The present invention relates to a movable thermal printing device, which comprises a gear set, a pressing roller set, and a heating component. The gear set includes a first motor, a first gear, and a rack gear. The pressing roller set includes a frame, a first roller, and a second motor. A sensing medium is attached below the first roller. When the first gear rotates counterclockwise, the rack gear, the pressing roller set, and the sensing medium will be driven to move upwards and away from the heating component. When the first gear rotates clockwise, the rack gear, the pressing roller set, and the sensing medium will be driven to move downwards and contact the heating component for printing sensing medium and for avoiding the sensing medium from contacting the heating component in reverse rotation and thus avoiding the problems of damages or print failure.

Provided herein is a printer comprising a printing assembly. The printing assembly comprises a printhead bracket fixedly attached to the printer, a printhead that defines a groove, the printhead aligned at a first alignment, an alignment adjuster fastened between the printhead bracket and the printhead, and a plurality of fasteners operatively engaged with the alignment adjuster. The alignment adjuster comprises a gear rack that is adjacent to the printhead bracket, and a protrusion that is received by the groove of the printhead. The plurality of fasteners comprises at least one selected from a group of a lateral adjustment fastener operatively engaged with the gear rack, and a rotational adjustment fastener operatively engaged with a transverse edge of the printhead. The lateral adjustment fastener is configured to provide lateral movement to the alignment adjuster and the printhead. The rotational adjustment fastener is configured to provide rotational movement to the printhead.

Printhead carriers and adapters are disclosed. An example disclosed print mechanism includes an adapter to simultaneously couple a printhead assembly to both a logic circuit of a media processing device and a power source of the media processing device; a printhead carrier coupled to the adapter; and wherein a first connection, between data input connector and the logic circuit, and a second connection, between the power input connector and the power source, are maintained when the printhead assembly is removed from the print mechanism.

A printer according to an embodiment includes: a printer body including a supplying part that rotatably holds a roll-shaped sheet member; an opening and closing cover configured to open and close with respect to the printer body; a thermal head disposed on the printer body, the thermal head configured to print on the sheet member; a platen roller disposed on the opening and closing cover, the platen roller positioned at a location opposite to the thermal head and feeding the sheet member in a closed configuration; and a platen roller holding mechanism configured to attachably and detachably secure the platen roller to the opening and closing cover. The platen roller holding mechanism includes a label roll supporter that rotatably guides the roll-shaped sheet member in the supplying part. The label roll supporter includes a cross-sectional arc-shaped surface.

A printer comprising a printhead configured to selectively cause a mark to be created on a substrate, a stepper motor having an output shaft coupled to the printhead, the stepper motor being arranged to vary the position of the printhead, a sensor configured to generate a signal indicative of an angular position of the output shaft of the stepper motor, and a controller arranged to generate control signals for the stepper motor. Said control signals being at least partially based upon an output of said sensor and at least partially based upon a target position. Said control signals for the stepper motor are arranged to cause a magnetic field to be generated by windings of the stepper motor. A field angle being defined between an angular position of the output shaft of the stepper motor, and an orientation of the generated magnetic field. Said control signals comprise a first control signal configured to cause said field angle to have a predetermined value, and a second control signal configured to cause said magnetic field to have a predetermined magnitude, and said controller is configured to vary said first and second control signals based upon said target position and said output of said sensor.

A thermal printer, includes a head unit including a thermal head configured to perform printing on a recording sheet; a platen unit, which includes a platen roller configured to convey the recording sheet, and is separably combined with the head unit; a printer main body, which has a recording-sheet receiving portion configured to receive the recording sheet, and has the head unit mounted thereto; a printer cover, which has the platen unit mounted thereto, and is coupled to the printer main body so as to be pivotable; and a separator, which is provided in the recording-sheet receiving portion, and is configured to separate parts of the recording sheet, which is rolled into a roll shape around a core body, folded on each other at a rolling start portion, which is rolled around the core body and has a turn-back shape.

A printer includes a print head that performs printing on a recording medium, a frame, a platen roller attached to the frame, a head spring that biases the print head toward the platen roller, a hook provided on a facing surface of the frame facing a back surface of the print head, and a support provided at an end of the head spring and attached to the hook. The head spring is rotatable about the support.

A printing apparatus includes a thermal head in which a plurality of heating elements is arranged in a main scanning direction, a moving mechanism configured to relatively move a print medium with respect to the thermal head in a sub-scanning direction crossing the main scanning direction, a controller configured to control the thermal head and the moving mechanism, and a storage unit configured to store first print data in which pixels are arranged in the main scanning direction and the sub-scanning direction, the pixels including print pixels indicating pixels with which corresponding dots are formed on the print medium by heat generated by the heating elements and non-print pixels with which no dot is formed on the print medium, the first print data being for printing a first print image represented by the print pixels. The controller executes generation processing and control processing.

A printer includes a housing, a shaft connected to an inner surface of the housing at a first end thereof, extending along a first direction to a second end, and by which an ink ribbon is held, a print head connected to the surface at a first end thereof, extending along the direction to a second end, and transferring ink from the ribbon to a sheet, a roller connected to the surface at a first end thereof, extending along the direction to a second end, and conveying the sheet, and a holding plate connected to the second end of the roller and rotatable around a first hinge and by which the second ends of the shaft and the head are held when the plate is rotated about the first hinge to be parallel to the surface. The plate includes a second hinge about which the holding plate is foldable.

A printer includes a body; a cover configured to open and close relative to the body; a winding shaft in the cover for winding an ink ribbon; a regulation member in the cover to change a position in accordance with an open and closed state of the cover; a passive member connected to an end of the winding shaft to receive driving force; and a ribbon flange provided axially inside the passive member to rotate with the winding shaft. The ribbon flange includes a cam face on the inner side than an outer circumference of the ribbon flange. A radial distance of the cam face from a center axis of the shaft varies in accordance with a rotation angle position of the ribbon flange. An upper end portion of the lock member restricts the rotation of the ribbon flange by contacting the cam face when the cover is open.