The invention relates to a robotic system with at least one robotic arm and a control unit, which is designed so that it can preset at least one predefined operation that can be carried out by the robotic system. In addition, the robotic system comprises at least one input device attached to the robotic arm which is designed so that the predefined operations of the robotic system can be parameterized by means of the input device. In this case, the input device is designed so that it can provide a user-directed feedback to a user of the robotic system when setting the execution of operations, the logical sequence of the operations and/or parameterizing the predefined operations for the robotic system.

A robot teaching device includes a display device, a microphone, a voice recognition section configured to perform voice recognition processing on a voice signal and output character information representative of the voice, a correspondence storage configured to store information associating each of a plurality of types of operating screens with a recognition target word according to robot teaching, a recognition target word extracting section configured to extract, from the information stored in the correspondence storage, one or more recognition target words having a predetermined relevance to a word representative of the character information, and a screen list display unit configured to generate, on the basis of the information stored in the correspondence storage, an image showing a list of one or more operating screens corresponding to one or more recognition target words thus extracted, and display the image on the display device.

A teaching apparatus that is connected to a control apparatus controlling a welding robot and outputs a command intended for the welding robot to the control apparatus is provided. The teaching apparatus includes a welding-parameter-manipulating portion provided on a front face and accepting an operation of changing a setting that defines a movement, of the welding robot, an enabling switch provided on a back face and accepting an operation of changing a state of electrification of the welding robot, and a robot-manipulating portion provided on the back face and accepting an operation of executing the movement of the welding robot. The welding-parameter-manipulating portion is positioned on a left side, in front view, with respect to the center, and the enabling switch and the robot-manipulating portion are positioned on a right side, in rear view, with respect to the center.

A machine tool, which has a tool magazine for storing multiple tools and is for machining a workpiece with a tool held on a main shaft by moving the main shaft relative to the workpiece, wherein the machine tool is provided with: multiple feed shafts for moving the tool relative to the workpiece; a tool magazine drive motor for driving the tool magazine; and a manual pulse generator, which is for sending a positive or negative command pulse to the multiple feed shafts or tool magazine drive motor, the manual pulse generator being provided with a selection switch for selecting one of the multiple feed shafts or the tool magazine drive motor as the destination to which the command pulse is to be sent.

A machine learning device of a controller observes, as state variables expressing a current state of an environment, teaching position compensation amount data indicating a compensation amount of a teaching position in control of a robot according to the teaching position and data indicating a disturbance value of each of the motors of the robot in the control of the robot, and acquires determination data indicating an appropriateness determination result of the disturbance value of each of the motors of the robot in the control of the robot. Then, the machine learning device learns the compensation amount of the teaching position of the robot in association with the motor disturbance value data by using the observed state variables and the determination data.

A robotic navigation system includes a handheld navigation unit associated with a frame of reference. The handheld navigation unit is moveable with respect to a plurality of axes and is configured to send movement signals based on movement of the handheld navigation unit. A controller is configured to receive the movement signals from the handheld navigation unit and determine control signals for the robot. The control signals are configured to incrementally move the robot with respect to a point of interest removed from the robot. The point of interest is removed from a fixed point on the robot as defined by assigned coordinates. The controller is further configured to reassign the assigned coordinates following each incremental movement of the robot.

An emergency stop system for suppressing the possibility that an emergency stop state of a machine is released due to the shock of the falling of an emergency stop switch that stops an operation of the machine in an emergency is provided. The emergency stop system includes: a fall detection unit that detects falling of an emergency stop switch on the basis of a detection value obtained by an acceleration sensor; a shock detection unit that detects shock after the falling of the emergency stop switch on the basis of the detection value of the acceleration sensor; a switch state detection unit that detects an ON-OFF state of the emergency stop switch; and a signal output unit that outputs an emergency stop signal to the machine regardless of the ON-OFF state of the emergency stop switch when the switch state detection unit has detected switching of the ON-OFF state of the emergency stop switch within a predetermined period after the fall detection unit detected the falling and the shock detection unit detected the shock.

A control system for technical installations includes at least one electronic manual operator-control instrument that can be carried and used mobilely by an operator-control person for influencing and observation of the control system or a connected technical installation. The instrument has a wireless communication interface and a communication interface established via a connecting cable. At least one safety switching element actuated by the person on the manual operator-control instrument can at least terminate potentially hazardous control commands or movement sequences. The hard-wired communication interface includes a contact-based plug interface on the instrument having a first coupling element on the instrument and a second coupling element coupled and decoupled as needed relative to the first coupling element. At least one termination indicator on or in the connecting cable directly in or near the second coupling element can be sensed electronically by a termination-indicator detector.

A teach apparatus (2) includes a tablet (3) and a safety operation device (4) which are attachable to and detachable from each other. The safety operation device (4) includes at least one of an emergency stop switch (41a), a dead-man switch (41b), and a mode switch (41c). The tablet (3) is configured to monitor the ON/OFF state of at least one of the first to third switches (41a) to (41c) of the safety operation device (4).

An industrial robot system including a dual arm robot having two arms independently movable in relation to each other, and a hand-held control device for controlling the robot and provided with a visual display unit for displaying information about the arms. The control device is provided with a measuring device for measuring the orientation of the control device, and the control device is configured to display information about one of the arms in a first area on the display unit and to display information about the other arm in a second area on the display unit, and to change the positions of the first and second areas in dependence on the orientation of the control device in relation to the robot so that the positions of the first and second area on the display unit reflects the orientation of the control device in relation to the positions of the arms.