A control device for controlling driving of a robot having a force detection unit includes a processor which, when causing the robot to carry out work a plurality of times, performs force control on the robot based on an output from the force detection unit and teaches the robot a first position, in a first round of the work, and which, in a second round of the work, performs position control on the robot based on first position data about the first position acquired in the first round of the work and causes a predetermined site of the robot to move to the first position.

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.

A robot includes: a restricting member configured to restrict a horizontal movement of a predetermined workpiece; and a workpiece moving member configured to generate an action for horizontally moving the workpiece. The controller performs a control operation of positioning the workpiece at a stop position in such a manner that: based on predetermined size information of the workpiece and preset stop position information of the workpiece, the restricting member is positioned at a predetermined restricting position included in the stop position for the workpiece, and the workpiece moving member acts on the workpiece and is moved toward the restricting position to horizontally move the workpiece; and the workpiece is brought into contact with the restricting member.

A robot system comprises a first robot which supports a suspending jig for suspending a workpiece, a second robot which supports a hand, and a control device which performs cooperative control for causing the first robot and the second robot to operate cooperatively. The hand grasps the workpiece at a portion which is lower than a mating portion of the workpiece. In the robot system, the control device performs cooperative control so that the workpiece is conveyed while a condition in which the hand grasps the article is maintained.

A processing method is for performing a processing with respect to a processing object in at least one field among biochemistry, biology, and biotechnology. The processing method includes transferring, using at least one arm of a robot configured to perform the processing, a container to a mover with the processing object attached on an inner surface of the container. The processing object is moved, using the mover, to a predetermined position on the inner surface of the container. The processing is performed, using a pipette mounted on the arm, with respect to the processing object at the predetermined position.

An operation portion elevates or lowers imaging units of a robot in response to the user's operation of the operation portion, and when the robot is moved from a first work stand to a second work stand which have different heights, a control unit determines whether the difference between the height of the imaging units before the moving of the robot and the height of the second work stand is present in a predetermined range, and when the control unit determines that the difference is not present in the predetermined range, a display unit controls a display device to display information that instructs a user to change the height of the imaging units via the operation portion.

A dual-arm robot system includes a controller configured or programmed to determine whether or not interference determination targets interfere with each other based on whether or not three-dimensional models generated with a plurality of portions including at least a hand among the hand, a horizontal link, and a body as the interference determination targets overlap each other.