A method is for printing on a narrow face of a workpiece, in which surface information relating to at least some regions of at least one workpiece face adjoining the narrow face to be printed on is optically captured by a sensor device, the captured surface information is transferred to a print controller, and the print controller ascertains print information for controlling a printing unit on the basis of the captured surface information. The print information is used to control a printing process by which a narrow face decoration, which is matched to a decoration flow of the optically captured workpiece face, is printed on the narrow face.

A staged printing system includes: a printing station for printing an image upon an object; a curing station, operatively connected to the printing station, for curing the image printed upon the object; and a pretreatment station, operatively connected to the printing station, for pretreating the object before printing an image upon the object. The printing station includes a plurality of vertically mounted print heads for ejecting ink and a rotating platform for rotating the object as the plurality of vertically mounted print heads eject ink upon the object.

In an embodiment, a system includes a three-dimensional (3D) printer, a neutral feedstock, a p-doped feedstock, an n-doped feedstock, and a laser. The 3D printer includes a platen and an enclosure. The platen includes an inert metal. The enclosure includes an inert atmosphere. The neutral feedstock is configured to be deposited onto the platen. The neutral feedstock includes a halogenated solution and a nanoparticle having a negative electron affinity. The p-doped feedstock is configured to be deposited onto the platen. The p-doped feedstock includes a boronated compound introduced to the neutral feedstock. The n-doped feedstock is configured to be deposited onto the platen. The n-doped feedstock includes a phosphorous compound introduced to the neutral feedstock. The laser is configured to induce the nanoparticle to emit solvated electrons into the halogenated solution to form, by reduction, layers of a ceramic comprising a neutral layer, a p-doped layer, and an n-doped layer.

An automated storage unit publishing system may include a recording device for recording information on a storage unit memory chip; a bin plate with a storage unit bin and a casing bin; an assembling mechanism movably attached to the bin plate, the assembling deck comprising a shuttle for removing a selected sized casing from the casing bin and a recorded flash memory chip from the chip bin and assembling the two into a single unit using pressure; a printing device for printing marks, indications or decoration on the casing, and a gripping device for placing the finished unit in an output mechanism.

A device for providing a marking arranged or arrangeable in a circumferentially closed manner around a prolate object includes: a material interface for receiving a printed product output from a printer; a print signal interface for acquiring a control signal related to the printed product output; at least one sensor for acquiring a control signal related to providing of the marking; and at least one actuator for arranging the marking on the object in a circumferentially closed manner or to provide the marking for circumferentially closed arrangement depending on the control signal related to the printed product output and the control signal related to the providing of the marking using the printed product output by the printer.

A device for providing a marking arranged or arrangeable in a circumferentially closed manner around a prolate object includes: a material interface for receiving a printed product output from a printer; a print signal interface for acquiring a control signal related to the printed product output; at least one sensor for acquiring a control signal related to providing of the marking; and at least one actuator for arranging the marking on the object in a circumferentially closed manner or to provide the marking for circumferentially closed arrangement depending on the control signal related to the printed product output and the control signal related to the providing of the marking using the printed product output by the printer.

A printing platform includes a printing engine with one or more printheads arranged such that the ink drops are jetted vertically upwards against the action of gravity; and a substrate transportation system where the normal to the surface in contact with the substrate is parallel and with opposite direction to the travelling direction of the jetted ink drops. It is necessary to counteract the weight of the substrate during the printing process to avoid it from falling under the action of gravity. This is achieved through any of a mechanical element that interferes with the falling of the substrate and that keeps it in place; or a system that generates adhesion forces between the element that transmits the motion to the substrate, typically a conveyor belt, and the substrate through the action of electrostatic forces, an air pressure differential between both faces of the substrate, or any other suitable mechanism.

A printing platform includes a printing engine with one or more printheads arranged such that the ink drops are jetted vertically upwards against the action of gravity; and a substrate transportation system where the normal to the surface in contact with the substrate is parallel and with opposite direction to the travelling direction of the jetted ink drops. It is necessary to counteract the weight of the substrate during the printing process to avoid it from falling under the action of gravity. This is achieved through any of a mechanical element that interferes with the falling of the substrate and that keeps it in place; or a system that generates adhesion forces between the element that transmits the motion to the substrate, typically a conveyor belt, and the substrate through the action of electrostatic forces, an air pressure differential between both faces of the substrate, or any other suitable mechanism.

According to one embodiment, there is provided a printer including a print head, a platen roller, a sheet position sensor, an antenna, and a movable portion. The print head is configured to print on a strip-shaped sheet. The platen roller is configured to move the sheet pinched between the platen roller and the print head along a longitudinal direction of the sheet. The sheet position sensor is provided on a substrate disposed on an upstream side of the print head in a conveyance direction of the sheet, and is configured to detect a position of the sheet. The antenna is provided on the substrate and is configured to write information to a wireless tag provided on the sheet. The movable portion is configured to move the substrate along a width direction of the sheet.

An integrated vertical inkjet printer for printing on a vertical substrate, comprising: a controller; a main trolley carrying a main trolley body; and a printing assembly, comprising: a plurality of inkjet printing head assemblies mounted on a platform; a vertical telescopic tandem beam system comprising: a first printing beam, wherein said platform is slidable along said first printing beam; and a second printing beam detachably insertable between said first printing beam and said main trolley body, a first motor configured to drive said platform vertically; and a second motor configured to drive said first printing beam along said second printing beam.