A target transport apparatus includes a transport roller pair that has a plurality of segmented roller members disposed at intervals in a width direction that intersects with a transport direction of continuous paper and that imparts a transport force on the continuous paper by the segmented roller members pinching the continuous paper; and an image capturing unit, disposed in a location that corresponds to a pinched area in the width direction of the continuous paper that is pinched by the segmented roller members and to the pinched area along the transport direction, that detects, without making contact with the continuous paper, an amount by which the continuous paper is transported by the transport roller pair.

A target transport apparatus includes a transport roller pair that has a plurality of segmented roller members disposed at intervals in a width direction that intersects with a transport direction of continuous paper and that imparts a transport force on the continuous paper by the segmented roller members pinching the continuous paper; and an image capturing unit, disposed in a location that corresponds to a pinched area in the width direction of the continuous paper that is pinched by the segmented roller members and to the pinched area along the transport direction, that detects, without making contact with the continuous paper, an amount by which the continuous paper is transported by the transport roller pair.

A printing apparatus includes: a printing head configured to discharge ink onto a recording medium to form an image; a platen including a support surface that supports the recording medium; and a recording medium holding portion being configured to hold a plurality of star wheels configured to hold the recording medium toward the support surface in a direction perpendicular to the support surface. In a case in which a maximum value of a height of the recording medium from the support surface in the direction perpendicular to the support surface is less than 2.2 mm when the recording medium passes between the support surface and the recording medium pressing portion, a load of one of the star wheels for holding the recording medium with presence of the recording medium holding portion is equal to or less than 4.5 gf.

A printing apparatus includes: a printing head configured to discharge ink onto a recording medium to form an image; a platen including a support surface that supports the recording medium; and a recording medium holding portion being configured to hold a plurality of star wheels configured to hold the recording medium toward the support surface in a direction perpendicular to the support surface. In a case in which a maximum value of a height of the recording medium from the support surface in the direction perpendicular to the support surface is less than 2.2 mm when the recording medium passes between the support surface and the recording medium pressing portion, a load of one of the star wheels for holding the recording medium with presence of the recording medium holding portion is equal to or less than 4.5 gf.

In a recording apparatus, the quality of an image is improved.

A recording apparatus is provided with a droplet discharging head having a nozzle forming portion and a charging unit. The nozzle forming portion includes nozzles formed therein. The charging unit is configured to impart an electrical charge to the medium. The charging unit imparts, to the medium, an electrical charge having the same polarity as an electrically charged state of the nozzle forming portion after the droplets are discharged.

In a recording apparatus, the quality of an image is improved.

A recording apparatus is provided with a droplet discharging head having a nozzle forming portion and a charging unit. The nozzle forming portion includes nozzles formed therein. The charging unit is configured to impart an electrical charge to the medium. The charging unit imparts, to the medium, an electrical charge having the same polarity as an electrically charged state of the nozzle forming portion after the droplets are discharged.

A system for printing an image. A printer includes a controller for motion in an X axis, components for motion in the X axis, a print head for printing image data in a swath, and a communication module for receiving image data and communications indicating that printing the swath is authorized and that printing is completed. A substrate unit includes a controller for motion in a Y axis, components for motion in the Y axis, and a communication module for receiving image data from a source. The communication module sends at least a portion of the image data to the printer.

A printer can suppress paper lifting away from the platen surface even when conveying strong paper (regardless of paper strength) (a printer that can suppress paper uplift from the platen and is not easily affected by the type of paper). A printer 40 in which the platen surface 42a is on the inkjet head 21 side of a plane C through position A where paper 11 is held by a conveyance roller 36, and position B where the paper is held by a discharge roller, has: on the printhead 21 side of the plane C between the platen 42 and conveyance roller 36, at least one entry angle control unit 44 that contacts the paper 11 conveyed toward the platen surface 42a, and controls the entry angle of the paper 11 to the platen surface 42a; and on the printhead 21 side of the plane C between the platen 42 and the discharge roller 37, at least one exit angle control unit 46 that contacts the paper 11 conveyed in the direction away from the platen surface 42a, and controls the exit angle of the paper 11 from the platen surface 42a.

The disclosure discloses a printer comprising a first control portion configured to control a feeder and a conducting device to perform printing on a recording medium. The first control portion executing a first processing, a second processing, and a third processing. In the first processing, printing on the recording medium is performed while feeding the recording medium to a forward direction, based on first print data. In the second processing, printing on a first predetermined section is performed while continuously feeding the recording medium to the forward direction, based on second print data, triggered by receipt of a print stop instruction in the middle of the first processing. In the third processing, feeding the recording medium to a reverse direction is performed and, with current conduction to the heating elements stopped, making the heating elements face the first predetermined section for a first predetermined amount of time.

The disclosure discloses a printer comprising a first control portion configured to control a feeder and a conducting device to perform printing on a recording medium. The first control portion executing a first processing, a second processing, and a third processing. In the first processing, printing on the recording medium is performed while feeding the recording medium to a forward direction, based on first print data. In the second processing, printing on a first predetermined section is performed while continuously feeding the recording medium to the forward direction, based on second print data, triggered by receipt of a print stop instruction in the middle of the first processing. In the third processing, feeding the recording medium to a reverse direction is performed and, with current conduction to the heating elements stopped, making the heating elements face the first predetermined section for a first predetermined amount of time.