A recording apparatus includes: a recording path passing a recorder performing recording by ejecting liquid onto a medium; a feeding path through which the medium is fed to the recording path; a discharge path through which the medium after recording performed thereon by the recorder is discharged; a reading path extending through a reader reading an image, provided independently of the recording path, the feeding path, and the discharge path and to which the medium with a recorded image being used to check a state of liquid ejection of the recorder recorded thereon is fed; and a switching portion switching between a first state in which a feeding direction of the medium after recording performed thereon by the recorder is set to a direction toward the reading path and a second state in which the feeding direction is set to a direction other than the direction toward the reading path.

In one example, a printing device may include a first motor to transition a carriage between a first position and a second position, the carriage to exert a force on a gate shifter as the carriage transitions between the first position and the second position, the gate shifter to transition between an open position and a closed position in response to the exerted force of the carriage, and a feed swingarm to transition between a first side and a second side of the gate shifter when the gate shifter is in the open position.

A printer device includes a main housing including a print media cassette receiving slot. A first drive assembly of the main housing includes a motor operatively coupled to rotate a drive gear. A print media cassette is removably inserted into the print media cassette receiving slot, and includes a second drive assembly having a driven gear that is engaged with the drive gear. One of the drive gear or the driven gear is mounted for movement such that at least one of (i) a position of an axis of the drive gear is movable relative to the main housing or (ii) a position of an axis of the driven gear is movable relative to the printer cassette. A retaining mechanism includes a portion movable into a gear train coupling position in which the drive gear and the driven gear are held in driving contact with each other.

A slide member slides in conjunction with reciprocation of a carriage. The slide member slides between a first position and a second position to cause a switch gear to move between a plurality of slide positions at which the switch gear engages respective ones of a plurality of transmission gears. The slide member at the second position is closer to a first end of a shaft than the slide member at the first position is. A first cover covers a first sliding contact portion of the shaft over an entire range of the first sliding contact portion in a main scanning direction. The slide member is in sliding contact with the first sliding contact portion when the slide member slides between the first position and the second position. The first sliding contact portion is closer to the first end than the slide member located at the first position is.

After an ejector passes an ejection end position, a controller controls a second conveyor to convey a sheet in a sub-scanning direction. The ejection end position is a position at which ink ejection by the ejector ends before reaching a turn position. An ejection start position is a position at which ink ejection by the ejector starts after turning at the turn position. Based on positional relationship between the ejection end position and a standard position, the controller adjusts timing of conveyance of the sheet or shift the turn position from the standard position in a direction of reducing an overlap between a sheet conveyance period after the ejector passes the ejection end position and an ejector deceleration period before the ejector reaches the turn position. The standard position is a standard turn position of the ejector and is determined from the ejection end position and the ejection start position.

A printing apparatus can be downsized while degradation in the print quality can be suppressed. To perform skew correction on a second print medium on which printing is to be performed subsequent to a first print medium, a first conveying unit disposed upstream of the printing position where the printing unit performs printing on the print medium is stopped. Then, driving and stopping of third conveying unit disposed downstream of a second conveying unit is controlled, depending on whether the first print medium after printing has already passed by the second conveying unit when the first conveying unit is stopped, the second conveying unit being driven by the same driving source as that for the first conveying unit and being disposed downstream of the printing position.

A controller of an inkjet printing apparatus is configured such that, in response to receipt of a preceding command, which notifies transmission of a recording command in advance, from an information processing device through the communication device, the controller executes a separating process to move from a covering position to a spaced position, a moving process to move a carriage, from which the cap is separated, from a first position to a second position, a flushing process to cause the inkjet head to eject the ink toward an ink receiver in response to receipt of a recording command instructing recording of an image on the sheet and upon completion of the moving process, and a recording process to cause a conveyer to convey the sheet and cause the inkjet head to eject the ink in accordance with the recording command, in response to completion of the flushing process.

A head cleaning device includes a first wiping member, a first drive mechanism, a second wiping member, a second drive mechanism, a common drive source, and control circuitry. The first wiping member wipes a nozzle face of each of a plurality of liquid discharge heads. The first drive mechanism moves the first wiping member to a first wiping position at which the first wiping member wipes the nozzle face and a first retraction position spaced apart from the nozzle face. The second wiping member wipes the nozzle face. The second drive mechanism moves the second wiping member to a second wiping position at which the second wiping member wipes the nozzle face and a second retraction position spaced apart from the nozzle face. The common drive source drives the first drive mechanism and the second drive mechanism. The control circuitry controls the common drive source.

A controller of an inkjet printing apparatus is configured to raise a driving voltage to a target voltage, move the cap for an inkjet head from a covering position to a spaced position, and move a carriage, from which the cap is spaced, from a first position to a second position, simultaneously. The controller is further configured to cause the inkjet head to eject the ink toward an ink receiver in response to completion of boosting of the driving voltage and moving of the cap to the spaced position, and cause the conveyer to convey the sheet and cause the inkjet head to eject the ink in accordance with the recording command, in response to receipt of a recording command which instructs recording of an image on the sheet through a communication device, and completion of flushing.

A slide member slides in conjunction with reciprocation of a carriage. The slide member slides between a first position and a second position to cause a switch gear to move between a plurality of slide positions at which the switch gear engages respective ones of a plurality of transmission gears. The slide member at the second position is closer to a first end of a shaft than the slide member at the first position is. A first cover covers a first sliding contact portion of the shaft over an entire range of the first sliding contact portion in a main scanning direction. The slide member is in sliding contact with the first sliding contact portion when the slide member slides between the first position and the second position. The first sliding contact portion is closer to the first end than the slide member located at the first position is.