A remote control robot system includes a master arm, and a slave arm having a plurality of control modes of an automatic mode in which the slave arm operates based on a prestored task program and a manual mode in which the slave arm operates based on manipulation of an operator received by the master arm. The master arm includes one or more motors configured to drive joints of the master arm, and a motor actuator configured to generate a torque instruction value that operates the joints according to an external force applied to the master arm and gives drive current corresponding to the torque instruction value to the motor. The motor actuator generates, when the control mode is the manual mode, the torque instruction value so that the joints operate according to the external force while resisting a frictional force of the motor.

A robot system includes a robot main body, memory part configured to store information for causing robot main body to perform given operation, as saved operational information, motion controller configured to control operation of robot main body by using saved operational information as automatic operational information for causing robot main body to operate, and an operation correcting device configured to generate, by being operated, manipulating information for correcting operation of robot main body during operation. Motion controller controls robot main body to perform an operation corrected from operation related to automatic operational information in response to a reception of the manipulating information while robot main body is operating by using automatic operational information. Memory part is configured to be storable of corrected operational information for causing robot main body to perform corrected operation as saved operational information, when robot main body performs corrected operation.

A robot system which is capable of reducing an operator's workload and easily correcting preset operation of a robot. The robot system includes a robot main body having a plurality of joints, a control device configured to control operation of the robot main body and an operating device including a teaching device configured to teach the control device one of positional information on the robot main body and angular information on the plurality of joints so as to execute an automatic operation of the robot main body and a manipulator configured to receive a manipulating instruction from an operator to manually operate the robot main body or correct the operation of the robot main body under the automatic operation.

Robot system includes robot main body including robot arm, end effector attached to robot arm, and force sensing device detecting force applied to end effector's tip end, actual reaction-force information generator generating force-sensing information according to force detected by force sensing device, and output force-sensing information as actual reaction-force information, virtual reaction-force information generator outputting force component detected by force sensing device, that has a magnitude proportional to time differentiation value, as virtual reaction-force information, adder configured to output information obtained by adding actual reaction-force information outputted from actual reaction-force information generator to virtual reaction-force information outputted from virtual reaction-force information generator, as synthetic reaction-force information, operating device outputting, when operator is made to sense a force according to synthetic reaction-force information outputted from adder and operator operates, operating information according to operation, and motion controller controlling robot main body's operation according to operating information outputted from operating device.

In a remote control robot system including a plurality of slave arms, slave arm has a plurality of control modes of an automatic mode in which slave arm is operated based on a task program, a manual mode in which slave arm is operated based on an operator's operation received by a master device, and correctable automatic mode in which slave arm is operated based on task program while operation is sequentially corrected by the operator's operation received by master device. Operation sequence information includes an automatic part in which slave arm performs a work in the automatic mode, and a selected part in which slave arm performs a work in one selected from plurality of control modes, and the selected parts do not overlap with each other in time among the plurality of slave arms. Based on the operation sequence information, the plurality of slave arms are operated.

A remote control robot system is provided, which includes robotic arm configured to perform a given work, remote control device for an operator to remotely manipulate operation of robotic arm, plurality of cameras configured to image the work of robotic arm, monitor configured to display a captured image that is sent, camera selecting device configured to generate, in response to receiving an operator's selection of one camera from the plurality of cameras, camera selection information for switching captured image displayed on monitor to captured image from selected camera, storage device configured to store information where operational information related to operation of robotic arm in work is associated with camera selection information, as automatic switching information, and an image processor configured to send to monitor the captured image from camera selected from plurality of cameras based on automatic switching information stored in storage device.

An information sharing system between a plurality of robot systems includes a plurality of robot systems, communicatably connected with each other through a network, and configured to be capable of presetting a given operation of a robot and repeating a correction of the operation, and a storage device, connected with the network and configured to store corrected information containing corrected operating information that is operating information for causing the robot to execute a given operation corrected in at least one of the robot systems. Each of the plurality of robot systems shares the corrected information stored in the storage device and operates the robot based on the sharing corrected information.

A robot system which includes a manipulator configured to receive a manipulating instruction from an operator, a slave arm having a plurality of joints, and a control device configured to control operation of the slave arm. The control device is configured, while the slave arm is operating at a speed equal to or higher than a first given the threshold, even when an operational instruction value for correcting the operation of the slave arm is inputted from the manipulator during an automatic operation of the slave arm, to prevent the correction of the operation of the slave arm.

A remote-control manipulator system which includes a manipulator, a slave arm installed in a workspace and configured to perform a series of works comprised of a plurality of processes, a situation information acquisition device configured to acquire situation information indicating a situation of the slave arm, an environment reproducing device configured to reproduce, in a space where the manipulator is installed, environment information relating to an environment in the workspace, and a control device. The control device is configured to cause the environment reproducing device to reproduce the environment information corresponding to the situation information outputted from the situation information acquisition device.

Remote control robot system includes a master device, slave arm having plurality of control modes including automatic and manual mode, control device configured to operate slave arm, an entering-person sensing device configured to detect entering person into operational area of slave arm, entering-person identifying information acquisition device configured to acquire entering-person identifying information for identifying whether entering person is operator who carries master device, and operation regulating device configured to regulate operation of slave arm based on information acquired from entering-person sensing device and information acquisition device. In automatic mode, operation regulating device regulates operation of slave arm when entering person is detected. In manual mode, operation regulating device allows operation of slave arm to continue when entering person is detected and entering person is operator, and regulates operation of the slave arm when entering person is other than operator.