Abstract: A method for controlling a manipulator, with the method being particularly suitable for the respecting of predetermined monitoring limits. The method operates by initiating a halting movement or a speed capping based on an identified actual override trend, and is thus suitable, in particular, for path movements by means of spline interpolation.

Abstract: An inventive programming means for programming a movement of a robot axis arrangement and a movement of at least one further robot axis arrangement is adapted to synchronize the pair of positions of the movement of the robot axis arrangement and the pairs of positions of the movement of at least one more robot axis arrangement, and while maintaining this synchronization, to specify at least another position between either one of these pairs of positions, which is not synchronized with another position of the hereby synchronized pair of positions.

Abstract: A method for the conditional stopping of at least one manipulator and a manipulator assembly. The manipulator travels along a path which has a stopping point. In order to be able to stop the manipulator at the stopping point, a braking point on the path is calculated as a function of a speed of the manipulator. If the status of a travel condition variable necessitates braking of the manipulator in the event of exceeding the braking point, the manipulator is braked.

Abstract: A method for designating and/or controlling a manipulator process for a manipulator configuration having at least one manipulator, in particular, an industrial robot, wherein the manipulator process includes a given oriented manipulator path for the manipulator configuration. The method includes designating or executing at least one action by the manipulator configuration, in particular, differently, in response to a reverse movement running counter to the oriented manipulator path, and/or a return movement running in the same direction as the oriented manipulator path.

Abstract: A method for controlling a manipulator, with the method being particularly suitable for the respecting of predetermined monitoring limits. The method operates by initiating a halting movement or a speed capping based on an identified actual override trend, and is thus suitable, in particular, for path movements by means of spline interpolation.

Abstract: A method for the conditional stopping of at least one manipulator and a manipulator assembly. The manipulator travels along a path which has a stopping point. In order to be able to stop the manipulator at the stopping point, a braking point on the path is calculated as a function of a speed of the manipulator. If the status of a travel condition variable necessitates braking of the manipulator in the event of exceeding the braking point, the manipulator is braked.

Abstract: An inventive programming means for programming a movement of a robot axis arrangement and a movement of at least one further robot axis arrangement is adapted to synchronize the pair of positions (q1—0; q1—4) of the movement of the robot axis arrangement and the pairs of positions (q2—0, q3—0; q2—5, q3—3) of the movement of at least one more robot axis arrangement, and while maintaining this synchronization, to specify at least another position (q1—2, q2—2, q2—4) between either one of these pairs of positions, which is not synchronized with another position of the hereby synchronized pair of positions.

Abstract: According to a method according to the invention for designating and/or controlling a manipulator process for a manipulator configuration (1, 2, 3) having at least one manipulator, in particular, an industrial robot, wherein the manipulator process exhibits a given oriented manipulator track for the manipulator configuration, at least one action by the manipulator configuration can be designated, or shall be executed, respectively, in particular, differently, in relation to a reverse movement running counter to the oriented manipulator track, and/or a return movement running in the same direction as the oriented manipulator track.

Abstract: The invention relates to an industrial robot (1) having a control apparatus (8), and to a method for controlling the movement of the industrial robot (1). For the purposes of the method, an instruction which is intended for controlling the industrial robot (1) is checked, an interpreted instruction is produced by interpretation of the checked instruction by means of an interpreter (13), and the interpreted instruction is stored in a temporary store (10). This process is repeated until a first keyword is detected. A data record (15) is then produced from the interpreted instructions stored in the temporary store (10), wherein the data record (15) has information relating to at least one path element of a path on which the industrial robot (1) is intended to be moved. The data record (15) is loaded into a buffer store (11), is checked by the buffer store (11) and is interpolated by means of an interpolator (14), in order to move the industrial robot (1) on the path element.

Abstract: The invention relates to an industrial robot (1) having a control apparatus (8), and to a method for controlling the movement of the industrial robot (1). For the purposes of the method, an instruction which is intended for controlling the industrial robot (1) is checked, an interpreted instruction is produced by interpretation of the checked instruction by means of an interpreter (13), and the interpreted instruction is stored in a temporary store (10). This process is repeated until a first keyword is detected. A data record (15) is then produced from the interpreted instructions stored in the temporary store (10), wherein the data record (15) has information relating to at least one path element of a path on which the industrial robot (1) is intended to be moved. The data record (15) is loaded into a buffer store (11), is checked by the buffer store (11) and is interpolated by means of an interpolator (14), in order to move the industrial robot (1) on the path element.

Abstract: According to a method according to the invention for operating an additional tool axis (Z) of a tool (2) guided by a manipulator, in particular a robot (1), a position and/or an orientation of the tool in space are defined by axis positions (q1-q6) of the manipulator axes and a position value (f) of the tool axis, are saved and/or displayed, with an automatic conversion being carried out between the position value (f) and an axis position (e) of the tool axis which brings it about.

Abstract: A process and a device for controlling the pressing force of the electrodes [of an] electrode holder driven by means of an electric motor, especially of an industrial robot, during the welding operation characterized in that the motor position is controlled or that a means for controlling the position of the electric motor is provided.

Abstract: In a method for controlling the movement of a manipulator associated with an interpretation of a given point sequence of poses (positions and orientations) by splines, the motion components are separately parameterized. Thus, marked, subsequent changes to the orientation of robot axes have no undesired effects on the Cartesian movement path of the robot. Suitable algorithms are provided for orientation control by using quaternions or Euler angles.