A curl straightening method applied upon printing on a spread medium in a printing step, the method being provided with a first spreading step of spreading the medium fed out from a medium roll between a feeding step of feeding the medium from the medium roll in which the medium made of a textile fabric and having a predetermined width is wound on a roll core, and the printing step of printing on the medium fed out from the medium roll, and in the first spreading step, spreading of the medium is performed in a state where the medium fed out from the medium roll is stretched on an outer circumference of a first spreader roller rotating about a pivotal axis parallel to a pivotal axis of the medium roll, and the medium has its surface side with a curl stretched on the outer circumference of the first spreader roller.

The present disclosure discloses print-medium buffering systems that have a set of print-medium-buffer flags (25) which, in one position, maintain a print medium in a guided path (G) as it passes through a print-medium buffer zone. A drive mechanism (30) is provided to move the set of print-medium-buffer flags away from the guided path, to a second position.

The present disclosure discloses print-medium buffering systems that have a set of print-medium-buffer flags (25) which, in one position, maintain a print medium in a guided path (G) as it passes through a print-medium buffer zone. A drive mechanism (30) is provided to move the set of print-medium-buffer flags away from the guided path, to a second position.

A folding apparatus of an offset web-fed printing press includes a first transport means formed as belt conveyor system for a web-shaped printing material and configured such that belts thereof can be driven at a speed, which corresponds to the speed of the printing material, and a first cutting means arranged in the region of the first transport means configured such that it severs the printing material in a format-variable manner in those sections not covered by the belts of the first transport means, and a second transport means arranged downstream from the first transport means and formed as belt conveyor system, the belts of which are offset relative to the belts of the first transport means transversely to the transport direction of the printing material, configured such that the belts thereof can be driven at a speed larger than the speed of the belts of the first transport means.

A calendering unit for a printing device is described that efficiently and gently matches the gloss of the printed and unprinted partial regions of the recording medium by calendering a recording medium printed to by the printing device.

A calendering unit for a printing device is described that efficiently and gently matches the gloss of the printed and unprinted partial regions of the recording medium by calendering a recording medium printed to by the printing device.

Systems and methods for laser assisted deposition of a material includes a printing unit configured to print individual dot-like portions of a material from a donor substrate onto a receiving substrate, and a vacuum shuttle configured to be positionable in two or three dimensions between the printing unit and the donor substrate and to engage the donor substrate upon application of a vacuum to the vacuum shuttle. The printing unit may include a coating system and a laser. The vacuum shuttle includes a vacuum channel about its periphery and an open window through which the laser irradiates the donor substrate. The vacuum channel is fluidly coupled to a vacuum inlet for receiving a vacuum suction, thereby to engage the donor substrate and hold it taught against the bottom of the vacuum shuttle in operation. The vacuum shuttle may also include one or more distance measuring sensors and fiducial markers.