A rod and casing handler according to embodiments of the present disclosure includes a boom mount that is configured to be coupled to a boom. A clamp mounting structure is coupled to the boom mount and has a central portion, a first arm, and a second arm, where each arm extends from the central portion. A first clamp is coupled to the first arm and includes a first set of actuatable tongs and a first removable saddle plate. A second clamp is coupled to the second arm, and it includes a second set of actuatable tongs and a second removable saddle plate. The first removable saddle plate has a first arcuate surface sized and shaped to correspond to a cylindrical body having a first diameter, and the second saddle plate has a second arcuate surface sized and shaped to correspond to a cylindrical body having a second diameter, the first and second arcuate surfaces are disposed to hold the first cylindrical body in coaxial alignment with the second cylindrical body.

Provided is an automated receptor system of a sling-receiving element for gripping a connection device of a sling of a blade gripping device for gripping a rotor blade, in particular a rotor blade of a wind turbine, which automated receptor system includes a receptor for connecting the connection device to the sling-receiving element and a drive system for pivoting the receptor for coupling the connection device to the sling-receiving element and for decoupling the connection device from the sling-receiving element. Further a sling-receiving element and a blade gripping device are described. Furthermore, provided is a method for gripping a connection device of a sling of a blade gripping device for gripping a rotor blade, in particular a rotor blade of a wind turbine.

Provided is an automated receptor system of a sling-receiving element for gripping a connection device of a sling of a blade gripping device for gripping a rotor blade, in particular a rotor blade of a wind turbine, which automated receptor system includes a receptor for connecting the connection device to the sling-receiving element and a drive system for pivoting the receptor for coupling the connection device to the sling-receiving element and for decoupling the connection device from the sling-receiving element. Further a sling-receiving element and a blade gripping device are described. Furthermore, provided is a method for gripping a connection device of a sling of a blade gripping device for gripping a rotor blade, in particular a rotor blade of a wind turbine.

Embodiments of a heavy compressor valve removal tool to remove and lift heavy compressor valves and associated methods are provided. An embodiment of a heavy-compressor valve removal tool can include one or more valve interfacing surfaces to position along, interface with, and abuttingly contact a plurality of outer surfaces when positioned around a perimeter of a compressor valve. The tool also can include one or more reinforcing arms connected to the one or more valve interfacing surfaces to reinforce the one or more valve interfacing surfaces when lifting the heavy compressor valve and one or more tool lifting arms connected to the one or more reinforcing arms to lift the heavy compressor valve from a designated position when the tool is positioned around a perimeter of the heavy compressor valve.

Embodiments of a heavy compressor valve removal tool to remove and lift heavy compressor valves and associated methods are provided. An embodiment of a heavy-compressor valve removal tool can include one or more valve interfacing surfaces to position along, interface with, and abuttingly contact a plurality of outer surfaces when positioned around a perimeter of a compressor valve. The tool also can include one or more reinforcing arms connected to the one or more valve interfacing surfaces to reinforce the one or more valve interfacing surfaces when lifting the heavy compressor valve and one or more tool lifting arms connected to the one or more reinforcing arms to lift the heavy compressor valve from a designated position when the tool is positioned around a perimeter of the heavy compressor valve.

A pipe lifter for carrying one or more pipes including a slidably extendable elongate member and two sets of two laterally extending arms on each side of the elongate member. Each set of the two laterally extending arms are opposed to each other. Each of the laterally extending arms is pivotally fixed to the elongate member and moveable between a folded position where the arm is adjacent and parallel with the elongate member and an operational position where the arm extends laterally substantially at ninety degrees with respect to the elongate member. There are two or more L-shaped support members attachable to the laterally extending arms. There is also a hydraulic or pneumatic ram operationally configured to extend and shorten the length of the elongate member. In use, the L-shaped support members attached to the opposing laterally extending arms are positioned to be substantially opposing each other and the length of the elongate member is adjusted so that the outwardly extending section of the L-shaped support pipe is locatable within each open end of the pipe to secure the pipe to the pipe lifter.

A pipe lifter for carrying one or more pipes including a slidably extendable elongate member and two sets of two laterally extending arms on each side of the elongate member. Each set of the two laterally extending arms are opposed to each other. Each of the laterally extending arms is pivotally fixed to the elongate member and moveable between a folded position where the arm is adjacent and parallel with the elongate member and an operational position where the arm extends laterally substantially at ninety degrees with respect to the elongate member. There are two or more L-shaped support members attachable to the laterally extending arms. There is also a hydraulic or pneumatic ram operationally configured to extend and shorten the length of the elongate member. In use, the L-shaped support members attached to the opposing laterally extending arms are positioned to be substantially opposing each other and the length of the elongate member is adjusted so that the outwardly extending section of the L-shaped support pipe is locatable within each open end of the pipe to secure the pipe to the pipe lifter.

The present disclosure is directed to a component handling assembly. The component handling assembly includes a base member, an arm pivotably coupled to the base member, and a beam rotatably coupled to the base member. The component handling assembly also includes a counterweight rotatably coupled to a first end of the beam. The component handling assembly further includes a coupling assembly coupled to a second end of the beam. The coupling assembly is configured for coupling to a component. Rotating the counterweight in a first direction rotates the beam, the coupling assembly, and the component in a second direction.

The present disclosure is directed to a component handling assembly. The component handling assembly includes a base member, an arm pivotably coupled to the base member, and a beam rotatably coupled to the base member. The component handling assembly also includes a counterweight rotatably coupled to a first end of the beam. The component handling assembly further includes a coupling assembly coupled to a second end of the beam. The coupling assembly is configured for coupling to a component. Rotating the counterweight in a first direction rotates the beam, the coupling assembly, and the component in a second direction.

A barge lid lifter system having a frame, a plurality of vertical beams adjustably mounted to the frame, a plurality of cross bracing beams, and a plurality of load engagement mechanisms mounted to the vertical beams. Each load engagement mechanism may include a frame including a dagger plate, and a linear actuator configured to position an arm is configured an arm over a dagger point to retain a lifting assembly of a barge lid. The brackets of the vertical beams are configured to mount onto plates disposed on the frame such that the position of the load engagement mechanisms can be adjusted to fit barge lids of varying lengths and widths.