A lifting mechanism assembly comprising a lifting section, a compression section, and an attaching section.

There is provided improved accuracy in cargo handling by a spreader (306) including a distance sensor (308a, 308b) transmitting optical signals. The handled cargo (312) includes a plurality of interconnected sides (312a, 312b). The transmission directions of the optical signals are selected and distances are measured by reflected optical signals transmitted in the selected directions. The measured distances are used to determine a reference line that matches a shape of at least one of the interconnected sides (312a, 312b) of the cargo (312).

There is provided improved accuracy in cargo handling by a spreader (306) including a distance sensor (308a, 308b) transmitting optical signals. The handled cargo (312) includes a plurality of interconnected sides (312a, 312b). The transmission directions of the optical signals are selected and distances are measured by reflected optical signals transmitted in the selected directions. The measured distances are used to determine a reference line that matches a shape of at least one of the interconnected sides (312a, 312b) of the cargo (312).

A system comprising a clamp assembly configured to capture an unmanned underwater vehicle, wherein the clamp assembly comprises a first arm, a second arm, and an extending rod assembly, wherein the first arm and second arm have a first end and a second end and are configured to form a hollow chamber when connected on both ends, wherein first arm and second arm are connected at the first end with the extending rod assembly, wherein the extending rod assembly comprises an extending rod that is configured to project downward when first arm and second arm are in an open position and is configured to retreat inside the extending rod assembly when the first arm and second arm are in a closed position, wherein a spring-loaded latch and a pin on the second end of the first arm and second arm are configured to automatically catch and lock upon closure.

A system comprising a clamp assembly configured to capture an unmanned underwater vehicle, wherein the clamp assembly comprises a first arm, a second arm, and an extending rod assembly, wherein the first arm and second arm have a first end and a second end and are configured to form a hollow chamber when connected on both ends, wherein first arm and second arm are connected at the first end with the extending rod assembly, wherein the extending rod assembly comprises an extending rod that is configured to project downward when first arm and second arm are in an open position and is configured to retreat inside the extending rod assembly when the first arm and second arm are in a closed position, wherein a spring-loaded latch and a pin on the second end of the first arm and second arm are configured to automatically catch and lock upon closure.

A drill rod handler provides rods to be used to form a drill string in on-shore drilling operations. The drill rod handler includes side arms which are moveable to encourage drill rods to roll towards or away from a center line of the drill rod handler. A working arm is arranged to grasp a centrally located drill rod, and to raise it from a horizontal to a vertical configuration. The working arm may then slew to correctly position the drill rod at the correct location for use.

There is provided a device for handling tires having an anchor for attaching to a prime mover and a clamping device rotatably mounted to the anchor that rotates relative to the anchor about a rotation axis. The clamping device has a plurality of engagement members connected by a mechanical linkage and a carrying body with a plurality of guides. The weight distribution of the clamping device is balanced about the rotation axis. Each guide carries one of the engagement members and is oriented to allow the engagement members to move perpendicular to the rotation axis between clamping and release positions. The mechanical linkage includes a rotating actuator and controls movement of the engagement members along the guides. The movement of each engagement member is rotationally symmetric about the rotation axis relative to the movement of the other engagement members. The device has an actuator that actuates the mechanical linkage.

A gripping and carrying device for moving a container having a longitudinal axis and a transversal axis where in the device comprises a substantially L-shaped frame extending along the longitudinal axis and connected onto a mobile crane, the frame having a distal end provided with at least one hooking device configured to engage onto at least one complementary hooking device provided on the container and a proximal end provided with a grabbing and gripping deck having grab handles rotationally mounted onto the deck and a gripping device translationally mounted onto the deck, mobile between a releasing position wherein the gripping device are disengaged from the container and a gripping position wherein the gripping device are configured to engage into the container.

A system comprising a clamp assembly configured to capture an unmanned underwater vehicle, wherein the clamp assembly comprises a first arm, a second arm, and an extending rod assembly, wherein the first arm and second arm have a first end and a second end and are configured to form a hollow chamber when connected on both ends, wherein first arm and second arm are connected at the first end with the extending rod assembly, wherein the extending rod assembly comprises an extending rod that is configured to project downward when first arm and second arm are in an open position and is configured to retreat inside the extending rod assembly when the first arm and second arm are in a closed position, wherein a spring-loaded latch and a pin on the second end of the first arm and second arm are configured to automatically catch and lock upon closure.

A system comprising a clamp assembly configured to capture an unmanned underwater vehicle, wherein the clamp assembly comprises a first arm, a second arm, and an extending rod assembly, wherein the first arm and second arm have a first end and a second end and are configured to form a hollow chamber when connected on both ends, wherein first arm and second arm are connected at the first end with the extending rod assembly, wherein the extending rod assembly comprises an extending rod that is configured to project downward when first arm and second arm are in an open position and is configured to retreat inside the extending rod assembly when the first arm and second arm are in a closed position, wherein a spring-loaded latch and a pin on the second end of the first arm and second arm are configured to automatically catch and lock upon closure.