Shape-shifting fingers may enable parallel-jaw gripper to re-grasp objects. In some embodiments, a gripper includes two fingers each having a flexible membrane which is moveable between an extended state and a retracted state in response to pressure applied to a cavity at least partially formed by the membrane. In the extended and retracted state the shape of the flexible membrane may change based on the pressure and/or a force applied to the membrane and may attain two distinct geometric forms to facilitate distinct manipulation functionalities. In some embodiments, the flexible membrane switches between a wedge-shaped geometry in the extended state and a V-shaped geometry in the retracted state. The wedge-shaped geometry may provide a point contact on a cylindrical object so that the object may pivot to a vertical position under the effect of gravity. The V-shaped geometry may localize the object in a vertical position and securely hold it.

A robotic kitchen assistant for frying includes a robotic arm, a fryer basket, and a robotic arm adapter assembly allowing the robotic arm to pick up and manipulate the fryer basket. The robotic arm adapter includes opposing gripping members to engage the fryer basket. A utensil adapter assembly is mounted to the handle of the fryer basket, and the opposing gripper members are actuated to capture a three-dimensional (3D) feature of the utensil adapter assembly. The robotic arm adapter assembly can include an agitator mechanism to shake the fryer basket or another utensil as desired. Related methods are also described.

A robotic kitchen assistant for frying includes a robotic arm, a fryer basket, and a robotic arm adapter assembly allowing the robotic arm to pick up and manipulate the fryer basket. The robotic arm adapter includes opposing gripping members to engage the fryer basket. A utensil adapter assembly is mounted to the handle of the fryer basket, and the opposing gripper members are actuated to capture a three-dimensional (3D) feature of the utensil adapter assembly. The robotic arm adapter assembly can include an agitator mechanism to shake the fryer basket or another utensil as desired. Related methods are also described.

A holding device for foods is configured to hold self-standable foods each having a front surface and a rear surface parallel to the front surface. The holding device for the foods includes a holding part configured to hold the foods in a standing state where the front surfaces face in a first direction and in a state where the foods are lined up in the first direction. The holding part includes a plurality of pairs of holding members each configured to pinch each of the foods from both sides in the first direction, and actuator members each configured to independently operate each of the pairs of holding members.

Systems and methods for clearing a top drive from an operational area of the mast such that operations may be performed along the rail without interference from the top drive. Systems and methods of the present disclosure provide for arranging the top drive in a parked configuration outside of, or generally behind, the mast. A guide rail may be arranged within an operational area of a mast and may have a pair of interchangeable rail sections, each of which may be configured for arrangement in either an operating configuration, where the rail section may be positioned within the operational area of the mast to form part of the rail, or a parked configuration, where the rail section may be positioned outside of the operational area. Each interchangeable rail section may be pivotable about an axis and may be arranged on a pivotable gate of the mast.

The present disclosure relates to systems and methods for automated drill pipe handling operations, such as trip in, trip out, and stand building operations. A pipe handling system of the present disclosure may include a lifting system for handling a load of a pipe stand, a pipe handling robot configured for engaging with the pipe stand and manipulating a position of the pipe stand, and a feedback device configured to provide information about a condition of the pipe stand, the lifting system, or the pipe handling robot. In some embodiments, the pipe handling robot may be a first robot configured for engaging with and manipulating a first end of the pipe stand, and the system may include a second pipe handling robot configured for engaging with and manipulating a second end of the pipe stand.

A gripping device includes a body defining a constraint opening. A gripping member is engaged to the body and is configured to grasp a container. The gripping member includes deformable gripping elements arranged in correspondence of the constraint opening and configured to embrace, when the gripping device is in use, a respective portion of the container. The gripping elements are configured to form an inner gripping space. The gripping member is configured to operate at least between a rest configuration and a gripping configuration wherein the deformable gripping elements are deformed and retain, when the gripping device is in use and in correspondence of the inner gripping space, a container.

In a robot (1) for gripping and/or holding objects (2), in particular workpieces, tools or carrier parts, the robot comprising: at least one robot arm (3, 4, 5) which is supported on a support frame (19) and is movable in space in at least one translational and/or rotational degree of freedom, a gripping and/or holding device (6), on which the respective object (2) is supported in a positionally oriented manner and/or held in a rotational arrangement, at least one electric motor (9) provided in the gripping and/or holding device (6), by means of which a torque and/or a clamping force is generated which acts on the object (2), and a drive shaft (24) mounted in the robot arm (5), which is coupled in a driving manner to the gripping and/or holding device (6), preferably in such a way that the gripping and/or holding device (6) rotates about its own longitudinal axis (6),
the gripping and/or holding device (6) arranged at the free end of the robot arm (5) should be freely movable in space, so that rotation about its own longitudinal axis (6) can be carried out as often and as quickly as desired. This is achieved in that an interface (31) is provided between a free end (10) of the robot arm (5) at the end and the gripping and/or holding device (6), which interface (31) is bridged by a coupler (25) fixed in a non-rotating arrangement to the robot arm (5) and by a flange (11) adapted thereto, which flange (11) is connected in a non-rotating arrangement to the gripping and/or holding device (6) and the drive shaft (24), in that a first inductively operated transceiver (12) is provided in the coupler (25), which transceiver (12) is connected to a power source (15) via an electrical line (14) fed to the robot arm (5), in that a second inductively operated transceiver (13) is provided in the flange (11), which is connected to the electric motor (9) in the gripping and/or holding device (6) via electrical lines (14), and in that an air gap (21) is provided between the coupler (25) and the flange (11) as a component of the interface (31).

A robot system is provided with a robot, a hand, and a range sensor that acquires information about a distance to a workpiece. Claw parts of the hand include grip regions having a shape for gripping the workpiece. A controller stops the robot when the hand collides with the workpiece. The controller determines whether or not a target workpiece can be gripped by a part other than the grip regions of the hand. When it is determined that the target workpiece can be gripped by the part other than the grip regions, the controller performs control for gripping the target workpiece by using the hand, and for moving the target workpiece inside a container.

A fastening end effector is presented. The fastening end effector comprises a hammering insertion die translatable into and out of a housing of the fastening end effector along a longitudinal axis of the fastening end effector; and grippers positioned circumferentially around the hammering insertion die to hold a head of a fastener against the hammering insertion die, the grippers independently moveable relative to the hammering insertion die.