Abstract: A method for monitoring a payload-handling robot assembly having at least one robot includes identifying a robot-handled payload arrangement on the basis of a current position of the robot assembly relative to a specified change position of the robot assembly. In another aspect, a robot assembly includes at least one robot, a monitoring apparatus configured to determine a current position of the robot assembly and to identify a robot-handled payload arrangement on the basis of the current position of the robot assembly relative to a specified change position of the robot assembly, and a payload receptacle for receiving a plurality of different payloads. The robot is configured for handling the plurality of payloads in an alternating manner.

Abstract: A method for verifying the assignment of a drive to a control device of an industrial robot. A drive, comprising at least one actuator and a motion sensor, is assigned to one of the axles of the robot. The assignment is verified by outputting a suitable test signal from the control device to the drive, and comparing the output test signal with motion signals generated by the motion sensor.

Abstract: A method for operating and/or monitoring a machine, in particular, a multiple axis robot, includes determining whether an outer border of a first spatial area and an outer border of a second spatial area intersect each other, and detecting a penetration of the first spatial area by the second spatial area, in the event that the two outer borders intersect each other, wherein one of the two spatial areas is machine-fixed.

Abstract: The invention relates to a method or a system for the dependable stopping of axes of an industrial robot. The industrial robot comprises a control device (501, 502), power electronics (201, 202, 203) and a DC source (300), as well as at least one axis (700), which is assigned to an electric motor (100) and to a mechanical brake (600). In order to stop the axis a direct current is supplied by the DC source in at least one motor phase of the motor, which generates a braking torque.

Abstract: A method for operating and/or monitoring a machine, in particular, a multiple axis robot, includes determining whether an outer border of a first spatial area and an outer border of a second spatial area intersect each other, and detecting a penetration of the first spatial area by the second spatial area, in the event that the two outer borders intersect each other, wherein one of the two spatial areas is machine-fixed.

Abstract: A method for verifying the assignment of a drive to a control device of an industrial robot. A drive, comprising at least one actuator and a motion sensor, is assigned to one of the axles of the robot. The assignment is verified by outputting a suitable test signal from the control device to the drive, and comparing the output test signal with motion signals generated by the motion sensor.

Abstract: The invention relates to a method or a system for the dependable stopping of axes of an industrial robot. The industrial robot comprises a control device (501, 502), power electronics (201, 202, 203) and a DC source (300), as well as at least one axis (700), which is assigned to an electric motor (100) and to a mechanical brake (600). In order to stop the axis a direct current is supplied by the DC source in at least one motor phase of the motor, which generates a braking torque.

Abstract: A method for monitoring a payload-handling robot assembly having at least one robot includes identifying a robot-handled payload arrangement on the basis of a current position of the robot assembly relative to a specified change position of the robot assembly. In another aspect, a robot assembly includes at least one robot, a monitoring apparatus configured to determine a current position of the robot assembly and to identify a robot-handled payload arrangement on the basis of the current position of the robot assembly relative to a specified change position of the robot assembly, and a payload receptacle for receiving a plurality of different payloads. The robot is configured for handling the plurality of payloads in an alternating manner.