A heat press includes a base, a handle, a controller, a heater arm, a pressure link, a lower platen, and an upper platen. The handle is pivotally coupled to the base. The controller is integrally formed with the handle. The heater arm is pivotally coupled to the base. The pressure link is pivotally coupled to the handle and the heater arm. The lower platen is connected to base. The upper platen is connected to the heater arm. A surface of the upper platen is separated from a surface of the lower platen in a first position, and the surface of the upper platen is in contact with the surface of the lower platen in a second position.

A method is provided for operating a device that is usable for printing the respective lateral surface of hollow objects. The device comprises at least one mandrel wheel for holding the hollow objects on projecting expanding mandrels, and a transfer wheel for transporting the hollow objects, which transfer wheel is arranged downstream of the mandrel wheel in a transport direction of the hollow objects. The mandrel wheel and the transfer wheel are each rotatably arranged in a laterally offset manner, with respect to one another, in two different planes that are parallel to one another. Hollow objects, which are printed during ongoing printing production, are transferred from the work arbors of the mandrel wheel to the transfer wheel. During a modification of the device, from a first production of hollow objects having a first height, to a second production of hollow objects having a second height, a lateral offset between the mandrel wheel and the transfer wheel is adapted to the height of the hollow objects to be printed in the second production by automatically changing the axial position of the transfer wheel relative to the position of the mandrel wheel.

A method is provided for operating a device that is usable for printing the respective lateral surface of hollow objects. The device comprises at least one mandrel wheel for holding the hollow objects on projecting expanding mandrels, and a transfer wheel for transporting the hollow objects, which transfer wheel is arranged downstream of the mandrel wheel in a transport direction of the hollow objects. The mandrel wheel and the transfer wheel are each rotatably arranged in a laterally offset manner, with respect to one another, in two different planes that are parallel to one another. Hollow objects, which are printed during ongoing printing production, are transferred from the work arbors of the mandrel wheel to the transfer wheel. During a modification of the device, from a first production of hollow objects having a first height, to a second production of hollow objects having a second height, a lateral offset between the mandrel wheel and the transfer wheel is adapted to the height of the hollow objects to be printed in the second production by automatically changing the axial position of the transfer wheel relative to the position of the mandrel wheel.

An image control system for a can decorator includes an electronic can decorator control assembly, a mechanical can decorator control assembly and a number of sensors. The electronic can decorator control assembly includes a programmable logic circuit and a number of modules. The mechanical can decorator control assembly is structured to be, and is, operatively coupled to at least one of an ink fountain ink application adjustment assembly, a ductor roll assembly duty cycle adjustment assembly, a printing plate cylinder assembly axial adjustment assembly or a printing plate cylinder assembly circumferential adjustment assembly. The electronic can decorator control assembly is structured to be operatively coupled to the mechanical can decorator control assembly. Each sensor in the number of sensors is structured to measure a can body applied image characteristic and to generate an image signal including data representing the can body applied image characteristic.

A printing parameter acquisition device includes an acquisition section and an output section. The acquisition section acquires a printing condition for specifying a member to be used when solder is printed on a board. The output section outputs a printing parameter which is associated with a printing condition corresponding to a printing condition acquired by the acquisition section and of which a reliability is a predetermined level or more, from a database that stores the printing condition, a printing parameter used for controlling driving of a printer, and the reliability of the printing parameter including inspection information on a print state of the solder inspected by a printing inspector in association with each other.

A printed matter foil stamping system includes: a printing device that forms a toner layer or an ink layer on a paper sheet in accordance with print data; and a foil stamping device that performs foil stamping on the toner layer or the ink layer, wherein the printing device or a control device that controls the printing device includes a hardware processor that generates print data capable of forming a portion in which a thickness of the toner layer or the ink layer is relatively large and a portion in which the thickness is relatively small in an area in which foil stamping is to be performed, and, in accordance with the print data, the printing device forms the toner layer or the ink layer having a portion with a relatively large thickness and a portion with a relatively small thickness on the paper sheet.

A method for an automated production of printing substrates on at least one printing machine having at least one computer, includes feeding print jobs to the computer in a printer job queue. The computer analyzes the print jobs in the printer queue in terms of defined minimum numbers before the print jobs are processed and the print jobs are not processed on the printing machine until a threshold of a defined minimum number is attained.

A control apparatus of a web processing system that executes predetermined processing onto a web continuously existing along a movement passage, in which the web processing system includes a rotating body that rotates while being in contact with the web, and the control apparatus controls a rotation speed of the rotating body such that a circumferential speed of the rotating body at a contact surface with the web matches a transport speed of the web.

A method for an automated production of printing substrates on at least one printing machine having at least one computer, includes feeding print jobs to the computer in a printer job queue. The computer analyzes the print jobs in the printer queue in terms of defined minimum numbers before the print jobs are processed and the print jobs are not processed on the printing machine until a threshold of a defined minimum number is attained.

A printing parameter acquisition device includes an acquisition section and an output section. The acquisition section acquires a printing condition for specifying a member to be used when solder is printed on a board. The output section outputs a printing parameter which is associated with a printing condition corresponding to a printing condition acquired by the acquisition section and of which a reliability is a predetermined level or more, from a database that stores the printing condition, a printing parameter used for controlling driving of a printer, and the reliability of the printing parameter including inspection information on a print state of the solder inspected by a printing inspector in association with each other.