Articles being processed are engaged on respective piece-holder members and moved along a transfer line. A metallization station operating along the transfer line deposits a surface metallization layer on each of the articles carried by the piece-holder members. A lacquering station operating along the transfer line downstream of the metallization station deposits a transparent protective layer on the metallization layer of each article carried by the respective piece-holder member. At least one printing station operatively located downstream of the metallization station applies at least one graphic pattern printed on each article carried by the respective piece-holder member. The printed graphic pattern is covered by the protective layer, or printed on it.

A medium flattening method, when a medium is transported by being adhered to an adhesive layer which is on a surface of a transport belt, includes detecting a presence or absence of floating being generated in the medium on the transport belt using a sensor, executing a process for flattening to flatten the floating in the medium in the case where the floating exists, and transporting the medium, where the floating is eliminated using the process for the flattening, to a liquid discharge region of a liquid discharge section. The executing of the process for the flattening includes executing the process for the flattening with regard to the medium and liquid discharge with regard to the medium in parallel.

A printing apparatus, a printing method, and a control apparatus are provided that are capable of reliably preventing a printing unit from colliding, when a first press member or a second press member is displaced, with a displaced press member, and then allowing the printing unit to quickly restart a printing operation. A printing apparatus includes a transport unit configured to transport a work as a recording medium, a printing unit configured to perform printing on the work while moving in a width direction of the work, a first press member configured to press one side of the work in the width direction, a second press member configured to press another side of the work in the width direction, and a detecting unit configured to detect each of a displacement of the first press member in a vertical direction.

A support and stabilization unit (200, 300, 400, 500) for a web (20) advancing in its longitudinal direction over the unit from upstream to downstream; the unit includes in series at least one rotating support roller (31, 32) that is able to come into contact with an underside of the web (20), and at least one device (121, 122, 122) for tensioning the web (20). The tensioning device (121, 122, 122) includes a guiding face (121a, 122a) oriented toward the underside of the web (20), an internal cavity connected to the outside of the device via an outlet opening (121d) which is oriented toward the guiding face (121a, 122a), and an air inlet inside the internal cavity (121b), so as to produce, on the web (20), a force (F2) oriented toward the guiding face (121a, 122a).

The invention relates to a printing apparatus for printing print objects, comprising a machine base body which has a width side and a longitudinal side and is designed to accommodate at least one print object, a guide device which is arranged above the machine base body and extends over the print object over the width of the machine base body, and a printing device which is designed to print the print object and is moveably arranged on the guide device over the width of the machine base body. The printing device comprises at least one first print head unit and a second print head unit, which can be independently moved relative to each other over the width of the machine base body on the guide device, wherein each print head unit has at least one print head which is designed to print the print object with at least one printing ink. In addition, the invention relates to a print method for printing textile surfaces, in particular with the apparatus, according to the invention, in which at least one print object is held on a machine base body and a printing device is delivered to the at least one print object. The first print head unit and at least one second print head unit of the printing device are independently moved over the width of the holding base body relative to each other along a guide device and print the at least one print object with a printed image.

A printing apparatus includes a holding unit that holds a plurality of roll bodies, a transport device (100) which has a transport unit (110) that imparts a transport force by coming into contact with a medium (M), a pressing unit (120) which presses the medium (M) toward the transport unit (110), and an adjustment unit (140) which is able to adjust a pressing force on the medium (M) in each of a plurality of regions in a width direction, the transport device (100) is able to transport the plurality of mediums (M) in the transport direction (F) in a state of being lined up in the width direction, a printing unit which performs printing on the medium (M), and a control unit which controls the adjustment unit (140) such that pressing force on the medium (M) in the non-printing state is smaller than in the printing state.

To provide a printing device such as an inkjet device capable of transporting a recording medium at satisfactory precision with a simple configuration. The inkjet device includes a feed amount correcting section that corrects a feed amount of a recording medium, and a control section that controls the feed amount correcting section. The feed amount correcting unit includes a moving section that moves with a movement of the recording medium in a transporting direction and a displacement sensor section that detects a displacement amount of the moving section, and the control section controls the feed amount of the recording medium based on a difference between a feed amount acquired at a time of printing and a set feed amount set in advance.

A rolled paper printing apparatus includes a roller, a cutter capable of cutting the rolled paper and including a first blade and a second blade, a first blade-side guide capable of guiding, from the side of the first blade, the paper transported, and a paper guide including a first guide and a second guide. The paper guide includes a first arm on which the first guide is mounted rotatably about a first shaft, a second arm on which the second guide is mounted rotatably about a second shaft, and an arm shaft that rotatably supports the first arm and the second arm. The first guide and the second guide are pushed by the first blade moving in the first direction, and move in the first direction while rotating from a first position at which the paper can be guided and reach a second position.

A process for printing a coagulating ink composition directly on a substrate being supported by an adhesive surface, effected by cleaning the adhesive surface with a cleaning composition capable of removing residues of coagulated ink composition from the adhesive surface is provided, as well as a system for carrying out the process and a formulation for the cleaning composition. The cleaning composition comprises a weak organic base (preferably EDTA salts) and is characterized by a pH level of at least 7.5.

The present disclosure relates to methods and apparatuses for printing and drying inks on substrates. Printing systems may include a metering device positioned between a printing station and a light source. During operation, the printing station deposits ink onto a substrate to define a printed region. And the light source directs infrared light onto the substrate to define an illumination zone. The printed region is advanced from the printing station to the metering device and from the metering device through the illumination zone, wherein the ink is dried with infrared light traveling from the light source, which also heats the substrate and changes the modulus of elasticity of the substrate. In turn, the metering device isolates the printing station from the change in the modulus of elasticity to help reduce phase shifts caused by changes in the modulus of elasticity resulting from heat in the substrate.