A printing apparatus includes a printing head for printing on a bank book, a platen disposed opposite the printing head, and a cam mechanism for moving the platen. A sensor detects the thickness of the bank book which is between the printing head and the platen, and a sensor moving mechanism moves the sensor toward or away from the platen. A controller controls the operation of the cam mechanism and the sensor moving mechanism as the sensor is moved to a measuring position approaching the printing head. The platen is moved toward the printing head according to a detected value, and then the sensor is retracted from the measuring position. As a result, after moving the platen, the sensor does not contact the surface of the bank book, and therefore does not produce jamming or oblique feeding of the bank book during a line feed or printing operation.

A printer in which a single pinch roller serves the dual function of a pinch roller cooperating with the drive roller to feed paper to the printing zone, and a carriage guide to guide movement of the printhead carriage. This roller automatically properly references the printhead to the printing surface, regardless of paper thickness. The printhead carriage, which is pivotally mounted to a carriage guide rod, rests in contact with and rides along the roller. Preferably, the center of gravity of the printhead carriage is spaced from the carriage guide rod and is disposed above the pinch roller, and the pinch roller is spaced from the carriage guide rod, so that the printhead carriage is preloaded into continual contact with the carriage guide rod. The carriage guide rod may be disposed either on the same side of the printhead carriage as the pinch roller, or on the opposite side of the carriage from the pinch roller.

A printing apparatus includes a printing head for printing on a bank book, a platen disposed opposite the printing head, and a cam mechanism for moving the platen. A sensor detects the thickness of the bank book which is between the printing head and the platen, and a sensor moving mechanism moves the sensor toward or away from the platen. A controller controls the operation of the cam mechanism and the sensor moving mechanism as the sensor is moved to a measuring position approaching the printing head. The printing head is moved toward the platen according to a detected value and then the sensor is retracted from the measuring position. As a result, after moving the printing head, the sensor does not contact the surface of the bank book, and therefore does not produce jamming or oblique feeding of the bank book during a line feed or printing operation.

A printer system is disclosed. The printer system includes a frame, at least one feed roll shaft coupled to the frame for feeding a document through the printer system, and a reference plate rotatably attached to the at least one feed roll shaft. The reference plate includes a first surface for facilitating scanning functions and a second surface for facilitating printing functions. According to the system and method disclosed herein, printing and scanning mechanisms are optimally integrated in a compact space by utilizing a multi-purpose reference plate.

A printer capable of selective printing of a relatively narrow uncut sheet or a relatively wide cut sheet has a paper feeding apparatus for such selective printing. The paper feeding apparatus includes an uncut sheet feeding mechanism for feeding the uncut sheet from a roll of the uncut sheet to a gap formed between a printing head and a platen, and a cut sheet feeding mechanism for feeding the cut sheet to a gap between the printing head and the uncut sheet on the platen. The uncut sheet feeding mechanism and the cut sheet feeding mechanism are selectively driven to feed either the uncut sheet or the cut sheet.