Provided are systems and apparatuses for manufacturing aircraft support structures. An example robotic end effector comprises a rotatable reel with a flat strip of material wound around the reel. The end effector further includes a forming shoe including a forming surface contacting the strip of material. A first end of the forming surface corresponds to a start shape and a second end of the forming surface corresponds to an end shape. As the strip of material passes from the first end of the forming surface to the second end of the forming surface, the strip of material transitions from the first shape to the end shape and is deposited as a formed stringer ply onto an application surface. The forming shoe may further include a vacuum system to suction air through a plurality of ports along the forming surface to urge the strip of material against the forming surface.

Devices, systems, and methods for automatically exchanging a first end-effector on a robot arm with a second end-effector housed in a docking station. The first end-effector has a clamp that either engages or disengages the robot arm based upon an application of force of the robot arm onto the end-effector. The clamp has a spring loaded clip that disengages the first end-effector to allow the robot arm to move away from the released first end-effector. The robot arm is configured to automatically move to a port of a docking station housing the desired second end-effector using magnetic coils on the robot arm and the docking station to guide the robot arm.

A robot system is provided with a three-dimensional sensor which acquires three-dimensional information of an object, and a robot which includes a gripping device for gripping an object. The robot system uses first three-dimensional information which relates to a state before an object is taken out and second three-dimensional information which relates to a state after an object is taken out as the basis to acquire three-dimensional shape information of an object, and uses the three-dimensional shape information of the object as the basis to calculate a position and posture of the robot when an object is placed at a target site.

A hand mechanism including a first multi-joint finger, a second multi-joint finger, and a single-joint finger rotatable about a center of a predetermined connecting portion together with the first and second multi-joint fingers. The mechanism executes a first mode in which the respective entire fingers of the first and second multi-joint fingers are rotated in an identical direction using a connecting portion with respect to an attachment member when driven by a driving actuator, and a second mode in which a finger section other than a first predetermined finger section included in the first multi-joint finger is rotated with respect to the first predetermined finger section and a finger section other than a second predetermined finger section included in the second multi-joint finger is rotated with respect to the second predetermined finger section, when the rotation of the first and second predetermined finger sections are inhibited in the first mode.

A system for dismantling a pallet includes a feed system configured to convey the pallet along a direction of travel. The feed system has a measuring station and a staging area. The measuring station is configured to obtain dimensions of the pallet. A saw is configured to dismantle the pallet. A manipulator includes a robotic arm. The manipulator is configured to move the pallet from the staging area to the saw for dismantling.

The invention relates to an end effector for a manipulator, wherein the end effector interacts with a workpiece, wherein at least one carrier, configured in particular as a carrier plate, for a tool arrangement is provided, and wherein the tool arrangement serves to interact with the workpiece. It is proposed that the carrier is formed at least in part from a deformable material, in particular from an elastically deformable material, and that the carrier is assigned an actuating arrangement, by way of which the carrier is deformable and thus the tool arrangement is orientable in space.

Devices, systems, and methods for automatically exchanging a first end-effector on a robot arm with a second end-effector housed in a docking station. The first end-effector has a clamp that either engages or disengages the robot arm based upon an application of force of the robot arm onto the end-effector. The clamp has a spring loaded clip that disengages the first end-effector to allow the robot arm to move away from the released first end-effector. The robot arm is configured to automatically move to a port of a docking station housing the desired second end-effector using magnetic coils on the robot arm and the docking station to guide the robot arm.

A method and system for piece-picking or piece put-away within a logistics facility. The system includes a central server and at least one mobile manipulation robot. The central server is configured to communicate with the robots to send and receive piece-picking data which includes a unique identification for each piece to be picked, a location within the logistics facility of the pieces to be picked, and a route for the robot to take within the logistics facility. The robots can then autonomously navigate and position themselves within the logistics facility by recognition of landmarks by at least one of a plurality of sensors. The sensors also provide signals related to detection, identification, and location of a piece to be picked or put-away, and processors on the robots analyze the sensor information to generate movements of a unique articulated arm and end effector on the robot to pick or put-away the piece.

A robotic arm suction cup capable of eliminating negative pressure is provided. A robotic arm is provided with a first suction cup and a second suction cup of unequal length. Each of the first and second suction cups is connected with a Y-shaped tube. An end of the Y-shaped tube is connected with a communication tube. The communication tube is connected with a vacuum pump. Another end of the Y-shaped tube is connected with a pressure detection tube. A distal end of the pressure detection tube is connected with a pressure detector. The first and second suction cups are not coplanar, and can effectively eliminate the negative pressure between the first and second suction cups and a playing card rapidly, so that the playing card can be separated from the first and second suction cups easily for the game to go on smoothly.

A robotic attacher retrieves a preparation cup from an equipment area located behind a dairy livestock and attaches and detaches the preparation cup to the teats of the dairy livestock in sequence. The sequence comprises attaching and detaching the preparation cup to the left front teat, the right front teat, the right rear teat, and the left rear teat.