Patent application number | Description | Published |
20080226353 | APPARATUS AND METHODS FOR LOADING A DONOR ROLL UTILIZING A SLOW SPEED TRIM ROLL - An apparatus for loading one or more donor rolls of a developer unit, comprising a developer housing having a reservoir for a developer material, a rotatable first donor roll that delivers the toner onto a moving photoconductive member, a trim roll that receives developer material from the reservoir and delivers the developer material to a first magnetic brush roller that delivers toner to the first donor roll, and a rotatable second magnetic brush roll that receives the developer material from the first magnetic brush roll and delivers the toner to the first donor roll. The apparatus may further comprise a rotatable second donor roll that receives the toner from the second magnetic brush roll and delivers the toner onto the photoconductive member, and a rotatable third magnetic brush roll that receives the developer material from the second magnetic brush roll and delivers the toner to the second donor roll. The apparatus may further comprise a trim blade for trimming excess developer material from the trim roll. | 09-18-2008 |
20080226354 | APPARATUS AND METHODS FOR LOADING A DONOR ROLL - An apparatus for loading one or more donor rolls of a developer unit, comprising a developer housing having a reservoir for a developer material, a rotatable first donor roll that delivers the toner onto a moving photoconductive member, a rotatable first magnetic brush roll that receives the developer material from the reservoir and delivers the toner to the first donor roll, and a rotatable second magnetic brush roll that receives the developer material from the first magnetic brush roll and delivers the toner to the first donor roll. The apparatus may further comprise a rotatable second donor roll that receives the toner from the second magnetic brush roll and delivers the toner onto the photoconductive member, and a rotatable third magnetic brush roll that receives the developer material from the second magnetic brush roll and delivers the toner to the second donor roll. | 09-18-2008 |
20090033954 | Color job output matching for a printing system - A printing system is provided for color job matching of the output from a plurality of image marking engines. The system includes a first test image printed by a first image marking engine on a media document. The first test image having a data glyph and a plurality of reference patches. The system further includes a second test image printed by a second image marking engine on the media document. The second test image having a data glyph and a plurality of reference patches. The first and second test images are printed on the same side of the media document. A scanner is provided for scanning the media document. The scanned first and second test images provide calibration data for matching color correction tables of the first image marking engine and the second image marking engine, wherein the data glyph and the reference patches of the scanned image data are compared with retrieved color correction tables for generating compensation values based on a difference between the scanned image set-up data and the color correction tables for at least a first subsequent image document on the first image marking engine or the second image marking engine. | 02-05-2009 |
20110280606 | DYNAMIC DONOR LOADING CONTROL FOR DEVELOPMENT SYSTEM - A method and apparatus transfer a material from first roller within a container to at least one second roller, and transfer the material from the second roller to at least one third roller. The second roller and the third roller form a loading nip at a location where the second roller is closest to the third roller. The method and apparatus transfer the material from the third roller to at least one recipient device, and measure current flow between the second roller and the third roller using a measurement device. Then, the method alters the relative rotation rate difference between the first roller and the second roller based on the current flow to maintain a predetermined density of the material at the loading nip using a controller. | 11-17-2011 |
20120039642 | MULTI-STAGE FIXING SYSTEMS, PRINTING APPARATUSES AND METHODS OF FIXING MARKING MATERIAL TO SUBSTRATES - Multi-stage fixing systems for fixing toner to a substrate, printing apparatuses and methods of fixing marking material to a substrate are provided. An exemplary embodiment of the multi-stage fixing systems includes a softening device for softening toner applied to a substrate by a marking device; and a fixing device for fixing the softened toner to the substrate. The fixing device includes a first fixing member including a first surface; a first thermal energy source for actively heating the first surface; and a second fixing member including a second surface, the first surface and the second surface form a fixing nip at which the substrate with softened toner is received. The first fixing member and the second fixing member are operable to apply heat and pressure to the substrate and softened toner received at the fixing nip to fix the toner to the substrate. | 02-16-2012 |
20120039647 | FIXING DEVICES INCLUDING EXTENDED-LIFE COMPONENTS AND METHODS OF FIXING MARKING MATERIAL TO SUBSTRATES - Fixing devices including extended-life components and methods of fixing marking material to a substrate are provided. An exemplary embodiment of the fixing devices for fixing toner to a substrate in printing includes a first fixing member including a first surface; a thermal energy source for heating the first surface of the first fixing member to a fixing temperature; and a second fixing member including a second surface. The first surface and the second surface form a fixing nip configured to receive a substrate including a surface and marking material comprising toner disposed on the surface. The first fixing member and the second fixing member are operable to apply a pressure of at least about 300 psi to the substrate and toner and to heat the toner to a sufficiently-high temperature, at the fixing nip, to fix the toner to the substrate. | 02-16-2012 |
20140261030 | SYSTEMS FOR APPLYING DAMPENING FLUID TO AN IMAGING MEMBER FOR INK-BASED DIGITAL PRINTING - A dampening fluid metering system includes an anilox roll configured to meter dampening fluid onto a surface of an imaging member to form a thin, uniform layer of dampening fluid for subsequent imaging by exposure to light radiation. The anilox roll is configured to form a dampening fluid layer that is uniform and has a thickness of 1 micron or less, and preferably a thickness lying in a range of 0.2 to 1 micron. | 09-18-2014 |
Patent application number | Description | Published |
20110012969 | DUAL MODE PRINTER - A dual mode imaging device includes an input for supplying a medium to the imaging device, the medium comprising at least one of an erasable paper, and a non-erasable paper. The erasable paper can be one of an imaged or a non-imaged erasable paper. A conventional imaging subsystem is provided for imaging the non-erasable paper. A heating subsystem is provided for heating an input medium to one of an erasing temperature, an imaging temperature, or a fusing temperature according to a type of job requirement. A cooling station selectively cools an erased medium to an imaging temperature. A write subsystem is provided for UV imaging an erased medium. | 01-20-2011 |
20110037802 | DUAL MODE PRINTER WRITE HEADS - A dual mode imaging device includes an input for supplying a recording medium to the printer. The recording medium can be erasable media and/or a non-erasable media. A carriage assembly within the imaging device includes guide rails, the carriage assembly reciprocal along the guide rails and parallel to an imaging surface of the recording medium. The carriage assembly includes an ink jet print head for imaging a non-erasable media in a first print mode and a write head having a UV imaging light source for imaging erasable media in a second print mode. The device further includes a heater provided on the carriage assembly for selectively heating the erasable media to one of an erase temperature and a UV imaging temperature. The heater can be proximate to or incorporated with the UV write head. | 02-17-2011 |
20110037803 | WRITE HEATING ARCHITECTURE FOR DUAL MODE IMAGING SYSTEMS - A dual mode imaging system includes an ink jet device for imaging non-erasable media and a write device for imaging erasable media. A media transport subsystem is provided for supplying non-erasable and erasable media to one of the ink jet device and the write device. A heat source is incorporated into the media transport subsystem, and particularly in connection with a guide baffle of the ink jet device, the heat source heating erasable media to a temperature suitable for imaging at the write device. | 02-17-2011 |
20110037820 | ERASE AND WRITING CONTINUOUS FOR ERASABLE MEDIA - An imaging device includes an input for supplying an erasable medium to the imaging device, the erasable medium comprising at least one of an imaged and a non-imaged erasable medium The imaging device further includes an erase subsystem comprising active and inactive states, the erase subsystem erasing an imaged erasable medium in an active state, a cooling subsystem for selectively cooling an erased medium, and a write subsystem for imaging a received medium. The device further includes a user interface for configuring the imaging device and a sensor for detecting the type of input medium. | 02-17-2011 |
20110037821 | ERASE DECOUPLED FROM WRITING FOR ERASABLE PAPER - An erasable media imaging device includes an input for supplying erasable media to the imaging device, the erasable media being one of an imaged erasable medium and a non-imaged erasable medium. An erase subsystem is provided for erasing an imaged erasable medium and a write subsystem is provided for imaging a non-imaged erasable medium, the erase subsystem and function decoupled from the write subsystem and function. In a corresponding method, one of an imaged erasable medium and a non-imaged erasable medium are supplied to the imaging device. The method further includes selecting only one of an erase mode and a write mode, the erase mode decoupled from the write mode, erasing an imaged erasable medium in the erase mode, and imaging the non-imaged erasable medium in the write mode. | 02-17-2011 |