Systems and methods for changing an end effector are provided. A connecting plate may have a first side, a second side opposite the first side, and a kinematic interface. The kinematic interface may include at least one projection extending from both the first side and the second side. A robot flange may have a first kinematic receiver including at least one recess for receiving a corresponding projection of the at least one projection of the first side. An end effector may have a second kinematic receiver and a locking assembly. The second kinematic receiver may include at least one recess for receiving a corresponding projection of the at least one projection of the second side. The locking assembly may be configured to releasably secure the end effector to the robot flange.

An operating device for a handling device, with a gripping section and a coupling for a gripping device, with at least a part of the coupling being at or in the gripping section, so that it is rotatable about an axis of rotation, with a reading device for reading out an information carrier with coded data being placed on the side of the griping section facing the coupling, where the reading device is designed to read out an information carrier of a gripping device coupled to the coupling regardless of the rotational position of the coupling.

The system comprising containment equipment is intended for the aseptic transfer of a powder, namely for emptying a container filled with powder into a collection container and/or for filling a container with powder from a storage container. The containment equipment has a working chamber surrounded by a housing. A robot is installed in the containment equipment, having an arm arrangement that moves over a pivot range. If there is a collection container it has an inlet leading from the working chamber, and if there is a storage container it has an outlet leading off into the working chamber. The container can be closed at least with a first closure element. A transfer head is mounted at the inlet into the collection container and/or at the outlet of the storage container, each protruding into the working chamber. The passive part forms the double flap together with an active part contained in the transfer head.

The invention relates to a gripper device for a robot gripper, wherein the gripper device comprises a mechanical actuation with at least two contact elements guided linearly and in parallel in a direction of actuation, at least one mechanically activatable and/or deactivatable functional portion for objects to be gripped, and a transmission with at least two levers for converting a mechanical actuation power, and wherein the at least two contact elements on the one hand and the at least two levers on the other hand are each articulated to each other with a degree of freedom f=2. The invention also relates to a gripper device for a robot gripper with a mechanical actuation with at least two contact elements guided linearly and in parallel in a direction of actuation, at least one mechanically activatable and/or deactivatable functional portion for objects to be gripped, and a transmission for converting a mechanical actuation power, in which the transmission comprises a shaft for transferring a rotary motion and/or a torque, and to a method for operating gripper devices of this kind, wherein a gripper device is initially selected, then picked up from a predetermined position, then used and subsequently deposited at a predetermined position.

The invention relates to a gripper device for a robot gripper, wherein the gripper device comprises a mechanical actuation with at least two contact elements guided linearly and in parallel in a direction of actuation, at least one mechanically activatable and/or deactivatable functional portion for objects to be gripped, and a transmission with at least two levers for converting a mechanical actuation power, and wherein the at least two contact elements on the one hand and the at least two levers on the other hand are each articulated to each other with a degree of freedom f=2. The invention also relates to a gripper device for a robot gripper with a mechanical actuation with at least two contact elements guided linearly and in parallel in a direction of actuation, at least one mechanically activatable and/or deactivatable functional portion for objects to be gripped, and a transmission for converting a mechanical actuation power, in which the transmission comprises a shaft for transferring a rotary motion and/or a torque, and to a method for operating gripper devices of this kind, wherein a gripper device is initially selected, then picked up from a predetermined position, then used and subsequently deposited at a predetermined position.

Provided is an attaching/detaching structure that operates reliably with simple operation. The attaching/detaching structure attaches/detaches a second connecting member (4) to/from a first connecting member (3). An operation chamber (8) formed in a base member (5) of the second connecting member (4) is connected to the outside of the base member (5) via an insertion hole (7) opened to a seating surface (6) of the first connecting member (3). Two clamp arms (10) and (11) are provided in the operation chamber (8) so as to be symmetrical around an axial center of the operation chamber (8). An engaging portion (16, 17) is formed at one end (10b, 11 b) in longitudinal direction of each of the clamp arms (10, 11). An engaging member (32) protruding from the second connecting member (4) can be inserted into the insertion hole (7). A lock portion (34) in which the engaging portions (16, 17) can be engaged is formed in the engaging member (32).

A slim and long multifunctional gripping mechanism has a bending- and torsion-resistant structure, on which several finger, suction, magnetic head and other mechanisms for a multitude of tasks are arranged. The gripper arm is composed in sandwich configuration of several cages placed on top of each other, like a multi-stage tower. The individual cages consist of two plates in parallel in lightweight construction, with their mutual distance being ensured by several rods, spokes, wires, ropes and strings. Most of the drives are contained within the first cage after the flange. From that position, all mechanisms participating in the action of the gripper are driven by rods, shafts, ropes, chains or belts traversing the cages. Further cages are used to attach and accommodate the components of finger mechanisms. Movable cages are used as drives for finger, suction or magnetic head mechanisms. Several finger mechanisms perform a different task each.

Pick and place device for an apparatus for filling and closing articles in particular, containers, comprising a robotic arm, a free end of which carries a gripper formed by two claws arranged opposite each other and movable towards and away from each other so as to open and close the gripper. Each claw defines a first jaw configured to form with the first opposite first jaw a first gripper for gripping a closing element designed to be applied onto an article and a second jaw configured to form, with the opposite second jaw a second gripper for gripping the article.

Pick and place device for an apparatus for filling and closing articles in particular, containers, comprising a robotic arm, a free end of which carries a gripper formed by two claws arranged opposite each other and movable towards and away from each other so as to open and close the gripper. Each claw defines a first jaw configured to form with the first opposite first jaw a first gripper for gripping a closing element designed to be applied onto an article and a second jaw configured to form, with the opposite second jaw a second gripper for gripping the article.

The present technology describes systems and methods for power coupling of a tractor-trailer system. The technology may include a robotic arm, an end effector, a coupling tool, and a tool resting rack. An electrical outlet on a trailer may be coupled with a tool under control of the end effector and positioning of the robotic arm. The end effector may include a housing, a motor, a clutch, and a drive shaft. A tool coupled to the end effector may include an electro-mechanical (EM) coupler. The EM coupler may include a housing, an electric plug, a lid lifter, a lead screw, and a servomotor.