A printer includes a printing unit having a printing head and a platen positioned opposite the printing head, the printing head being configured to print on a print medium that is fed between the printing head and the platen, a ribbon holding shaft configured to hold an ink ribbon that is wound thereon, a ribbon winding shaft configured to wind and collect the ink ribbon supplied from the ribbon holding shaft, and first and second guide shafts provided along a feeding route of the ink ribbon between the ribbon holding shaft and the ribbon winding shaft to apply tension to the ink ribbon. At least one of the first and second guide shafts has a tilt adjuster that applies a twist to the ink ribbon in a width direction of the ink ribbon through said at least one of the first and second guide shafts.

In accordance with an embodiment, a ribbon holding shaft winds an ink ribbon before printing. A ribbon winding shaft winds the ink ribbon after printing to collect the ink ribbon. A feed motor rotationally drives the ribbon holding shaft. A winding motor rotationally drives the ribbon winding shaft. A detection module detects slackness of the ink ribbon stretched between the ribbon holding shaft and the ribbon winding shaft. A ribbon feed control module forward rotates the winding motor to draw out the ink ribbon from the ribbon holding shaft to the printing section and further controls the ribbon winding shaft to wind the ink ribbon. A reverse rotation control module reversely rotates the feed motor to stretch the ink ribbon between the ribbon holding shaft and the ribbon winding shaft if the detection module detects the slackness of the ink ribbon.

In accordance with an embodiment, a ribbon holding shaft winds an ink ribbon before printing. A ribbon winding shaft winds the ink ribbon after printing to collect the ink ribbon. A feed motor rotationally drives the ribbon holding shaft. A winding motor rotationally drives the ribbon winding shaft. A detection module detects slackness of the ink ribbon stretched between the ribbon holding shaft and the ribbon winding shaft. A ribbon feed control module forward rotates the winding motor to draw out the ink ribbon from the ribbon holding shaft to the printing section and further controls the ribbon winding shaft to wind the ink ribbon. A reverse rotation control module reversely rotates the feed motor to stretch the ink ribbon between the ribbon holding shaft and the ribbon winding shaft if the detection module detects the slackness of the ink ribbon.

There is provided a ribbon winding mechanism including: a winding rotor; a first winding gear that is provided to be coaxial to the winding rotor and rotates the winding rotor; a second winding gear that is provided to be coaxial to the winding rotor and rotates the winding rotor via the first winding gear; a first torque limiter that limits torque, which is transmitted from the first winding gear to the winding rotor, to first torque; a second torque limiter that limits torque, which is transmitted from the second winding gear to the first winding gear, to second torque lower than the first torque; and a torque clutch that inputs power from a feed motor to the first winding gear when the first cartridge is mounted and inputs the power from the feed motor to the second winding gear when the second cartridge is mounted.

There is provided a ribbon winding mechanism including: a winding rotor; a first winding gear that is provided to be coaxial to the winding rotor and rotates the winding rotor; a second winding gear that is provided to be coaxial to the winding rotor and rotates the winding rotor via the first winding gear; a first torque limiter that limits torque, which is transmitted from the first winding gear to the winding rotor, to first torque; a second torque limiter that limits torque, which is transmitted from the second winding gear to the first winding gear, to second torque lower than the first torque; and a torque clutch that inputs power from a feed motor to the first winding gear when the first cartridge is mounted and inputs the power from the feed motor to the second winding gear when the second cartridge is mounted.

A printing apparatus includes: a main body; a cassette including a cassette case and a printing medium accommodated in the cassette case; an installing portion provided on the main body for installing the cassette detachably; a thermal head arranged on a substrate provided in the installing portion and having heating elements arranged along a predetermined arrangement direction; a conveyor which conveys the printing medium of the cassette installed in the installing portion along a conveyance path orthogonal to the arrangement direction; a first temperature sensor provided, in the installing portion, on a side of the thermal head with respect to the conveyance path; a second temperature sensor provided in the interior of the cassette case or the installing portion; and a processor which corrects an amount of applying energy to be applied to the heating elements, based on first and second temperatures detected by the first and second temperature sensors.

A described example includes a ribbon cartridge having a first spool housing to receive a first spool. The ribbon cartridge further having a second spool housing to receive a second spool. The ribbon cartridge further having at least one frame member extending between the first spool housing and the second spool housing and a spool lock, wherein the spool lock is configured to engage at least one of the first spool or the second spool in response to the ribbon cartridge not being received within a ribbon positioning assembly.

A described example includes a ribbon cartridge having a first spool housing to receive a first spool. The ribbon cartridge further having a second spool housing to receive a second spool. The ribbon cartridge further having at least one frame member extending between the first spool housing and the second spool housing and a spool lock, wherein the spool lock is configured to engage at least one of the first spool or the second spool in response to the ribbon cartridge not being received within a ribbon positioning assembly.

A disclosed media processing device includes a lid hingedly attached to the base movable relative to the base between a closed position and an open position, wherein a cavity is defined between the base and the lid; a platen roller to form a first nip with a printhead, wherein media having a backing is to travel through the first nip; a modular peeler configured to remove the backing from the media downstream from the first nip, the modular peeler including a peel roller to form a second nip with the platen roller, wherein the backing is to travel through the second nip after being removed from the media.

A disclosed ribbon cartridge includes a first spool housing configured to receive a first spool; a second spool housing configured to receive a second spool; a first frame member extending between the first and second spools; and a second frame member extending between the first spool and the second spool; wherein a printhead assembly opening is defined and bounded by the first spool housing, the second spool housing, the first frame member, and the second frame member, wherein the first frame member defines a first channel adjacent to the printhead assembly opening, wherein the second frame member defines a second channel adjacent to the printhead assembly opening, and wherein the first channel and the second channel each comprise a drive surface, wherein the drive surface is configured to be engaged by a printhead assembly to drive the ribbon cartridge to an installed position within the media processing device.