A robot gripper including: a base section; a first finger connected to the base section by a base section joint and n phalanxes; a second finger connected to the base section by a base section joint and n+m phalanxes, each phalanx of the second finger being connected to an adjacent phalanx by a phalanx joint and the first and second fingers being opposable to one other; wherein n and m are positive integers.

A robot gripper including: a base section; a first finger connected to the base section by a base section joint and n phalanxes; a second finger connected to the base section by a base section joint and n+m phalanxes, each phalanx of the second finger being connected to an adjacent phalanx by a phalanx joint and the first and second fingers being opposable to one other; wherein n and m are positive integers.

The invention relates to a device or tool (1) for gripping a liner in order to carry out a method of removing same from, and installing same in, the shell of a mill, which comprises a rigid structure or frame (2) forming a support for containing the components needed for the operation thereof, a coupling element (6) that allows the device to be secured or disposed on at least one end of a manipulation device, such as a robotic manipulator, comprises at least one claw or pincer (7) for holding at least one bolt by the head, the tool being designed to allow the adjustment of the relative position thereof in order to align the pincers to the positions of the holes of each liner, the at least one pincer (7) having a configuration allowing said claws to open and close so as to adjust the size thereof to the size of the bolt being gripped, wherein the at least one pincer or claw (7) has at least one sensor, thereby enabling mill liners to be installed and removed, the tool being based on the fastening elements that hold the liners in position.

The invention relates to a device or tool (1) for gripping a liner in order to carry out a method of removing same from, and installing same in, the shell of a mill, which comprises a rigid structure or frame (2) forming a support for containing the components needed for the operation thereof, a coupling element (6) that allows the device to be secured or disposed on at least one end of a manipulation device, such as a robotic manipulator, comprises at least one claw or pincer (7) for holding at least one bolt by the head, the tool being designed to allow the adjustment of the relative position thereof in order to align the pincers to the positions of the holes of each liner, the at least one pincer (7) having a configuration allowing said claws to open and close so as to adjust the size thereof to the size of the bolt being gripped, wherein the at least one pincer or claw (7) has at least one sensor, thereby enabling mill liners to be installed and removed, the tool being based on the fastening elements that hold the liners in position.

A chuck unit includes a first pressure chamber and a second pressure chamber disposed on both sides of a piston for driving fingers. A valve unit includes a first output air flow path connected to one of the first and second pressure chambers, a second output air flow path connected to the other thereof, a first solenoid valve connected to the first output air flow path, and a second solenoid valve connected to the second output air flow path. The first solenoid valve connects the first output air flow path to an air supply source when energized and opens the first output air flow path to atmosphere when de-energized, and the second solenoid valve opens the second output air flow path to atmosphere when energized and connects the second output air flow path to the air supply source when de-energized.

A gripper head, including a frame having a plurality of cantilever arms, an upper end, and a lower end opposite the upper end, with a vertical axis extending between the upper end and the lower end. The gripper head includes a plurality of discrete and spaced-apart tracks, each track extending out from the vertical axis and supporting a gripper finger operable to move along the track between a first position and a second position, the second position being farther from the vertical axis than the first position, each track supported by a corresponding cantilever arm of the plurality of cantilever arms. The gripper head also including a plurality of support bars, each support bar extending between two cantilever arms of the plurality of cantilever arms.

A robot hand includes: a first link; a first fixed pulley and a second fixed pulley, respectively provided at a proximal end pivot part of the first link and rotatable around a first axis; a second link, supported at an intermediate pivot part by the first link to be rotatable around a second axis; a lever link, supported by the proximal end pivot part of the first link to be rotatable around the first axis; a lever pulley, supported by the lever link; a hanging cable, hung on the first fixed pulley, the lever pulley, and the second fixed pulley; a conversion mechanism, connecting the lever link and the second link, and converting rotation of the lever link into rotation of the second link; and a second link driving mechanism, rotating the lever link around the first axis by pulling the hanging cable.

A substrate holding hand includes a supporting plate where a circular reference capture range is defined, a plurality of pads disposed within the reference capture range, at least one stationary stopper that is disposed along an outer circumferential circle of the reference capture range, at least one movable stopper having a part at the same height from the supporting plate as the stationary stopper, and a stopper actuator that moves the movable stopper from a retracted position outside the reference capture range to a deployed position closer to the stationary stopper than the retracted position. A circular reduced capture range is defined by the movable stopper at the deployed position, and the front stopper, and a diameter of the reduced capture range is larger than a diameter of the substrate and smaller than a diameter of the reference capture range.

One or more embodiments of the present disclosure relate generally to the field of robotic grasping systems, and in particular to an active robotic manipulator that includes a passive grasping component so that the robotic manipulator can grasp a wide variety of objects and simultaneously provide soft grasping features which reduce the risk of damage to objects.

An example device includes fingers that are adjustable longitudinally and configured to grip a workpiece. A clamping or locking mechanism can be used to secure the fingers at desired longitudinal positions. In examples, a retaining component is disposed through the fingers and is configured to retain the fingers in lateral directions.