Abstract: An image producing machine including (a) an imaging member having a surface; (b) a printhead for forming an image onto the imaging surface; (c) a substrate supply system for feeding substrates to receive the formed image; and (d) a static eliminating container that includes a closed end; an open end; at least one cylindrical member having an interior surface defining a chamber for containing a quantity of solid phase-change ink pastilles. The static eliminating apparatus includes (i) a conductive interior portion for contacting the quantity of solid phase change ink pastilles being contained and moved therein; (ii) a groundable conductive exterior portion; and (iii) a conductive connector for connecting the conductive interior portion to the groundable conductive exterior portion, thereby enabling dissipation of static build up from frictionally moving the quantity of solid phase-change ink pastilles within the interior chamber.

Abstract: A solid phase change ink melter assembly in a phase change ink image producing machine comprises an array of a plurality of spaced apart fins, the array defining a top face for receiving the solid pieces of phase change ink, a bottom face for discharging melted ink, and opposite melter surfaces for melting the solid pieces in contact therewith. The assembly further comprises a number of heat transfer devices extending through and in heat transfer contact with the plurality of fins, the heat transfer devices including a heating element for heating the device. The bottom edge of the fins defines a plurality of apexes which serve as drip points for molten phase change ink.

Abstract: In a phase-change ink image producing machine, better control flow of molten solid ink may be provided by a solid ink valve system including a valve plate with one or more valve ports, an umbilical connector, and a valve positioned between the valve plate and the umbilical connector. Ink flow between the valve plate and the umbilical connector may be asynchronously regulated by actuating the valve. Such actuation may be performed by heating and cooling the valve, by applying electric current to a coil that surrounds a valve element of the valve and to a wire provided in the valve element and/or by asynchronously actuating a valve associated with the valve port.

Abstract: A printing apparatus includes a printing station, including at least one printhead for applying phase-change ink to the substrate, and a backing member disposed on an opposite side of the substrate substantially opposite the printhead, the backing member causing the substrate to reach a predetermined ink-receiving temperature.

Abstract: A system and method for controlling the cross-process position of ink print heads including identifying a first roll error frequency related to a circumference of a first roll, identifying a first roll error phase with respect to a reference location along a process path, identifying a first roll error amplitude of cross-process motion, identifying a second roll error frequency related to a circumference of a second roll, identifying a second roll error phase with respect to the reference location, identifying a second roll error amplitude of cross-process motion, and controlling the cross-process position of a first and second print head based upon the identified first roll error frequency, first roll error phase, first roll error amplitude, second roll error frequency, second roll error phase, and second roll error amplitude, wherein the first print head is axially spaced apart from the second print head along the process direction.

Abstract: A system and method for controlling the cross-process position of ink print heads including identifying a first roll error frequency related to a circumference of a first roll, identifying a first roll error phase with respect to a reference location along a process path, identifying a first roll error amplitude of cross-process motion, identifying a second roll error frequency related to a circumference of a second roll, identifying a second roll error phase with respect to the reference location, identifying a second roll error amplitude of cross-process motion, and controlling the cross-process position of a first and second print head based upon the identified first roll error frequency, first roll error phase, first roll error amplitude, second roll error frequency, second roll error phase, and second roll error amplitude, wherein the first print head is axially spaced apart from the second print head along the process direction.

Abstract: A particulate composition of solid phase change ink is comprised of sub-granular size pastilles composed of at least a salt, an ink vehicle compound, a viscosity modifying amide compound and a colorant, and each sub-granular size pastille of the particulate composition is at most the size of very coarse sand, and has a diameter of at most 2 mm on the Wentworth-Udden particle-sizing scale for increasing a melting rate thereof at a melting temperature of the solid phase change ink.

Abstract: System and method for encapsulating edges of a paper in digital printing systems. A spray applicator can include a set of stationary sprayers with spray nozzles, a set of transfer rollers and an inkjet print head. The stationary sprayers can be positioned at both marginal ends of the paper. The stationary sprayers apply the fluid through the spray nozzles at edges of the moving paper to encapsulate the edges of the paper such that loose paper fibers and debris are bound to the paper. The fluid can be applied when the transfer rollers can pass the moving paper through a printer or printing press. Thus, the system can protect various subsystems of the printer or printing press against contamination due to the loose paper fibers and debris.

Abstract: A high-speed phase change ink image producing machine having a phase change ink delivery system including particulate pastille solid phase change ink for enabling the high-speed phase change ink image producing machine to produce images at a rate exceeding 50 prints per minute, the particulate pastille solid phase change ink consisting essentially of (i) sub-granular size particulate pastilles for heating and melting into liquid phase change ink, (ii) each sub-granular size particulate pastille is waxy and melts at less than about 120.degree. C.

Abstract: This invention provides an ink jet assembly that prevents and controls ink drips from upper print heads from contacting the lower print heads or paper in the system. A heated ink drip bib is provided below the ink jet releasing portion of a print head. This ink drip bib directs falling or dripping ink into a drip tray located below each ink bib during the purge cycle. The ink bibs and the drip trays are co-extensive so that any ink being deflected from the ink bib is caught by the ink tray. In one embodiment, the ink bib is angled away from the printing surface to ensure that any solidified ink is separated from an imaging surface.

Abstract: In a phase-change ink image producing machine, better control flow of molten solid ink may be provided by a solid ink valve system including a valve plate with one or more valve ports, an umbilical connector, and a valve positioned between the valve plate and the umbilical connector. Ink flow between the valve plate and the umbilical connector may be asynchronously regulated by actuating the valve. Such actuation may be performed by heating and cooling the valve, by applying electric current to a coil that surrounds a valve element of the valve and to a wire provided in the valve element and/or by asynchronously actuating a valve associated with the valve port.

Abstract: A printing apparatus includes a printing station, including at least one printhead for applying phase-change ink to the substrate, and a backing member disposed on an opposite side of the substrate substantially opposite the printhead, the backing member causing the substrate to reach a predetermined ink-receiving temperature.

Abstract: An image producing machine including (a) an imaging member having a surface; (b) a printhead for forming an image onto the imaging surface; (c) a substrate supply system for feeding substrates to receive the formed image; and (d) a static eliminating container that includes a closed end; an open end; at least one cylindrical member having an interior surface defining a chamber for containing a quantity of solid phase-change ink pastilles. The static eliminating apparatus includes (i) a conductive interior portion for contacting the quantity of solid phase change ink pastilles being contained and moved therein; (ii) a groundable conductive exterior portion; and (iii) a conductive connector for connecting the conductive interior portion to the groundable conductive exterior portion, thereby enabling dissipation of static build up from frictionally moving the quantity of solid phase-change ink pastilles within the interior chamber.

Abstract: In a phase-change ink image producing machine, better control flow of molten solid ink may be provided by a solid ink valve system including a valve plate with one or more valve ports, an umbilical connector, and a valve positioned between the valve plate and the umbilical connector. Ink flow between the valve plate and the umbilical connector may be asynchronously regulated by actuating the valve. Such actuation may be performed by heating and cooling the valve, by applying electric current to a coil that surrounds a valve element of the valve and to a wire provided in the valve element and/or by asynchronously actuating a valve associated with the valve port.

Abstract: A static eliminating container is provided for storing and supplying a quantity of solid phase-change ink pastilles. The static eliminating container includes (a) a closed end; (b) an open end opposite the closed end; (c) at least one cylindrical member connecting the closed end to the open end and having an interior surface defining a chamber for containing and frictionally moving the quantity of solid phase-change ink pastilles; and (d) static eliminating apparatus including (i) a conductive interior portion for contacting the quantity of solid phase change ink pastilles being contained and moved therein; (ii) a groundable conductive exterior portion; and (iii) a conductive connector for connecting the conductive interior portion to the groundable conductive exterior portion, thereby enabling dissipation of static build up from frictionally moving the quantity of solid phase-change ink pastilles within the interior chamber.

Abstract: A maintenance system and method for maintaining an imaging member of an imagining device includes a pre-cleaning device to clean the imaging member; an applicator to apply release agent to the imaging member; a metering device to meter release agent on the imaging member; a reservoir to remotely store release agent; and a pump to supply the applicator with release agent from the reservoir. The saturation level of the applicator is monitored and maintained within a predetermined range. The applicator, pre-cleaning device and metering device may be independently actuated to engage the imaging member. Release agent collected by the pre-cleaning device and/or metering device may be recycled. Debris collected by the pre-cleaning device and/or metering device may be stored and/or removed.

Abstract: A maintenance system and method for maintaining an imaging member of an imaging device includes a pre-cleaning device to clean the imaging member; an applicator to apply release agent to the imaging member; a metering device to meter release agent on the imaging member; a reservoir to remotely store release agent; and a pump to supply the applicator with release agent from the reservoir. The saturation level of the applicator is monitored and maintained within a predetermined range. The applicator, pre-cleaning device and metering device may be independently actuated to engage the imaging member. Release agent collected by the pre-cleaning device and/or metering device may be recycled. Debris collected by the pre-cleaning device and/or metering device may be stored and/or removed.

Abstract: A maintenance system and method for maintaining an imaging member of an imaging device includes a pre-cleaning device to clean the imaging member; an applicator to apply release agent to the imaging member; a metering device to meter release agent on the imaging member; a reservoir to remotely store release agent; and a pump to supply the applicator with release agent from the reservoir. The saturation level of the applicator is monitored and maintained within a predetermined range. The applicator, pre-cleaning device and metering device may be independently actuated to engage the imaging member. Release agent collected by the pre-cleaning device and/or metering device may be recycled. Debris collected by the pre-cleaning device and/or metering device may be stored and/or removed.

Abstract: A process controls application of a release agent to an intermediate imaging member in a printer rotating the intermediate imaging member in a single direction to generate and transfer an image. The process includes moving a release agent applicator into engagement with a rotating imaging member to apply release agent to the rotating imaging member, and subsequently engaging the rotating imaging member with a wiper blade so the wiper blade encounters a the applied release agent bar before the applied release agent reaches a transferring roller. The process further involves the disengagement of release agent applicator with variable time dwell and delayed disengagement of release agent wiper blade to reduce release agent bar. The engagement and disengagement of the release agent applicator and the release agent wiper blade are coordinated by two cams to reduce the likelihood that release agent is transferred to a transferring roller in a quantity sufficient to degrade image quality during duplex printing.

Abstract: A process transfers an image from an intermediate imaging member onto a sheet of recording media while preserving the ability to duplex print on the sheet. The process includes generating an image on an intermediate imaging member as the intermediate imaging member rotates in a first direction, synchronizing a sheet of recording media with the image on the intermediate member as the intermediate imaging member continues to rotate in the first direction, transferring the image from the intermediate imaging member onto the sheet of recording media as the intermediate imaging member continues to rotate in the first direction, and limiting release agent on the intermediate imaging member to a level that preserves duplex printing capability on the sheet of recording media.