A control device includes a processor configured to: acquire information on a direction in which continuous paper is wound up, specify a viewable surface, which is a surface of the continuous paper viewable from a user in a state where the continuous paper has been wound up, on a basis of the direction in which the continuous paper is wound up, and control a printer to print print information, which is information on a job printed on the continuous paper, on the viewable surface.

In an example, a media guide assembly includes a support structure, a first media guide, and a second media guide moveably coupled to the support structure. In that example, the second media guide includes a surface that generates a wedge effect to move the second media guide to a level when contacted by a force. In another example, an example print apparatus includes a support structure, a first media guide, and a second media guide substantially parallel to the first media guide with respect to a media advance direction. In that example, the second media guide includes a position control mechanism to place force on a media path surface of the second media guide towards a rest position where the media path surface of the second media guide is substantially parallel to the media path surface of the first media guide.

A printing apparatus includes a first feeding part configured to feed print media from a first support part supporting the print media, a second feeding part configured to feed print media from a second support part supporting the print media, and a print head configured to print on the print media fed by the first feeding part or the second feeding part. Further, the printing apparatus includes a first conveying path where the print media fed by the first feeding part are conveyed to the print head, and a second conveying path where the print media fed by the second feeding part are conveyed to the print head. At least a part of the second feeding part protrudes in a predetermined spatial area within the first conveying path during a feed operation of feeding print media from the second support part.

The present invention provides a method for printing a Quality Assurance print chart, QA chart, comprising the steps of: determining the maximum print width for at least one media sheet to be printed subsequently to the printing of the QA chart, selecting from a plurality of media types designated as being suitable for QA charts, a media type that has substantially the same or a greater media width as the determined print width for the at least one media sheet to be printed subsequently, setting a print width for the QA chart substantially to the determined print width, and printing the QA chart with the set print width on the selected media type.

A printing apparatus includes a first feeding part configured to feed print media from a first support part supporting the print media, a second feeding part configured to feed print media from a second support part supporting the print media, and a print head configured to print on the print media fed by the first feeding part or the second feeding part. Further, the printing apparatus includes a first conveying path where the print media fed by the first feeding part are conveyed to the print head, and a second conveying path where the print media fed by the second feeding part are conveyed to the print head. At least a part of the second feeding part protrudes in a predetermined spatial area within the first conveying path during a feed operation of feeding print media from the second support part.

The disclosed embodiments illustrate a thermal printer apparatus that includes a media sensor. The sensor generates an input signal indicative of a measure of a media transmissivity/reflectivity. Further, the thermal printer includes a processor that is configured to receive the input signal from the sensor, while the media is stationary with respect to a print head. The processor further determines one or more characteristics of the input signal. Thereafter, a first transmissivity/reflectivity threshold is determined based on the one or more characteristics in the input signal. Further, the processor receives the input signal from the sensor, while the media traverses with respect to the print head. Subsequently, the processor determines one or more current characteristics of the input signal while the media traverses with respect to the print head. A media jam condition is detected based on the one or more current characteristics and the first transmissivity/reflectivity threshold.

A first feeder contacts a first surface of a first sheet held in a first tray and feeds the first sheet toward a recording unit. A second feeder contacts a first surface of a second sheet held in a second tray and feeds the second sheet toward the recording unit. An inner member is disposed above a standing plate. An outer member comprises an upstream portion opposing the standing plate, and a downstream portion opposing the inner member. The inner member guides the first surface of the first sheet and the first surface of the second sheet. The standing plate guides the first surface of the second sheet. The upstream portion of the outer member guides a second surface of the second sheet, and the downstream portion guides a second surface of the first sheet and the second surface of the second sheet. The standing plate moves relative to the outer member.

A printing apparatus includes a first feeding part configured to feed print media from a first support part supporting the print media, a second feeding part configured to feed print media from a second support part supporting the print media, and a print head configured to print on the print media fed by the first feeding part or the second feeding part. Further, the printing apparatus includes a first conveying path where the print media fed by the first feeding part are conveyed to the print head, and a second conveying path where the print media fed by the second feeding part are conveyed to the print head. At least a part of the second feeding part protrudes in a predetermined spatial area within the first conveying path during a feed operation of feeding print media from the second support part.

Systems for providing on-demand food service material printing for food service are provided herein. A food service material dispenser comprises a roll holder configured to hold a roll of food service material, one or more rollers, and a motor configured to operate to translate the food service material along a path within the dispenser. The dispenser includes a cutting arrangement configured to perform a cut of the food service material to form the sheet of food service material that defines a size associated with a food service order. The dispenser also includes a printer configured to print at least one of order information or personalization information on the food service material that is based on the associated food service order. The dispenser further includes a chute configured to dispense the sheet of food service material, which includes the at least one of order information or personalization information printed thereon.

A feeding apparatus includes: a measurement unit measuring an attribute of a sheet fed by a feeding unit to obtain attribute value; a notification control unit making a notification of information representing sheet types in accordance with the attribute value obtained by the measurement unit; a selection unit accepting selection of a sheet type after the notification; a setting unit setting the sheet type selected by the selection unit as a type of the sheet; a history storage unit storing history information serving as information of sheet types accepted once by the selection unit; and a reference storage unit storing reference information serving as reference attribute values. The notification of the information represents the sheet types in a notification order decided based on the reference attribute values stored in the history information and the attribute value obtained by the measurement unit.