A monitoring system, a monitoring device, and a monitoring method that can facilitate designing of a working environment are provided. Positions of a worker and a robot in a three-dimensional space are specified, at least one protection area to secure safe work of the worker and the robot is set, whether at least one of the worker and the robot intrudes into the protection area is determined, the motion of the robot is limited when at least one of the worker and the robot intrudes into the protection area, a protection area for executing the determination is being switched from multiple set protection areas, and it is possible to set the protection area when the worker works in a common area in which a work area of the worker and a work area of the robot overlap and set the protection area when the robot works in the common area.

A control system (100) for a functional section (I, II, III) of a paper processing device (140). The control system (100) has at least one safety-monitoring camera (110, 120, 130) which is arranged in the functional section (I, II, III) such that a functional region of the functional section (I, II, III) can be captured by the safety-monitoring camera (110, 120, 130). An operating unit (101) of the system (100) is designed to operate the functional section (I, II, III), and image data of the at least one safety-monitoring camera (110, 120, 130) can be selected by the operating unit (101). A display unit (103) is configured to display the selected image data such that a user allows or blocks the operation of the functional section (I, II, III) based on the displayed image data. A safety device (102) is coupled to the safety-monitoring camera (110, 120, 130) and the operating unit (101), and the safety device (102) receives image data of the safety-monitoring camera (110, 120, 130). The safety device (102) is configured such that the safety device (102) allows or blocks the operation of the functional section (I, II, III) by means of the operating unit (101) on the basis of the received image data of the safety-monitoring camera (110, 120, 130).

A control system for operation of an industrial machine includes a processor and a tangible, non-transitory, computer-readable memory communicating with the processor. The tangible, non-transitory computer-readable memory includes instructions that, in response to execution by the processor, cause the processor to perform operations including: receiving image data from an imaging device that monitors an image zone around the industrial machine, and analyzing the image data. The processor further performs operations including determining, based upon the analyzing, that the control system is functional, determining, based upon the analyzing, that the image data includes at least one of a predefined color, a predefined pattern, and a predefined shape, and transmitting a proximity signal to at least one relay module coupled between the processor and the industrial machine to halt operation of the industrial machine.

A control system for monitoring operation of an industrial machine includes a processor and a tangible, non-transitory, computer-readable memory communicating with the processor. The tangible, non-transitory computer-readable memory includes instructions that, in response to execution by the processor, cause the processor to perform operations including: receiving image data from an imaging device that monitors an image zone around the industrial machine, analyzing the image data, generating, based upon the analyzing, operational data associated with the industrial machine, and transmitting the operational data to a display that is communicatively coupled to the control system.

A monitoring system, a monitoring device, and a monitoring method that can facilitate designing of a working environment are provided. Positions of a worker and a robot in a three-dimensional space are specified, at least one protection area to secure safe work of the worker and the robot is set, whether at least one of the worker and the robot intrudes into the protection area is determined, the motion of the robot is limited when at least one of the worker and the robot intrudes into the protection area, a protection area for executing the determination is being switched from multiple set protection areas, and it is possible to set the protection area when the worker works in a common area in which a work area of the worker and a work area of the robot overlap and set the protection area when the robot works in the common area.

The invention relates to a method of setting a plurality of part regions of a desired protected zone, in which

a) the positions of a plurality of monitoring units are detected, with each monitoring unit detecting a detection zone;
b) a maximum size of each detection zone is determined;
c) the desired protected zone is fixed in a graphical user interface;
d) the part regions to be monitored by the respective monitoring units are fixed with reference to the positions of the monitoring units, to the maximum size of the detection zones and of the desired protected zone; and
e) the part regions are assigned to the respective monitoring units.

A system for the securing of a load handling environment of load handling kinematics (30) in a changing working environment includes an environment sensing unit, which is designed to acquire data of the load handling environment and an environment monitoring unit that is in an operational connection with the environment sensing unit. The environment monitoring unit is designed to analyze the data so that an open space (7) surrounding a load to be handled, a work space (12, 13, 14, 60) defined by a movement space of the load handling kinematics (30) and a process space (40, 50) is determined by addition of the work space (12, 13, 14, 60) and a distance space. The environment monitoring unit is configured to at least partly monitor the distance space and/or the process space (40, 50).