Abstract: A multi-color ink tank includes certain features that properly interface with features on a printhead to operatively seat the ink tank in the printhead in a sealed flow communicative relationship with the printhead. These interface features are spaced apart relative to one another at distances (or dimensions) that ensure the desired seating and sealing of the ink tank in the printhead and thereby the reliable supply of ink for operation of the inkjet printing system.

Abstract: A individual ink tank includes certain features that properly interface with features on a printhead and carrier support structure to operatively seat the ink tank in the carrier support structure in a sealed flow communicative relationship with the printhead. These interface features are spaced apart relative to one another at distances (or dimensions) that ensure the desired seating and sealing of the ink tank in the carrier support structure and thereby the reliable supply of ink for operation of the inkjet printing system.

Abstract: A mono ink tank includes certain features that properly interface with features on a printhead and carrier support structure to operatively seat the ink tank in the carrier support structure in a sealed flow communicative relationship with the printhead. These interface features are spaced apart relative to one another at distances (or dimensions) that ensure the desired seating and sealing of the ink tank in the carrier support structure and thereby the reliable supply of ink for operation of the inkjet printing system.

Abstract: A multi-color ink tank includes certain features that properly interface with features on a printhead and carrier support structure to operatively seat the ink tank in the carrier support structure in a sealed flow communicative relationship with the printhead. These interface features are spaced apart relative to one another at distances (or dimensions) that ensure the desired seating and sealing of the ink tank in the carrier support structure and thereby the reliable supply of ink for operation of the inkjet printing system.

Abstract: A printhead body includes a floor having an interior side and an exterior side. A first set of body vias extend through the floor from the interior side to the exterior side. The first set of body vias is positioned to supply ink to a first micro-fluid ejection chip. A second set of body vias extend through the floor from the interior side to the exterior side. The second set of body vias is positioned to supply ink to a second micro-fluid ejection chip. A plurality of ink flow channels are formed on the interior side of the floor. Each individual ink flow channel of the plurality of ink flow channels is in fluid communication with a particular body via of the first set of body vias and is in fluid communication with a particular body via of the second set of body vias.

Abstract: A printhead body includes a floor having an interior side and an exterior side. A first set of body vias extend through the floor from the interior side to the exterior side. The first set of body vias is positioned to supply ink to a first micro-fluid ejection chip. A second set of body vias extend through the floor from the interior side to the exterior side. The second set of body vias is positioned to supply ink to a second micro-fluid ejection chip. A plurality of ink flow channels are formed on the interior side of the floor. Each individual ink flow channel of the plurality of ink flow channels is in fluid communication with a particular body via of the first set of body vias and is in fluid communication with a particular body via of the second set of body vias.

Abstract: A device verification method includes the steps of providing a device including a memory and a print pattern generator communicatively coupled to the memory, the print pattern generator generating image data based at least in part on a first value actually stored in a first memory location in the memory; printing the image data to produce a printed verification pattern; scanning the printed verification pattern to generate a verification value; reading a memorized value purportedly stored in the first memory location of the memory; comparing the memorized value with the verification value; and evaluating the device based on a result of the comparing step.

Abstract: A method for reducing the cost of imaging for customers includes the steps of establishing an imaging reward threshold value; determining a rate of consumption of a supply item; comparing the rate of consumption with the imaging reward threshold value; and, based on an outcome of the comparing step, determining whether the customer qualifies to receive an imaging reward.

Abstract: A device verification method includes the steps of providing a device including a memory and a print pattern generator communicatively coupled to the memory, the print pattern generator generating image data based at least in part on a first value actually stored in a first memory location in the memory; printing the image data to produce a printed verification pattern; scanning the printed verification pattern to generate a verification value; reading a memorized value purportedly stored in the first memory location of the memory; comparing the memorized value with the verification value; and evaluating the device based on a result of the comparing step.

Abstract: An ink detection sensor for an ink jet printer includes two terminals defining a substantially linear gap therebetween. An ink support device supports ink in the gap between the terminals. An electrical measuring device detects a change in an electrical resistance between the terminals when ink is supported in the gap by the ink support device.

Abstract: An ink detection sensor for an ink jet printer includes two terminals defining a substantially linear gap therebetween. An ink support device supports ink in the gap between the terminals. An electrical measuring device detects a change in an electrical resistance between the terminals when ink is supported in the gap by the ink support device.

Abstract: A sensor for detecting movement of a sheet of media including a light emitting element and a light sensing element for detecting at least part of the light emitted from the light emitting element and reflected by the sheet, the light sensing element providing an output. The sensor further includes a processor receiving the output of the light sensing element and detecting movement of the sheet based upon the output.

Abstract: The specification describes a printer containing an angled printer cartridge and a method for printing using the cartridge. The printer is an ink jet printer which includes a print media movement device for moving a print media having through the printer along a print media path and a printer cartridge attached to the printer at an angle between 0° and 90° relative to an axis perpendicular to an axis along the direction of the media path through the printer. The printer cartridge has a length sufficient to print substantially the entire width of the printed width across the print media and contains a plurality of printheads along at least a portion of the length thereof, each printhead having one or more nozzle arrays. During a printing operation, only a portion of the printheads along the length of the cartridge are activated thus, reducing power consumption during printing.

Abstract: Printer (1) has a large paper support tray (7) on one side, which is rotated outward to feed continuous forms (9). The length of tray 7 is extended by moving outward extension 7a. Tray 7 is folded into printer 1 when not in use.

Abstract: A page wide printhead for an ink-jet printer includes a plurality of ink-jet nozzles exceeding the number of nozzles used to print across the widest sheet of material to be printed by the printer. The excess nozzles permit the mounting tolerances for printheads to be relaxed so that only selected ones of the nozzles of mounted printheads are within a print site for printing the widest sheet of material to be printed. By selecting those nozzles within the maximum print site for operation of the printer, the sheet wide printheads are effectively mounted with a much higher precision than the relaxed tolerances permit so that ink-jet printers having sheet wide printheads can be economically manufactured. The identification of the nozzles within the maximum print site is performed by printing marks, preferably vertical lines, on a sheet of material and comparing the printed marks to an indicia representing the nominal location for a given picture element (pel).

Abstract: Disclosed is a replaceable media guide for use with a sheet feeding mechanism. The media guide includes a support plate, an edge guide projecting substantially at right angles from the support plate, and a first sheet engaging friction pad engaged with the support plate. The guide is designed so that the first friction pad faces a friction roller of a sheet feeding mechanism when the guide is mounted on the sheet feeding mechanism. A sheet feeding apparatus is also provided in which the media guide is inserted into the sheet feeding mechanism.