Abstract: An automated cargo transfer system is used, in conjunction with a crane, to load cargo onto, and unload cargo from, the deck of a watercraft. An example automated cargo transfer system comprises: a dynamic positioning system installed on the watercraft; a crane hook system installed on the crane; a crane automation system configured to automate the operation of the crane; and a load plan comprising: data that identifies all cargo being transported by the watercraft, data used by the dynamic positioning system to actively position and orient the watercraft during loading and unloading of the watercraft, and data used by the crane hook system to actively position and orient it's hook mechanism during loading and unloading of the watercraft. The automated cargo transfer system is configured to actively track the location of the watercraft, the hook mechanism of the crane hook system, and cargo.

Abstract: A lumber transfer system includes an overhead track and a lower conveyor for retrieving and delivering boards from multiple racks of lumber to a platform leading to a saw. In some examples of operation, a board picker travels along the track to pick up a chosen board from one of the racks. The board picker then releases the board onto the conveyor. The conveyor conveys the board underneath the other racks and delivers the board to the saw feed platform. While the conveyor is conveying the board toward the saw feed platform, the board picker returns to the racks for another board. The board picker traveling along the track and handling boards while the conveyor delivers them to the saw saves production time and increases throughput.

Abstract: A system for conducting subterranean operations is disclosed and can include a tubular storage area, a well center area, and a robotic arm configured to move tubulars. The robotic arm can be coupled to a rig floor and configured to traverse a distance between the well center area toward the tubular storage area.

Abstract: A method and apparatus for rapid loading stacks of items aboard vessels which can include rotating palletized items to depalletize the items, and then placing the items on a lifting robot, lifting the robot and items into the hold of a vessel, removing the items from the robot using a load push lift truck, and then using the load push lift truck to stow the items in a stowage location. The empty robot can be removed from the hold of the vessel and put in a position to receive a another depalletized stack of cartons. In one option the robot has a plurality of fork channels for receiving the blades of a load push lift truck along with receiving the blades or a rotating lift truck.

Abstract: A pivoting system has an electronic device pivotably mounted on a cargo platform. A base is coupled to a cargo support. A linkage rod slidably engages with the cargo platform. A proximal pivot pivotably couples the proximal end of the linkage rod arm to the base. A device pivot pivotably couples the electronic device to the cargo platform. A distal pivot pivotably couples the distal end of the linkage rod to the electronic device. The pivoting system causes pivoting of the electronic device between a lower general horizontal position and an upper general horizontal position.

Abstract: The offshore jack-up has a hull and a plurality of moveable legs engageable with the seafloor. The offshore jack-up is arranged to move the legs with respect to the hull to position the hull out of the water. The method comprises securing the vessel with respect to the hull of the offshore jack-up when the hull is positioned out of the water and the legs engage the seafloor. A lifting mechanism mounted on the offshore jack-up engages with a cargo carrying platform positioned on the vessel. The platform is lifted with the lifting mechanism between a first position on the vessel and a second position clear of the vessel.

Abstract: A system for handling tubulars on a rig may include a top handling device configured for arrangement on the rig and for handling a top portion of a tubular to and from a setback area. The system may also include a lower handling device configured for arrangement on the rig and for handling a bottom portion of the tubular between well center and a release position. The system may also include a bottom handling device configured for arrangement on the rig and for handling the bottom portion of the tubular between the release position and the setback area.

Abstract: The offshore jack-up has a hull and a plurality of moveable legs engageable with the seafloor. The offshore jack-up is arranged to move the legs with respect to the hull to position the hull out of the water. The method comprises securing the vessel with respect to the hull of the offshore jack-up when the hull is positioned out of the water and the legs engage the seafloor. A lifting mechanism mounted on the offshore jack-up engages with a cargo carrying platform positioned on the vessel. The platform is lifted with the lifting mechanism between a first position on the vessel and a second position clear of the vessel.

Abstract: The present invention relates to a machine (50) for the processing of linen items (L) in an industrial laundry (1), such as for receiving, reorienting and transferring a linen item (L) from a loader (100) to a movable linen carrier (20), with a transfer mechanism (200) comprising: a carriage (250), a drive (201) for moving said carriage (250) between a loading posi-tion and a discharge position, said carriage (250) including a frame structure (257) with two spaced apart clamping structures (270), each being rotationally connected to the frame structure (257), each clamping structure (270) comprising two spaced apart activata-ble clamps (229), and actuators (251, 280) for said rotation and said activation of said clamps (229).

Abstract: A system for feeding a diaphragm comprises a diaphragm separating device adapted to separate a single diaphragm from a stack of diaphragms and a visual device adapted to identify the single diaphragm and a position of the single diaphragm separated from the stack.

Abstract: A pharmaceutical order filling system uses pucks disposed on a pallet to accommodate a plurality of container sizes into which pharmaceuticals can be dispensed. An order processing device receives a pharmaceutical order and identifies a size of container into which a pharmaceutical in the pharmaceutical order should be dispensed. A pallet sizing and pucking device is configured: to configure a pallet with a plurality of pucks adapted to accommodate containers and to configure the pucks on a pallet in a manner that will facilitate efficient fulfillment of the pharmaceutical order.

Abstract: A core tube handling device can be used with exploratory drilling rigs. The device can include a slew arm mounted on the rig's mast and a pivot arm mounted on the slew arm. When the slew arm is adjacent to the mast, clamping devices on the pivot arm can grasp and hold a core tube from the drill string. The slew arm can pivot away from the mast and align the pivot arm with a tray that receives and holds the tubes. The pivot arm can pivot to a position proximate the tray and release the tube. The tray can be rotatable and translatable to facilitate transfer of the tube from the pivot arm to the tray.

Abstract: Devices, systems, and methods are provided for a tote stacker machine. A tote stacker system may include a first conveyor belt, a sensor to determine an orientation of a first tote on the first conveyor belt, an end effector that moves in a lateral direction between a first position aligned with the first conveyor belt and a second position, and an elevator that is aligned with the second position and that includes a first track and a second track. The elevator may receive the first tote from the end effector and may down stack the first tote with a second tote. The tote stacker system may include a second conveyor belt at least partially positioned between the first track and the second track of the elevator, and the second conveyor may move the first tote and second tote away from the elevator.

Abstract: Techniques for product-stacking and case-packing are particularly adapted for product that is packaged in envelopes or flexibly-sided containers. Such products include may different types, such as foodstuffs, books, boxed goods, etc. In an example, a product-stacking and case-packing system may include a product-stacking assembly and a case-packing assembly. In the example, the product-stacking assembly may be configured with a plurality of pairs of flights, each pair of flights programmed to move according to operation of an associated pair servo motors, and programmed to receive and down-stack incoming product items into groups. In the example, the case-packing assembly may include a robotic arm and end-of-arm tool configured to grasp one or more groups of stacked product items, when pushed from the product-stacking assembly, and place each group of stacked product items in a case (e.g., a cardboard box).

Abstract: A control unit performs first loading control that is to be performed when a target article that has been determined by a determination unit as being an article that is in an appropriate orientation is to be loaded onto a first supporting member in the appropriate orientation, and second loading control that is to be performed when a target article that has been determined by the determination unit as being an article that is in an inappropriate orientation is to be loaded onto the first supporting member in the appropriate orientation.

Abstract: A method and system for storing items using a hitch adapter secured to a trolley that moves along a vertically oriented track is disclosed. In one embodiment, a winch raises and lowers the trolley and hitch adapter by retracting and deploying a cable that is secured to the trolley. A bicycle carrier may be secured to the hitch adapter for storing bicycles, and for raising bicycles when not in use.

Abstract: A palletizing elevator is provided that lowers gradually a pallet thereon from an upper level as it is filled with products, and by providing an empty pallet infeed system that moves empty pallets towards the palletizing elevator simultaneously to the palletizing of products thereon. The empty pallet infeed system includes an empty pallet elevator for raising empty pallets to the upper level and a conveying system between the empty pallet elevator and the palletizing elevator for moving the empty pallets of from the empty pallet elevator at the upper level to the palletizing elevator while a pallet is moved by the palletizing elevator during its filling.

Abstract: Embodiments disclosed herein generally relate to a conveyor inspection system and a method of sorting a substrate. The conveyor inspection system includes a moveable conveyor and a rapid conveyor. The moveable conveyor is configured to transfer undesired substrates to the rapid conveyor. The method includes determining that the substrate is undesirable for entry into a modular inspection unit, transferring the substrate to a rapid conveyor in response to determining that the substrate is undesirable for entry into the modular inspection unit, and transporting the substrate on the rapid conveyor. The conveyor inspection system and method remove substrates from the test system upon first entering the test system, which reduces time wasted in analyzing undesired substrates that would be discarded.

Abstract: A hitch mounted forklift assembly includes a primary member that is insertable into a hitch receiver of a truck. A coupler is coupled to the primary member and the coupler is exposed when the primary member is positioned in the tow hitch. A lifting rail is provided that has a track gear integrated therein and a motor is coupled to the primary member. A drive gear is rotatably coupled to the motor and the drive gear engages the track gear in the lifting rail. The lifting rail is lifted upwardly or lowered downwardly by the drive gear when the motor rotates the drive gear. A cross member is coupled to the lifting rail and a plurality of tines is each from the cross member. The plurality of tines lifts and lowers a hay bale for transport.

Abstract: A method of providing motion compensation of a subsea package with a synthetic rope comprising attaching the synthetic rope to the subsea package, supporting a first gripper with a wire rope from a winch capable of motion compensation control characteristics and gripping the synthetic rope with the first gripper, supporting a second gripper with a second wire rope, and repeating the following sequence: lowering the first gripper, the synthetic rope, and the subsea package a first distance, gripping the synthetic rope with the second gripper, releasing the first gripper from the synthetic rope, raising the first gripper the first distance, gripping the synthetic rope with the first gripper, releasing the second gripper from the synthetic rope, such that when the subsea package is lowered proximate the subsea landing location the winch capable of operating with motion compensation characteristics can operate to compensate for the vessel motion and smoothly lower the subsea package to the subsea landing location