A thermal printer includes a thermal head, a temperature sensor, and a controller. The thermal head includes heat generation elements configured to generate heat to perform printing. The temperature sensor is disposed in the thermal printer. The controller is configured to alternately turns on and off the heat generation elements during an idle state of the thermal printer for a number of cycles with a predetermined on-time period in each cycle. The controller determines the number of cycles and the predetermined on-time period based on temperature data obtained by the temperature sensor, such that heat energy generated by the heat generation elements during each of the cycles in the idle state is lower than heat energy generated by the heat generation elements during printing of one line.

In some examples, a system may include a thermal print head including a plurality of print head elements to heat a print medium. The system may include a controller to determine a tri-color tuple of a pixel of an image to be printed; determine an input temperature at a specific print head element, of the plurality of print head element s, printing the pixel on thermal print medium; and determine a voltage pulse pattern for printing the tri-color tuple at the input temperature based on a previously printed pixel.

An embodiment of the present invention is a printer that includes a platen roller to feed a print medium, a print head to print on the print medium fed by the platen roller, a connector that is attachable and detachable with respect to the print head the print head, and a controller to stop power supply to the print head via the connector when the platen roller and the print head are separated.

An embodiment of the present invention is a printer that includes a platen roller to feed a print medium, a print head to print on the print medium fed by the platen roller, a connector that is attachable and detachable with respect to the print head the print head, and a controller to stop power supply to the print head via the connector when the platen roller and the print head are separated.

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.

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.

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.

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.

A print apparatus includes a conveyor configured to convey a sheet along a conveyance path in a first direction. The print apparatus also includes a print head on the conveyance path, a main scan direction of the print head crossing the first direction. The print apparatus further includes a print controller configured to control the print head that in a first print mode prints images on the sheet using a first print reference position on a first end of the print head in the main scan direction and a first image direction parallel to the first direction, and in a second print mode prints images on the sheet using a second print reference position on a second end of the print head in the main scan direction and a second image direction parallel and opposite to the first image direction.

A print apparatus includes a conveyor configured to convey a sheet along a conveyance path in a first direction. The print apparatus also includes a print head on the conveyance path, a main scan direction of the print head crossing the first direction. The print apparatus further includes a print controller configured to control the print head that in a first print mode prints images on the sheet using a first print reference position on a first end of the print head in the main scan direction and a first image direction parallel to the first direction, and in a second print mode prints images on the sheet using a second print reference position on a second end of the print head in the main scan direction and a second image direction parallel and opposite to the first image direction.