A digital printing device, comprising a suction transport means (1). The suction transport means (1) comprises a transport belt (11) used for transporting a sheet material. At least one first suction box (14), which is used for sucking the sheet material on the transport belt (11) by means of negative pressure during transport, is provided in the space defined by the transport belt (11). Multiple first suction holes in communication with the first suction box (14) are provided on the transport belt (11). At least one side of the first suction box (14) is provided with a movable door (15) which moves in a direction perpendicular to the transport direction to make the first suction box (14) fit the sheet material to maintain a negative pressure state. Using the transport belt (11) during printing, the digital printing device avoids the problem of poor registration accuracy, and improves the printing effect.

A printer includes an ink head including a nozzle surface on which a nozzle is provided, a wiper extending upward to wipe the nozzle surface, a wiper mover to move the wiper in a sub-scanning direction, a wiper cleaner disposed downstream of a carriage and extending downward to remove ink adhering to the wiper, and a controller configured or programmed to control the wiper mover. The controller is configured or programmed to control the wiper mover such that the nozzle surface is wiped by the wiper after bringing the wiper into contact with the wiper cleaner or to bring the wiper into contact with the wiper cleaner after wiping the nozzle surface by the wiper.

A head cleaning mechanism includes a recording head and a wiper. The recording head includes an ink ejection face provided with an ink ejection region in which a plurality of ink ejection openings for ejecting ink onto a recording medium are open. The wiper wipes the ink ejection face in a predetermined direction. The ink ejection face has, downstream of the ink ejection region in the wiping direction, an elevated portion extending in the head width direction perpendicular to the wiping direction. The elevated portion includes an upstream side inclined face which inclines downward from the ink ejection face to the downstream side in the wiping direction, and a downstream face which is arranged downstream of the upstream side inclined face in the wiping direction and which faces the downstream side in the wiping direction.

A head cleaning mechanism includes a recording head and a wiper. The recording head includes an ink ejection face having an ink ejection region where a plurality of ink ejection openings for ejecting ink onto a recording medium are open. The wiper wipes the ink ejection face in a predetermined direction. The ink ejection face has, downstream of the ink ejection region in the wiping direction, a depressed portion extending in the head width direction perpendicular to the wiping direction. The depressed portion includes an upstream side inclined face which inclines upward from the ink ejection face to the downstream side in the wiping direction, and a downstream side inclined face which is arranged downstream of the upstream side inclined face in the wiping direction and which inclines downward to the downstream side in the wiping direction.

A head cleaner for a liquid discharge apparatus, the head cleaner includes a first wiper to wipe, in a wiping direction, a nozzle face of a head that discharges liquid from nozzles on the nozzle face, and a second wiper to wipe the nozzle face of the head. The first wiper is belt-shaped, and the second wiper is a blade movable between a wiping position where the second wiper wipes the nozzle face and a cleaning position where the second wiper is cleaned by the first wiper.

A printer includes a first ink head including first nozzles arranged in a sub-scanning direction and a first nozzle surface on which the first nozzles are disposed, a second ink head disposed at a side of the first ink head in a main scanning direction and including second nozzles arranged in the sub-scanning direction and disposed partially at a position identical to a position of a portion of the first nozzles in the sub-scanning direction and a second nozzle surface on which the second nozzles are disposed, a first wiper that wipes the first nozzle surface at a first wiping position, and a second wiper that wipes the second nozzle surface at a second wiping position.

A jetting-module cleaning system for cleaning the nozzle plate of a jetting module includes a rotating wiper mechanism. The rotating wiper mechanism includes a rotating sleeve having one or more outlet openings extending from its hollow core to its outer surface, and one or more wiper blades. A pressurized fluid source supplies pressurized cleaning fluid to the hollow core of the rotating sleeve. An actuator rotates the rotating wiper mechanism around its axis. A valve is controlled so that cleaning fluid is sprayed onto the nozzle plate through the outlet openings when the rotating wiper mechanism is rotated to an angular orientation where the outlet openings face the nozzle plate.

A jetting-module cleaning system for cleaning the nozzle plate of a jetting module includes a non-rotating shaft and a rotating wiper mechanism. The non-rotating shaft includes one or more outlet openings extending from its hollow core to its outer surface. The rotating wiper mechanism includes a rotating sleeve having one or more openings extending from its hollow core to its outer surface, and one or more wiper blades. The rotating wiper mechanism rotates around the non-rotating shaft. A pressurized fluid source supplies pressurized cleaning fluid to the hollow core of the non-rotating shaft. An actuator rotates the rotating wiper mechanism around its axis. Cleaning fluid is sprayed onto the nozzle plate through the one or more outlet openings in the non-rotating shaft when the openings in the rotating sleeve are aligned with the outlet openings in the non-rotating shaft.

An inkjet printing apparatus includes: a printing head provided with ejection units in each of which ejection port arrays are formed, the ejection units being provided along a first direction; and a suction unit capable of contacting the ejection units and sucking the ejection units while moving relative to the ejection units. A contact region of the suction unit with each of the ejection units does not cover a corner portion among two corner portions of a second ejection unit located at opposite ends of a first end edge thereof on an upstream in a direction of movement, the corner portion being present at a position not overlapping with a second end edge of a first ejection unit on a downstream in the direction of movement when viewed from the direction of movement, the first ejection unit being provided upstream of the second ejection unit in the direction of movement.

There is provided a printing apparatus which performs printing by ejecting ink from a nozzle, including: a wiper blade that abuts on a nozzle surface on which an opening of the nozzle is formed, and moves in a first direction to wipe the ink adhering to the nozzle surface; and a cleaner that abuts on the moving wiper blade and scrapes off the ink adhering to the wiper blade, in which the wiper blade includes a blade member which protrudes in a second direction which is substantially orthogonal to the first direction, and in which the cleaner includes a scraping member which protrudes in a third direction which is a direction opposite to the second direction.