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.

A printhead mounting system includes one or more pins attached to a printhead, and configured to be inserted through one or more slots in a support frame coupled to a printer, and one or more fasteners configured to engage with the pins inserted through the support frame slots. The fasteners can be detachable, operably coupled to the support frame, or coupled to each other. Additionally, the system can have locating pins for aligning the printhead with the support frame. A method for attaching a printhead includes inserting posts located at a top of a printhead through openings in a printhead support frame, and engaging one or more quick-release fasteners with the posts above the support frame.

There is provided a printing apparatus, including: a base; a thermal head including heating elements arranged in a first direction; a first engagement member; a second engagement member configured to engage with the first engagement member such that the thermal head pivotally moves, relative to the base, around a first axis extending in a second direction intersecting with the first direction; a head holding member being slidable with respect to the base in a third direction intersecting with the first direction and the second direction and holding the thermal head such that the heating elements face the third direction; a first magnetic member positioned on a first side in the first direction relative to the first engagement member; a second magnetic member positioned on the first side in the first direction relative to the second engagement member; and a head pressing member facing the head holding member from a first side in the third direction.

There is provided a printing apparatus including: a frame; a platen; a moving mechanism having a first roller, a second roller, and a supporting member rotatably supporting the first and second rollers; a motor; a transmitting mechanism connected to the motor and the moving mechanism; a clutch provided on the transmitting mechanism; a sensor detecting a position of the moving mechanism; and a controller. The controller executes: starting driving of the motor so that the motor is rotated toward the other direction in a state that conveyance of the print medium by an external apparatus is stopped and that the clutch is in a connected state; performing determination as to whether the moving mechanism is located at an end, on a second side in the specified direction, of the moving range; and stopping the rotation of the motor.

A thermal printer includes a head block having a head support plate and a thermal head fixed to the head support plate, a platen roller brought into abutment against the thermal head through intermediation of recording paper, a wiring board drawn from the thermal head, a frame supporting the platen roller and the head support plate, and a recording paper sensor mounted to the wiring board and detecting the recording paper. The frame includes a guide wall arranged on upstream of the thermal head in a conveyance direction of the recording paper, the guide wall guiding the recording paper to the thermal head. The head block including a sensor holder mounted thereto, the sensor holder holding the recording paper sensor at a portion which is located between the thermal head and the guide wall in the conveyance direction.

A quick release print head includes a heating block, a nozzle tube and a connecting tube. The nozzle tube is inserted in the heating block. One end of the nozzle tube has a nozzle and the other end is extended with an extension tube exposed to the heating block. The connecting tube is connected with the extension tube. Whereby, the extension tube extended from the nozzle tune is exposed to the heating block so that the nozzle tube disposed near the heating block cannot be disassembled. Thus a process of replacing components by heating a nozzle can be bypassed, and advantages of quick disassembly and easy maintenance of the print head can be achieved.

A quick release print head includes a heating block, a nozzle tube and a connecting tube. The nozzle tube is inserted in the heating block. One end of the nozzle tube has a nozzle and the other end is extended with an extension tube exposed to the heating block. The connecting tube is connected with the extension tube. Whereby, the extension tube extended from the nozzle tune is exposed to the heating block so that the nozzle tube disposed near the heating block cannot be disassembled. Thus a process of replacing components by heating a nozzle can be bypassed, and advantages of quick disassembly and easy maintenance of the print head can be achieved.

A thermal printer includes a frame, a platen roller supported on the frame so as to be rotatable about a first direction, a head support plate supported on the frame, and a thermal head fixed to the head support plate. The head nips paper between the roller in a second direction orthogonal to the first direction. The frame includes a swing support portion supporting the plate so that the plate is swingable about the first direction and a third direction orthogonal to the first direction and the second direction. The head is fixed to a portion of the plate located on a first side in the third direction with respect to the swing support portion. Between a portion of the plate located on a second side and the frame, an urging member configured to urge the plate in a direction of causing the head to approach the roller is interposed.

There is provided a printing apparatus including: a base; a thermal head; a first motor; a second motor; a head holding member holding the thermal head; a first pivoting member and a second pivoting member pivotally supported by the base; a guide rail extending in a second direction and connected to a first end of the first pivoting member on a first side in a first direction and to a second end of the second pivoting member on the first side in the first direction; a head pressing member which is in contact with the guide rail to be slidable in the second direction and facing the thermal head from a first side in a third direction; and a movement mechanism configured to move the head holding member in the second direction through driving of the second motor.

A printing apparatus includes: a main body having a space therein, a thermal head arranged on a substrate provided in the space, the thermal head having heating elements arranged along a predetermined arrangement direction; a first conveyor which conveys an ink ribbon along a first conveyance path orthogonal to the arrangement direction, a second conveyor which conveys a printing object along a second conveyance path orthogonal to the arrangement direction and on an opposite side of the thermal head with respect to the first conveyance path, a first temperature sensor provided in a first space on a side of the thermal head with respect to the first conveyance path, a second temperature sensor provided in a second space between the first conveyance path and the second conveyance path, and a processor.