A liquid ejection apparatus includes a first control unit, a light projection unit, a light reception unit, a determination unit, and a liquid ejection head. The first control unit is configured to change a threshold for determining a lifting of a recording medium conveyed along a conveyance path according to thickness of the recording medium. The light projection unit is configured to emit a detection beam for detecting the lifting of the recording medium. The light reception unit is configured to receive the detection beam. The determination unit is configured to determine the lifting of the recording medium, when the recording medium is detected with a height greater than the threshold by the detection beam. The liquid ejection head is configured to eject liquid to the recording medium.

In a printing apparatus, the thermal head includes a plurality of heater elements arranged in line. A sheet which is conveyed in a conveyance direction is nipped between a platen member and the thermal head. The urging member urges at least one of the thermal head and the platen member to approach each other to generate pressure to the sheet nipped between the thermal head and the platen member. The pressure varies in accordance with a position in a width direction crossing the conveyance direction. The processor sets energy to be supplied to the plurality of heater elements so that the lower pressure a portion of the sheet in the width direction receives, the higher energy is to be supplied to a heater element corresponding to a position of the portion in the width direction. The processor controls the set energy to be supplied to the plurality of heating elements.

A head pressurizing mechanism in which in a state in which a first tape cartridge is mounted, a first contact pin is positioned at a first switching position in which the first contact pin comes in contact with a pressure receiving portion provided on a side of a thermal head opposite a platen roller, and in a state in which the second tape cartridge is mounted, by pushing the pressurizing position switching portion in a mounting direction with the second tape cartridge, a second contact pin is positioned at a second switching position in which the second contact pin comes in contact with the pressure receiving portion at, with respect to the first switching position, a portion in a direction opposite the mounting direction.

A printing apparatus includes a transport roller configured to transport a print medium in a transport direction, a print head configured to print on the print medium, a platen having first suction arrays each including at least a first suction hole having a first diameter and second suction arrays each including at least a second suction hole having a second diameter that is different from the first diameter, the first suction arrays and the second suction arrays being alternately arranged in a direction intersecting the transport direction, a suction fan configured to suck the print medium through frame portions each having one first suction array and one second suction array, and a shutter mechanism configured to open or close the frame portions stepwise.

A base material processing apparatus includes a first edge sensor, a second edge sensor, and a displacement amount calculation part. The first edge sensor acquires a first detection result (R1) by detecting the position of an edge of a base material in the width direction at a first detection position. The second edge sensor acquires a second detection result (R2) by detecting the position of the edge of the base material in the width direction at a second detection position. The displacement amount calculation part calculates the amount of displacement in the position of the base material in the transport direction on the basis of the first detection result (R1) and the second detection result (R2). Accordingly, the amount of displacement in the position of the base material in the transport direction can be detected without depending on images such as register marks.

In a case where a predetermined sheet size is selected by a user from a plurality of sheet sizes displayed on a display, an image larger than the predetermined size is printed. In a case where a sheet size is input by the user in an input screen displayed on the display, an image having a size corresponding to the input sheet size is printed.

An image recording apparatus for recording an image on a sheet includes a recording section which records the image on the sheet in a transport passage for transporting the sheet in a transport direction and multiple plates which are spaced apart from each other in a widthwise direction. These multiple plates include a first type of plate and a second type of plate. Plates of a first type of plate are configured to overlap a sheet when viewed in a direction perpendicular to the transport direction and the widthwise direction, while plates of the second type of plate do not.

A medium transporting device provided in a printer includes a curved path in which a paper sheet after recording is curved and inverted, a plurality of first ribs that extend in a medium transportation direction in a facing area facing a recording head, that are provided at intervals in a width direction intersecting the medium transportation direction, and that form cockling on the paper sheet, a plurality of second ribs that are provided on an outer curved portion of the curved path, and a plurality of third ribs that are provided on an inner curved portion of the curved path. The plurality of second ribs and the plurality of third ribs are disposed at positions in the width direction that correspond to a mountain portion and a valley portion of the cockling of the paper sheet that is formed by the plurality of first ribs.

A base material processing apparatus includes a first edge sensor, a second edge sensor, and a displacement amount calculation part. The first edge sensor acquires a first detection result (R1) by detecting the position of an edge of a base material in the width direction at a first detection position. The second edge sensor acquires a second detection result (R2) by detecting the position of the edge of the base material in the width direction at a second detection position. The displacement amount calculation part calculates the amount of displacement in the position of the base material in the transport direction on the basis of the first detection result (R1) and the second detection result (R2). Accordingly, the amount of displacement in the position of the base material in the transport direction can be detected without depending on images such as register marks.

A medium transporting device provided in a printer includes a curved path in which a paper sheet after recording is curved and inverted, a plurality of first ribs that extend in a medium transportation direction in a facing area facing a recording head, that are provided at intervals in a width direction intersecting the medium transportation direction, and that form cockling on the paper sheet, a plurality of second ribs that are provided on an outer curved portion of the curved path, and a plurality of third ribs that are provided on an inner curved portion of the curved path. The plurality of second ribs and the plurality of third ribs are disposed at positions in the width direction that correspond to a mountain portion and a valley portion of the cockling of the paper sheet that is formed by the plurality of first ribs.