An attachment apparatus according to an embodiment of the present technology includes a hand portion and a control unit. The hand portion includes a restriction portion that restricts a movement of a flat cable in a width direction and a holding portion that holds at least one of both surfaces of the flat cable. The control unit causes the flat cable to be held by a first holding force while restricting the movement in the width direction at a first position on the flat cable, causes the hand portion to move to a second position on the flat cable while maintaining the first holding force, and causes the flat cable to be held at the second position by a second holding force to attach the flat cable.

An electronic device comprises a haptic feedback system. The haptic feedback system includes a first haptic actuator coupled to a controller via a first set of two or more electrodes, and a second haptic actuator coupled to the first haptic actuator, and further coupled to the controller via a second set of two or more electrodes. The controller is configured to provide a first drive signal to the first haptic actuator via the first set of two or more electrodes, and to provide a second drive signal, different from the first drive signal, to the second haptic actuator via the second set of two or more electrodes. Combining two haptic actuators allows for a broader range of feedback and a heightened user experience.

A robot hand includes three or more holding portions arranged at intervals from each other along a circumferential direction about a predetermined axis, and configured to hold a work piece, and a driving portion configured to move the three or more holding portions toward a closing direction for approaching the axis and toward an opening direction for moving away from the axis, wherein at least one of the holding portions is swingable, about the axis, at a position at which the at least one holding portion is in contact with the work piece.

A robot hand jig includes a grip including a first depression configured to engage with a first finger and a second depression configured to engage with a second finger. The first depression includes a first surface, a second surface perpendicular to the first surface, a third surface perpendicular to the second surface, and a fourth surface perpendicular to the first surface and the second surface. The second depression includes a fifth surface, a sixth surface perpendicular to the fifth surface, a seventh surface perpendicular to the sixth surface, and an eighth surface perpendicular to the fifth surface and the sixth surface.

An apparatus for use with a robot may couple to or form part of an appendage, for example a wrist. The apparatus can include a base, a first platform, a second platform, a first set of linear actuators that moveably couple the first platform to the base and a second set of linear actuators that moveably couple the second platform to the first platform. The apparatus can take the form of dual prismatic platforms. A controller can provide control signals to operate the linear actuators to cause the first platform to translate and rotate with respect to the base and to cause the second platform to translate and rotate with respect to the first platform. Connectors can couple the base to an appendage and couple an end effector to the second platform.

A gripper includes a body part, a finger base part coupled to the body part to be rotatable, the finger base part including a first finger base part and a second finger base part configured such that when the first finger base part is rotated in a first direction with respect to the body part, the second finger base part is provided to be rotatable in a second direction opposite the first direction with respect to the body part, and a finger part coupled to a first side of the body part or the finger base part to be reciprocal.

A pneumatic soft grabbing sensing device includes a support; a flexible grabbing mechanism including at least two flexible claws, wherein the at least two flexible claws are arranged on the support in a circumferential direction, each flexible claw includes a telescopic air bag, an adapter mechanism and a flexible plate connected with the adapter mechanism, the telescopic air bag is hollow and elongated, the telescopic air bag includes a closed end, an open end and an air bag main body connected between the closed end and the open end, the air bag main body includes at least two air bag bodies and a node portion formed between adjacent air bag bodies, and the adapter mechanism is connected to the node portion, the closed end and open end; and a sensing mechanism including at least two sensing parts, the sensing parts being arranged on inner sides of the corresponding flexible plates.

A gripping device for handling sample containers is presented. The gripping device comprises a number of fingers having non-gripping surfaces adapted to reduce adhesion between the non-gripping surfaces and labels. A sample container processing system comprising such a gripping device is also presented.

A palm-type mechanical gripper with variable-position and rotatable fingers and a dual-drive crank-slider parallel mechanism is provided with a crank-slider mechanism on the left side, which is an active driving structure and is driven by two stepping motors to respectively generate angular displacement of cranks and to change lengths of connecting rods, and a crank-slider mechanism on the right side, which is a driven mechanism and is driven at a constant speed by a pair of gears. The mechanical gripper is provided with three plate spring fingers, wherein two fingers are respectively installed on the connecting rods on left and right sides, and under the cooperative effect of the two stepping motors, the eccentricities of the cranks, the positions and angles of the two fingers respectively on the two connecting rods and the position of the other fixed finger can be changed through manual adjustment.

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.