Patent application number | Description | Published |
20090244225 | Melting Device For Increased Production Of Melted Ink In A Solid Ink Printer - A solid ink printer is enabled to eject ink onto image substrates at rates that are greater than previously known solid ink printers. The solid ink printer includes a print head that ejects melted ink, a web of image substrate that moves past the print head to receive melted ink ejected from the print head, a pair of fixing rollers positioned downstream of the print head, the fixing rollers forming a nip through which the web of image substrate passes to fix the ink onto the web of image substrate, and a melting device coupled to the print head to provide melted ink to the print head. The melting device includes a housing having an opening to receive solid ink, a first rotatable member mounted within the housing, a second rotatable member mounted with the housing, the second rotatable member being proximate to, but spatially separated from the first rotatable member mounted within the melting housing, a heater located within the first rotatable member to heat the first rotatable member to a temperature at which the solid ink melts; and a motor coupled to the first rotatable member and the second rotatable member to rotate the first rotatable member and the second rotatable member within the housing to shear the solid ink as the solid ink melts against the heated first rotatable member. | 10-01-2009 |
20110134171 | Method And Device For Controlling The Mass Of An Ink Droplet - An inkjet printing system controls an ink droplet mass by regulating a pressure in an ink reservoir. The printing system includes an ink reservoir, an air pressure device, an ink ejection device, and a controller. The ink reservoir is configured to contain a supply of ink and an air space above the supply of ink. The air pressure device is fluidly coupled to the air space above the supply of ink. The ink ejection device is fluidly coupled to the ink reservoir to receive ink from the supply of ink and to eject ink droplets onto an image receiving surface. The controller is coupled to the air pressure device and is configured to activate the air pressure device selectively to change a mass of the ink droplets ejected by the ink ejection device. | 06-09-2011 |
20120206527 | RADIANT HEATER FOR PRINT MEDIA - A heater panel is configured to heat a print medium in a printer. The heater panel includes electrical conductors that form a plurality of heating zones to emit radiant energy toward the print medium. Heating zones that correspond to edges of the print medium emit radiant energy with a greater power density than heating zones that correspond to central portions of the print medium. The heater panel has a plurality of angled positions to vary the view factor for high gain control. | 08-16-2012 |
20130328961 | Inkjet Printer having an Image Drum Heater and Cooler - An inkjet offset printer includes a heated drum assembly having a hollow drum with an internal surface defining an internal cavity and a heater and a cooler located in the internal cavity. The heater includes at least one ceramic heater element. The cooler includes a slot to direct an air stream to the internal surface of the drum and aids in quenching the heating element for faster control responses. | 12-12-2013 |
20130335496 | Printer having Skewed Transfix Roller to Reduce Torque Disturbances - An inkjet offset printer includes an imaging drum and a transfix roller skewed with respect to and defining a continuously applied or an uninterrupted nip with the imaging drum to reduce torque disturbances and media wrinkling issues. Acoustic and physical disturbances resulting from a sheet of recording media entering and leaving the nip are reduced or eliminated. | 12-19-2013 |
20140015909 | System and Method for Aligning Duplex Images Using Alignment Marks - A system and method for adjusting a transport path length of a continuous web of recording media in a printing system printing duplex images. The method includes detecting alignment marks, for instance top of form (TOF) marks, on the continuous web of print media and adjusting the path length to provide substantially accurate registration of first and second images on opposite sides of the web for duplex imaging. The system to adjust path length includes idler rollers movable with respect to turnbar rollers. | 01-16-2014 |
20140028747 | System and Method for Spreading Ink on a Media Web - A leveling and spreading system has been developed that enables the speed and position of the web to be determined from a sensor on a first roller. In a duplex print process, the first roller also reduces a temperature of the media web and an ink image printed in the first side print operation to within a first predetermined temperature range. A second roller modulates the temperature of the media web and ink ejected onto the media web immediately before the web enters the leveling and spreading system to within a second predetermined temperature range to enable uniformity of the ink and web temperatures for spreading the ink in a nip formed with a third roller. | 01-30-2014 |
20140198163 | Inkjet Printer Having An Image Drum Heater And Cooler - An inkjet offset printer includes a heated drum assembly having a hollow drum with an internal surface defining an internal cavity and a heater and a cooler located in the internal cavity. The heater includes at least one ceramic heater element. The cooler includes a slot to direct an air stream that is normal to the internal surface of the drum that aids in quenching the heating element for faster control responses. | 07-17-2014 |
20150015651 | Air Film Support Device For An Inkjet Printer - A system and method prints on a continuous web of imaging material in a printing machine. One or more inkjet printheads deposit ink on the continuous web of imaging material which is supported by rollers along a transport path. An air film device is disposed between rollers to stabilize flatness the transported web during printing. Undesirable dynamic movement of the web toward or away from the printheads resulting from fluttering, troughing or catenary sag of the web is reduced to minimize drop placement error in both cross-track and process directions. | 01-15-2015 |