A mechanical device for grasping an object includes a lower arm defining a proximal end portion, a distal end portion, an inner profile, and at least one track disposed along a portion of the lower arm between the proximal end portion and the distal end portion. An upper arm is pivotally connected to the lower arm, the upper arm defining a proximal end portion, a distal end portion, and an inner profile. An actuator is pivotally connected to the proximal end portion of the upper arm, the actuator including at least one protrusion slidably disposed within the track of the lower arm.

A workpiece holding device includes a plurality of holding claws configured to hold a workpiece, and holding cylinders as claw opening/closing members configured to displace the holding claws in a direction closer to or away from a first workpiece. The holding cylinders are provided for the holding claws, respectively. Therefore, the plurality of holding claws can be opened/closed individually. The holding cylinders are held on a support disk as a holding member in a movable manner. That is, by moving the holding cylinders to arbitrary positions on the support disk, the holding cylinders are positioned fixedly.

An operation tool as a gripping device includes a first arm and a second arm that move in directions opposite to each other, and a third arm for engaging with a workpiece. The operation tool includes a gear and a gear moving cylinder for causing the gear to move to a first position, a second position, and a third position between the first position and the second position. The first arm and the second arm move when the gear is disposed at the first position. The third arm moves when the gear is disposed at the second position. The gear is separated from all of the arms when the gear is disposed at the third position.

A gripping device has at least one tendon associated with a gripping arm and guided in a freely slidable manner along a first and second arm portion thereof through a succession of guiding elements. The guiding elements associated with a first proximal arm portion of the arms are carried by an inner yielding panel so that when the inner yielding panel on the inner side of the first proximal arm portion engages against an item or component to be gripped, the guiding elements of the tendon carried by the inner yielding panel cause a tensioning of the tendon, which results in an articulation and/or inflection movement of a second distal arm portion with respect to the first proximal arm portion.

The invention discloses a robotic dexterous hand including a plurality of finger mechanisms, the finger mechanisms comprises: an actuator; a connecting element with one end fixed to the actuator; a plurality of fingers including a plurality of knuckles, the knuckle includes a fixed knuckle positioned at the other end of the connecting element, the fixed knuckles are arranged in parallel and jointly form a palm of the robotic dexterous hand; wherein the actuator drives the flexion of the fingers to perform the gripping of a target object. The fingers and the palm are built from the multiple knuckles having a same structure. Design is required merely for the structure of a single knuckle, the need for discretely designing the structure of the fingers and that of the palm is obviated, thus greatly reducing the types of components, at the same time, simplifying the structure, and favoring the production and management.

A gripper for an articulable arm of an automated processing tool is described that is suitable for picking and placing objects on a wire harness peg board. The gripper includes at least two spaced apart opposing grips. Each grip further includes spaced apart protrusions. The opposing grips and protrusions actuate between open and closed positions. When in the closed position the opposing grips are capable of enclosing a perimeter of an object and may further support an underside of the object. The gripper may further grip a wire so that the automated processing tool may orient the wire and apply a constant upward, downward or lateral tension on the wire.

A robot hand capable of rotating and inserting a workpiece into a hole, while preventing a workpiece from being damaged when the workpiece is gripped. The robot hand includes a first hand section, a second hand section provided with a workpiece gripping section capable of gripping a workpiece, an elastic member configured to connect the first hand section and the second hand section in an elastically displaceable manner, and a movement restricting mechanism configured to releasably restrict a rotation movement of an elastic displacement of the second hand section with respect to the first hand section.

Exemplary embodiments relate to unique structures for robotic end-of-arm-tools (EOATs). In particular, exemplary embodiments provide structures allowing a displacement fluid to be discharged from a distal end of a robotic finger. The discharge may be used to displace a target object, such as an object that is adjacent to another blocking object or the side of a container. After the target object is displaced, the EOAT may be better able to maneuver into a gripping posture and may be able to secure a better grasp on the target object.

The invention discloses a robotic dexterous hand including a plurality of finger mechanisms, the finger mechanisms comprises: an actuator; a connecting element with one end fixed to the actuator; a plurality of fingers including a plurality of knuckles, the knuckle includes a fixed knuckle positioned at the other end of the connecting element, the fixed knuckles are arranged in parallel and jointly form a palm of the robotic dexterous hand; wherein the actuator drives the flexion of the fingers to perform the gripping of a target object. The fingers and the palm are built from the multiple knuckles having a same structure. Design is required merely for the structure of a single knuckle, the need for discretely designing the structure of the fingers and that of the palm is obviated, thus greatly reducing the types of components, at the same time, simplifying the structure, and favoring the production and management.

A gripper assembly includes a base having a hollow area extending in a first direction, at least three grippers arranged along a circumference of the base, the at least three grippers configured to be rotatable about respective rotational axes extending in the first direction, and a first power transmitter configured to rotate the at least three grippers at the same time in a first rotational direction about the respective rotational axes.