Object manipulation space optimization is a challenging task and used in applications such as heat treatment operation and transport packaging. Traditionally manual intervention is involved to grasp and place the objects for ensuring multi object stacking with zero gap between adjacent objects. This leads to higher cost infrastructure and low productivity. Further, conventional gripper devices fail to optimize object manipulation space and are unable to handle objects of different cross sections with larger lengths. The present disclosure provides a gripper apparatus addressing a single gripper design comprising an adaptor holding unit with a provision for different modular object holding units which are varied in accordance with size, shape and length of the object to be grasped and placed by the gripper apparatus. The modular object holding unit comprises a plurality of fingers which are actuated for grasping and stacking one or more objects such that object manipulation space is optimized.

An articulatable member includes a distal end, a proximal end, an actuation member, and a constraint member. The actuation member extends from the proximal end to the distal end. The actuation member transmits force to bend the articulatable member from a neutral position. The constraint member extends from the proximal end to the distal end. The constraint member may have opposite ends that are fixed to the distal end and the proximal end. In one embodiment, the constraint member follows a helical path along at least a portion of the articulatable member from the proximal end to the distal end. In another embodiment, the actuation member follows a helical path along at least a portion of the articulatable member.

An articulatable member includes a distal end, a proximal end, an actuation member, and a constraint member. The actuation member extends from the proximal end to the distal end. The actuation member transmits force to bend the articulatable member from a neutral position. The constraint member extends from the proximal end to the distal end. The constraint member may have opposite ends that are fixed to the distal end and the proximal end. In one embodiment, the constraint member follows a helical path along at least a portion of the articulatable member from the proximal end to the distal end. In another embodiment, the actuation member follows a helical path along at least a portion of the articulatable member.

A harvesting tool configured to independently grasp and twist a target object. The harvesting tool comprising a pneumatic cylinder, a pneumatic coupling communicating with the pneumatic cylinder; bearings supporting the pneumatic cylinder for rotation relative to the pneumatic coupling; and a gear assembly configured to rotate the pneumatic cylinder relative to the pneumatic coupling. Related systems and methods are also disclosed.

A harvesting tool configured to independently grasp and twist a target object. The harvesting tool comprising a pneumatic cylinder, a pneumatic coupling communicating with the pneumatic cylinder; bearings supporting the pneumatic cylinder for rotation relative to the pneumatic coupling; and a gear assembly configured to rotate the pneumatic cylinder relative to the pneumatic coupling. Related systems and methods are also disclosed.

An end effector has an end effector base portion connected to a robot arm, and an elastic component holding unit provided to the end effector base portion so as to hold an elastic component. The elastic component holding unit has a plurality of elastic component gripping members which releasably grip the elastic component, and a biasing unit for repulsively biasing each distal end portion of the plurality of elastic component gripping members from a releasing position for releasing the elastic component toward a gripping position for gripping the elastic component. An end effector capable of simplifying a fitting work of an elastic component such as the O ring can be provided.

A robotic picker with a pick head unit for a robotic tube handler that provides for automated transport and sampling of laboratory tubes, the picker having a prong picker with a multiple of depending pick prongs optimized for an orthogonal arrangement of tubes, typically in a tube rack, wherein the pick head unit has a mechanism for shifting the radial orientation of the pick head unit to accommodate both orthogonal and diagonal arrangements of laboratory tubes.

A robotic picker with a pick head unit for a robotic tube handler that provides for automated transport and sampling of laboratory tubes, the picker having a prong picker with a multiple of depending pick prongs optimized for an orthogonal arrangement of tubes, typically in a tube rack, wherein the pick head unit has a mechanism for shifting the radial orientation of the pick head unit to accommodate both orthogonal and diagonal arrangements of laboratory tubes.

A device for selectively grasping a part of a separate elongated body extending through the device, includes at least three partially mobile jaw members defining between them a through hole of variable diameter depending on their mutual relative positioning, supporting and driving elements to which the jaw members are mounted and which are adapted to provide a coordinated motion to the members around the elongated body situated in the variable through hole, resulting in a closing or opening of the through hole. The jaw members have an elongated shape with two opposed ends and the supporting and driving elements include a circular or annular support body to which a first end of each jaw member is connected and a mobile annular driving body to which a second opposed end of each jaw member is connected.

A device for selectively grasping a part of a separate elongated body extending through the device, includes at least three partially mobile jaw members defining between them a through hole of variable diameter depending on their mutual relative positioning, supporting and driving elements to which the jaw members are mounted and which are adapted to provide a coordinated motion to the members around the elongated body situated in the variable through hole, resulting in a closing or opening of the through hole. The jaw members have an elongated shape with two opposed ends and the supporting and driving elements include a circular or annular support body to which a first end of each jaw member is connected and a mobile annular driving body to which a second opposed end of each jaw member is connected.