A method for actuating a manipulator system by means of a portable end device, a corresponding portable end device, and a robot system. The portable end device includes a 3-D camera that is a plenoptic camera. A three-dimensional image is acquired by means of the 3-D camera of the portable end device of at least part the manipulator system to be actuated. The image identifies at least one actuatable object in the manipulator system. A task is selected for the identified object to actuate. By selecting the identified actuatable object, the object is actuated to perform the task.

A teach pendant includes an input unit and allowing teaching of operation of a robot by an input to the input unit, the teach pendant further includes a measurement reference surface which comes into surface contact with a measured surface of the robot, a tilt sensor whose position is fixed with respect to the measurement reference surface, and an output means which outputs a detection value of the tilt sensor to a control device of the robot in a state where the measurement reference surface is in surface contact with the measured surface and when a predetermined input operation is performed on the input unit or a contact detection sensor for detecting surface contact between the measurement reference surface and the measured surface detects the surface contact.

Provided is a robot center-of-gravity display device including: a specification setting unit that sets specifications including the weights, center-of-gravity positions, and dimensions of components of respective shafts; a posture setting unit that sets position information of the respective shafts; a robot-image generating unit that generates a three-dimensional model image of the robot in a state where the respective shafts are located at the positions indicated by the position information, based on the set position information of the respective shafts and the specifications of the components; a center-of-gravity-position calculation unit that calculates the center-of-gravity position of the overall robot, based on the set position information of the respective shafts and the specifications of the components; an image combining unit that superimposes an indication showing the center of gravity of the overall robot on the three-dimensional model image at the calculated center-of-gravity position; and a display unit that displays the generated image.

A non-transitory computer-readable storage medium stores a computer program that controls a processor to execute (a) processing of displaying an operation window for operation of a position and an attitude of a control point for a robot arm, (b) processing of storing the position and the attitude of the control point as a teaching point according to an instruction of a user, and (c) processing of associating and storing the operation window when the instruction is received in the processing (b) with the teaching point.

The invention relates to a method and a device for operating an industrial robot by means of an operating device, and includes a graphical operator interface, such as a touch-sensitive display, the robot being connected to a robot control unit.