An equipping arrangement for equipping connector housings with fitted-out cable ends of cables has an equipping gripping unit that provides subsequent gripping, when necessary, during inserting the fitted-out cable end into the connector housing. A cable gripper has two gripper jaws grasping and gripping the cable when actuated by an actuator operated with fluid pressure. An alignment module rotationally corrects alignment of the fitted-out cable end using an optical detection device determining the rotational position of the fitted-out cable end. The detection device monitors an opening motion of the gripper jaws to create an intermediate position. A control unit controls the actuator and calibrates the actuator with regard to the subsequent gripping based on data of the opening motion of the gripper jaws determined by the detection device.

The invention relates to a gripper arrangement for component placement on mounting plates in switchgear and control system construction, the gripper arrangement having two gripper jaws whose distance from one another can be adjusted by means of a linear adjusting unit, wherein the gripper jaws each have at least one projection at the end on their outer sides facing away from one another.

A gripping or clamping device including a housing body and at least one jaw guide which is provided in the housing body and has two lateral walls, including at least one jaw which can be moved in the jaw guide along a movement direction, guide surfaces being provided on the lateral walls and the jaw having sliding surfaces which interact with the guide surfaces to form a sliding guide, wherein at least one raceway part and rolling elements are provided in the jaw guide, the jaw and the raceway part each having a raceway for abutting against the rolling elements to form a roller guide.

A robot hand for gripping and operating a pipette, the robot hand including: an electric gripper; a pair of first finger members opened and closed by the electric gripper; a pair of second finger members provided on the first finger member and having a pipette gripping surface; and an operating mechanism installed on the first finger member to operate an operation target of the pipette.

A method performed by a robotic system, for identifying single objects from a random assortment of objects. The robotic system picks, among a random assortment of objects on a presentation surface, an object from the presentation surface at a determined picking point. The robotic system removes any remaining objects from the presentation surface. The robotic system places the picked object on the presentation surface. The robotic system further analyzes the picked object on the presentation surface, in order to identify a single object.

Drive unit of an automation component, in particular a gripping, clamping, changing, linear or pivoting unit, whereby the drive unit includes a drive for driving the movable parts of the automation component and a control unit which controls the drive, whereby the control unit includes at least one computing device, and the drive unit together with the drive, control unit and computing device is arranged in or on a base housing of the automation component.

A gripper tooling includes: a gripper having a gripper body and an angular jaw; a rotor fixedly connected to the angular jaw; and a tooling member for gripping a workpiece, the tooling member including: a base pivotally connected to the rotor; a middle segment pivotally connected to the base; a distal segment pivotally connected to the middle segment; an adducting tendon having a proximal end attached to the rotor and a distal end attached to the distal segment, the rotor for rotating relative to the base and thereby for tensioning the adducting tendon; and an abducting tendon having a proximal end attached to the base and a distal end attached to the distal segment such that the tooling member can autonomously grip the workpiece as the angular jaw rotates toward the workpiece and the tooling member autonomously returns to an ungripped position as the angular jaw rotates away from workpiece.

A robotic device includes a first robotic device including a first articulated arm, a first clamping mechanism, and a blow-out portion. The first clamping mechanism includes a first clamping claw and a second clamping claw. The first clamping claw is attached to the first articulated arm, and has a first support surface. The second clamping claw has a second support surface to face the first support surface in a first axial direction orthogonal to the first support surface. The second clamping claw is movable in the first axial direction relative to the first clamping claw. The blow-out portion is provided to any one of the first clamping claw or the second clamping claw. The blow-out portion is capable of blowing out fluid in a second axial direction orthogonal to the first axial direction.

A connector fitting device for fitting a female connector to a male connector includes a movable arm body connected to a base on a base end side of the movable arm body and a gripper connected to a distal end side of the movable arm body. The connector fitting device is configured to move the gripper to an arbitrary position in a three-dimensional space and in an arbitrary direction in the three-dimensional space. The movable arm body includes a device main body, a first arm, a second arm, and a third arm.

An end effector device includes a housing having an opening, a first gripper, and a second gripper. The first gripper includes a first finger and a second finger facing each other and configured to open and close. The second gripper includes a third finger and a fourth finger facing each other and configured to open and close in a direction intersecting the first gripper. The first finger, the second finger, the third finger, and the fourth finger each protrude from the opening.