A printing system for printing on sheets of media having a non-uniform thickness profile. A user interface is controlled to instruct the operator to load a media tray with a stack of media having a specified pattern of media orientations. A media transport system picks sequential sheets of media from the media tray. A front end supplies sequential image data having orientations in accordance with the specified pattern of media orientations. A printing module sequentially prints the supplied image data on the sheets of media in accordance with the specified pattern of media orientations.

A printing system for printing on sheets of media having a non-uniform thickness profile. A user interface is controlled to instruct the operator to load a media tray with a stack of media having a specified pattern of media orientations. A media transport system picks sequential sheets of media from the media tray. A front end supplies sequential image data having orientations in accordance with the specified pattern of media orientations. A printing module sequentially prints the supplied image data on the sheets of media in accordance with the specified pattern of media orientations.

A feeding device includes a housing, a sheet feeder tray that mounts a sheet, a feeding unit which transports the sheet from the sheet feeder tray, and is detachable from a rotating shaft, and a control unit that controls rotation of the feeding unit. The feeding unit is provided in such a way as to be turnable to a feeding position to transport the sheet mounted on the sheet feeder tray and to a replacement position to enable detachment from the rotating shaft. When replacing the feeding unit, the control unit switches the position of the feeding unit to the replacement position.

A printing unit includes a support frame that is supported to face a transfer passage for a sheet; an inkjet head that is fixed to the support frame and performs printing on a printing surface of the sheet; drive bodies that are rotatably supported on the support frame on both sides of the inkjet head in a width direction of the sheet and come into contact with the printing surface of the sheet; and a drive device that drives and rotates the drive bodies.

A printing unit includes a support frame that is supported to face a transfer passage for a sheet; an inkjet head that is fixed to the support frame and performs printing on a printing surface of the sheet; drive bodies that are rotatably supported on the support frame on both sides of the inkjet head in a width direction of the sheet and come into contact with the printing surface of the sheet; and a drive device that drives and rotates the drive bodies.

Provided is a press process automation system for a metal plate using an auto-robot. The press process automation system includes a loading unit configured to provide a stack in which a plurality of metal plates are stacked in a height direction thereof, a first robot which is coupled to the metal plate disposed on the loading unit, a table unit which is disposed at a lower position than the first target position, and determines whether the number of the metal plates is one, a second robot configured to vacuum-adsorb an upper surface of the metal plate disposed on the table unit, and a press mold unit including a lower mold which is vertically disposed at a lower position than the third target position and on which the metal plate is mounted, and an upper mold which is vertically moved from above the lower mold.

Provided is a press process automation system for a metal plate using an auto-robot. The press process automation system includes a loading unit configured to provide a stack in which a plurality of metal plates are stacked in a height direction thereof, a first robot which is coupled to the metal plate disposed on the loading unit, a table unit which is disposed at a lower position than the first target position, and determines whether the number of the metal plates is one, a second robot configured to vacuum-adsorb an upper surface of the metal plate disposed on the table unit, and a press mold unit including a lower mold which is vertically disposed at a lower position than the third target position and on which the metal plate is mounted, and an upper mold which is vertically moved from above the lower mold.

The present invention is directed to a technique for reducing communication errors in facsimile transmission while restraining an increase in the temperature of a motor during execution of jobs of different types when a temperature reduction control is executed.

The present invention is directed to a technique for reducing communication errors in facsimile transmission while restraining an increase in the temperature of a motor during execution of jobs of different types when a temperature reduction control is executed.

A paper sheet handling apparatus includes a calculation unit and a determination unit. The calculation unit calculates, on the basis of a thickness of a paper sheet that passes through a conveyance path and a contour of the paper sheet, a total area of a cumulative area of overlapping regions of the paper sheet in the contour and an area of a non-overlapping region of the paper sheet in the contour. The determination unit determines the number of the paper sheets on the basis of the calculated total area.