This invention aims to propose a structure excellent in the maintenance operability of a cleaning member in a printing apparatus provided with the cleaning member for cleaning at least one of a wiper and a cap. In a printing apparatus according to the invention, a cleaning member for cleaning a wiper or a cap of a maintenance part is integrated with a printing head in a relative movement between the printing head and the maintenance part and arranged to at least partially overlap a movement path of the object to be cleaned with respect to the printing head and moves to outside the conveyance path integrally with the printing head when the printing head is moved from the inside position to the outside position.

A recording device has: a recording section that discharges a liquid to a medium for recording purposes; a maintenance unit that abuts the recording section and performs maintenance of the recording section; a first moving section that causes the recording section to abut the maintenance unit and separates the recording section from the maintenance unit; and a restricting section that can suppress movement of the recording section toward the maintenance unit after the recording section abuts the maintenance unit. The first moving section has a driving source and a worm gear that transmits the power of the driving source. A force with which the driving source causes the recording section to abut the maintenance unit is smaller than a force with which the driving source separates the recording section from the maintenance unit.

A driving mechanism moves a moving unit in a predetermined direction and an opposite direction that is opposite to the predetermined direction. The driving mechanism includes a worm that is coupled to a driving source and rotates to move the moving unit, a worm wheel that is meshed with the worm, and a holding portion that holds the worm. The holding portion includes a highly-regulating portion that contacts with the worm when the moving unit moves in the predetermined direction, and a weakly-regulating portion that contacts with the worm when the moving unit moves in the opposite direction. A friction coefficient between the highly-regulating portion and the worm is greater than a friction coefficient between the weak regulation portion and the worm.

A first successive printing job executed for printing a plurality of images in series on a first medium placed alongside a second medium is interrupted after the completion of one printing job for a first image included in the first successive printing job, and before the start of another printing job for printing another image following the first image; a second successive printing job executed for printing a plurality of images in series on the second medium in parallel with the first successive printing job is interrupted after the completion of a printing job included in the second successive printing job and being under execution at a time point at which the first successive printing job has been interrupted; and the maintenance for the printing head is executed in a state in which both the first successive printing job and the second successive printing job is interrupted.

An inkjet head maintenance mechanism includes: an inkjet head including a nozzle plate with ejection ports arranged in the nozzle plate and configured to eject droplets of ink, and a protection plate stacked on the nozzle plate and having an opening formed at a position corresponding to the ejection ports and exposing the ejection ports to an outside; a cap configured to come into contact with the protection plate and surround the opening of the protection plate; and a controller configured to detect an on-off state of a power supply of an inkjet printer to which the inkjet head is attached and adjust a contact pressure of the cap onto the protection plate depending on the detected on-off state of the power supply.

There is provided a liquid jetting apparatus including: a liquid jetting head; a carriage; a cap; a cap switching device switching the cap between a capping state and an uncapping state; a carriage blocker movable between a first position not contacting carriage, and a second position blocking movement of the carriage in a first direction; and a contacting portion locatable, in the uncapping state, at a third position at which the contacting portion is not in contact with carriage, and locatable, in the capping state, at a fourth position at which, under a condition that the blocked carriage rotates around an axis perpendicular to a liquid jetting surface with the carriage blocker as a supporting point, the contacting portion is capable of contacting the rotating carriage. The contacting portion is configured to move integrally with the cap in a plane parallel to the liquid jetting surface.

A print engine includes: a media support chassis having a plurality of guide rollers mounted between opposite sidewalls thereof, the plurality of guide rollers defining a media feed path; a maintenance chassis pivotally mounted on the media support chassis, the maintenance chassis including a plurality of maintenance modules fixedly mounted thereto and aligned along the media feed path; and a print bar chassis movably mounted on the maintenance chassis, the print bar chassis including a plurality of print modules, each print module having a printhead; a pivot actuation mechanism for pivoting the maintenance chassis between an open and closed position; and a lift mechanism for raising and lowering the print bar chassis relative to the maintenance chassis between a maintenance position a printing position.

A liquid ejecting apparatus includes: a head that ejects a liquid from a nozzle; a mounting portion on which a liquid container in which the liquid is sealed is detachably mounted; a sub-tank in which the liquid supplied from the liquid container is stored; a connection channel connected to the sub-tank and the head; an opening and closing valve positioned in the connection channel; and a control portion, in which when the liquid container is replaced, the control portion closes the opening and closing valve.

A maintenance device includes a cap, a cap moving portion, a suction portion, a switching portion, and a drive transmission unit, wherein the drive transmission unit includes a drive source, a first transmission mechanism, and a second transmission mechanism, the first transmission mechanism includes a first drive delay unit that does not transmit driving of the drive source even when the drive source drives by a certain amount when the drive source performs switching of the switching portion via the second transmission mechanism, and the second transmission mechanism includes a second drive delay unit that does not transmit driving of the drive source even when the drive source drives by a certain amount when the drive source performs moving of the cap via the first transmission mechanism.

An information processing system includes a storage portion that stores a learned model obtained by performing machine learning on a maintenance condition for a print head based on a data set in which nozzle surface image information obtained by photographing a nozzle plate surface of the print head and maintenance information representing necessity of maintenance of the print head or a recommended execution timing of the maintenance are associated with each other, an acquisition portion that acquires the nozzle surface image information, and a processing portion that outputs the maintenance information based on the nozzle surface image information and the learned model at a timing before a discharge defect of the print head occurs.