opposite ends, the first crossbar being mounted to a first end of the elongated retractable frame; a second crossbar having two opposite ends, the second crossbar being mounted to a second end of the elongated retractable frame; a first roller carrier mounted on the first crossbar; a second roller carrier mounted on the second crossbar, parallel to the first roller carrier, wherein the roller rotates axially about the roller carrier; and a means for adjusting the first and second end of the elongated retractable frame relative to one another so that the first and second ends of the elongated retractable frame are moved closer together and further apart.

A reel weight measurement system is shown and described herein. In some embodiments, the reel weight measurement system comprises strategically placed position and load sensors for measuring an orientation of a reel-carrying unit and measuring loads in the reel-carrying unit. The loads may be indicative of forces due to the weight of the reel when the reel is supported by a carriage of the reel-carrying unit. The weight of the reel may be determined by summing the forces and moments in the system while the carriage is in motion or static. Further, the weight of the reel may be determined by comparing the force measurements and orientation of the carriage to stored calibration data.

A reel weight measurement system is shown and described herein. In some embodiments, the reel weight measurement system comprises strategically placed position and load sensors for measuring an orientation of a reel-carrying unit and measuring loads in the reel-carrying unit. The loads may be indicative of forces due to the weight of the reel when the reel is supported by a carriage of the reel-carrying unit. The weight of the reel may be determined by summing the forces and moments in the system while the carriage is in motion or static. Further, the weight of the reel may be determined by comparing the force measurements and orientation of the carriage to stored calibration data.

A vehicle-mounted reel lifting apparatus for rotating the reel to dispense or wind the reelable material. A driven wheel engages the rim of the reel at a plurality of reel lifting arm pivot positions, such as sliding alongside the lifting arm in an axis parallel with the lifting arm. The driven wheel is capable of engaging with the reel at any position of the lifting arm. A linear drive mechanism allows the driven wheel to travel up and down the lifting arm to accommodate various reel sizes. The lifting arm may incorporate an automatic locking slot having a spring-driven locking mechanism. The lifting arms may also be mounted with a mounting bracket having a pattern of slots to enable the lifting arms to be selectively mounted in a narrow configuration or a wide configuration.

A system includes a trailer frame, a lifting mechanism coupled to the trailer frame, wherein the lifting mechanism is configured to raise or lower a coil of pipe or a reel of pipe, a braking mechanism configured to apply pressure to the pipe while the pipe is being deployed by the system, and a hydraulic power unit configured to hydraulically power the system.

A system includes a trailer frame, a lifting mechanism coupled to the trailer frame, wherein the lifting mechanism is configured to raise or lower a coil of pipe or a reel of pipe, a braking mechanism configured to apply pressure to the pipe while the pipe is being deployed by the system, and a hydraulic power unit configured to hydraulically power the system.

A foldable wire caddy includes a first mounting support, a second mounting support, and a primary mounting bar. The wire reels are positioned along a structural body of the primary mounting bar which is then positioned in between the first mounting support and the second mounting support. A locking screw and a screw-receiving channel of a locking mechanism are used to secure the primary mounting bar in a functional position with the first mounting support and the second mounting support. A carrying handle which is removably and rotatably mounted onto the primary mounting bar allows the foldable wire caddy to be transported from one location to another.

A foldable wire caddy includes a first mounting support, a second mounting support, and a primary mounting bar. The wire reels are positioned along a structural body of the primary mounting bar which is then positioned in between the first mounting support and the second mounting support. A locking screw and a screw-receiving channel of a locking mechanism are used to secure the primary mounting bar in a functional position with the first mounting support and the second mounting support. A carrying handle which is removably and rotatably mounted onto the primary mounting bar allows the foldable wire caddy to be transported from one location to another.