A film suction mechanism is provided which can prevent a film-like member from warping or sagging for reliable suction, handing over, or the like of the film-like member. A film suction mechanism of the present invention is a film suction mechanism for processing or transferring a flexible film-like member. The film suction mechanism includes a suction unit having a function of attaching the film-like member thereto by suction and an air nozzle having a function of blowing pressurized air onto a first surface of the film-like member. The suction unit includes a plurality of suction pads. The suction unit is capable of attaching a second surface of the film-like member thereto by suction while the pressurized air is blown onto the first surface of the film-like member.

A workpiece conveying apparatus includes: two SCARA robots each including a first arm supported on a raising and lowering frame through intermediation of a first joint, a second arm supported through intermediation of a second joint, a first arm driving mechanism configured to drive the first arm to rotate, and a second arm driving mechanism configured to drive the second arm to rotate; a raising and lowering mechanism for the two SCARA robots; a cross arm configured to couple distal ends of the second arms; a workpiece holding unit configured to releasably hold the workpiece; shifting devices provided to the cross arm and configured to shift a drive-side shifting member; and sliding devices provided to the workpiece holding unit and configured to shift the tool holder by an operation of causing the driven-side shifting member to be driven by the drive-side shifting member.

A robotically-operated gripping device is provided and includes a frame assembly, a vacuum device, a clamping device, and a robotic arm. The vacuum device is connected to the frame assembly and configured to selectively attach to and position at least a portion of an object. The clamping device is connected to the frame assembly and provided for selectively clamping the object attached to the vacuum device. The robotic arm is connected to the frame assembly and provided for selectively positioning the vacuum device and the gripping device.

A method of teaching a robot, the robot including a first and second end effector that are mounted to a robotic arm wrist, the first and second end effector being rotatable about a same rotational axis independently of each other. The method includes: a first step of, in a state where rotational positions of the first and second end effectors about the rotational axis coincide with each other, attaching a relative motion preventing device to the first and second end effector, the relative motion preventing device preventing the first and second end effector from moving relative to each other; and a fourth step of generating a teaching point of the second end effector based on: a teaching point of the first end effector; and rotational position information about the first and second end effector that are stored in a storage unit in association with each other in a third step.

An end-of-arm-tool attachment deploys gripper arms to help stabilize picked items. The arms rotate around the lower body of the tool and, depending on the size of the item, will either support the item from below or help reduce swinging by applying pressure to the sides/top. When not in use, the arms are stowed on the upper body of the tool to minimize potential for collision and to provide a smaller profile for maneuverability.

A gripping equipment for lifting apparatuses of the type comprising: a rigid supporting framework which is adapted to be fixed/attached to the lifting apparatus; one or more manually-operated gripping members that are firmly fixed on said rigid supporting framework and are adapted to grasp and hold a specific object to be moved; a revolving joint which is interposed between the rigid supporting framework and the lifting apparatus and which allows said rigid supporting framework to rotate with respect to the lifting apparatus about a substantially vertical, first rotation axis; and at least one adjustment assembly which is interposed between the revolving joint and the rigid supporting framework or between two rigid elements of said rigid supporting framework and allows the position/orientation of said rigid supporting framework with respect to the vertical to be manually adjusted.

A robotic surgical tool for a robotic instrument driver that includes a handle having a first end, at least one spline rotatably coupled to the handle and extending proximally from the first end, a carriage movably mounted to the at least one spline and including a first layer and a second layer operatively coupled to the first layer. At least one spline extends through a portion of at least one of the first and second layers and the carriage translates along the at least one spline. The robotic surgical tool also includes an elongate shaft extending from the carriage and penetrating the first end, the shaft having an end effector arranged at a distal end thereof and an activating mechanism coupled to one or both of the first and second layers and actuatable to operate a function of the end effector.

An end of arm tool includes a rotating plate with a first slot and an end effector inserted through the first slot with a clearance to move the end effector within the first slot. Further, the rotating plate is adjusted to alter an orientation of the end effector to position the end effector at one of a plurality of different angles based on characteristics of object to be handled by the end effector.

To substantially eliminate torsional freeplay in a robotic tool changer having a ball-lock coupling mechanism, scallop-like features in the form of cross-contact recesses are formed in at least one of, and preferably both of, a bearing race in a tool assembly at the points of contact of rolling members, and in the opposing inner surfaces of bores containing the rolling members in a master assembly. The cross-contact recesses are sized and shaped to receive a rolling member, but have a central void, or channel, perpendicular to the rolling member's motion in torsional freeplay, which does not contact the rolling member. The cross-contact recess contacts the rolling member at contact areas on either side of the central void. These contact areas impart two separate contact forces on the rolling member, both angled toward the center of the rolling member and hence operative to prevent side-to-side movement, or rocking, of the rolling member within the cross-contact recess, and hence substantially eliminating torsional freeplay of the robotic tool changer.

A three-finger mechanical gripper system is provided, which includes a torque sensor, a three-finger mechanical gripper, an image capturing module and a controller. The three-finger mechanical gripper is connected to the torque sensor. The controller is connected to the torque sensor, the three-finger mechanical gripper and the image capturing module. The image capturing module captures the image of a training object. The controller controls the three-finger mechanical gripper to grip the training object by a plurality of gripper postures respectively and calculates the torque information of each gripper posture according to the measured values of the torque sensor. Then, the controller performs a training process according to the image of the training object and the torque information of the gripper postures in order to obtain a training result of the training object.