Pre-plating systems and related methods are disclosed. A pre-plating system includes a press, an infeed robot configured to deliver a structural member to the press, and an outfeed robot configured to remove the structural member from the press. The press is configured to secure a plate to the structural member while the structural member is held in position by at least one of the infeed robot or the outfeed robot. A pre-plating system includes a press, a transfer pedestal, a plate picking robot, and a press loading robot. The plate picking robot is configured to pick a plate from a container and position the plate on the transfer pedestal. The press loading robot is configured to transfer the plate to the press. The press is configured to press the plate into a structural member positioned within the press.

There is provided a machining system including: a machine tool that moves a table on which a plurality of works are fixed, in a two-dimensional manner, to machine the one work by driving a blade shaft in a direction orthogonal to a moving direction of the table; a robot that is disposed at a position accessible to the table of the machine tool to apply processing to the other one work fixed to the table; and a robot control unit that controls the robot so as to follow movement of the table on the basis of position information on the table.

A method for the determination of workplace transport trajectories in a multiple station press, comprises the steps of providing a set of constraints for the workplace transport trajectories, the constraints comprising at least pickup and deposit positions for a workplace in a plurality of stations of the multiple station press, providing machine properties of the plurality of stations and of at least one transfer device for transporting the workplace from a first of the plurality of stations to a second of the plurality of stations, providing information on a candidate workplace transport trajectory, simulating the plurality of stations and the at least one transfer device based on the provided information for determining whether the candidate workplace transport trajectory conforms with the provided machine parameters, and displaying the result of the determination.

A machine for producing sanitary articles includes a plurality of processing stations including automated apparatus for forming sanitary articles which advance along a machine direction. The machine includes a multi-axis industrial robot arranged to automatically clean and/or inspect the automated apparatus of the processing stations. The machine has a positive impact on sustainability.

A servo press line operation method operates a servo press line in which a servo press and a servo transfer device are disposed in a workpiece transfer direction. The servo press line operation method includes causing a transfer controller to receive a master signal that causes the servo transfer device to make a motion in synchronization with the servo press, the transfer controller controlling a motor of the servo transfer device using a motor instruction, causing the transfer controller to determine whether or not an abnormality in the master signal has occurred, and causing the transfer controller to generate the motor instruction based on a stop signal that stops the motor of the servo transfer device, instead of the master signal, when the transfer controller has determined that an abnormality in the master signal has occurred.

A numerical control system 1 comprises a numerical control device 5 for generating a machine tool command signal and a robot command signal, and a robot control device 6 for controlling the operation of a robot 3 on the basis of the robot command signal. The numerical control device 5 includes a coordinate form information management unit 524 for managing coordinate information according to a designated coordinate format that is based on a numerical control program, and a robot command signal generation unit 525 for generating the robot command signal on the basis of said coordinate information and a robot numerical control program. The robot control device 6 acquires a coordinate value on each axis of control in the designated coordinate format when the designated coordinate format is configured or changed, and transmits the same to the numerical control device 5 The coordinate form information management unit 524 updates said coordinate information using the coordinate value transmitted from the robot control device 6.