Patent application number | Description | Published |
20080316246 | METHOD FOR CALIBRATING AN INK SENSE RESPONSE IN AN APPARATUS CONFIGURED TO FACILITATE OPTICAL INK SENSING - A method for calibrating as ink sense response of an optical ink sensor device in an imaging apparatus configured to facilitate optical ink sensing for an ink tank having an ink sensing window includes obtaining a calibration response to a reference reflective surface having a known reflectivity, which is associated with a printhead carrier of the imaging apparatus that carries the ink tank, using the optical ink sensor device; and calibrating the ink sense response based on the calibration response. | 12-25-2008 |
20090167819 | Automatic printhead and tank install positioning - A system and method for automatically determining the appropriate printhead/ink tank installation position to move a carrier transporting the printhead/ink tanks for a printing device is presented. The carrier transporting the printhead/ink tank moves along a carrier frame and is covered by a protective cover. Once the protective cover is raised on the printing device, the status of the ink tank is sensed. Based on the ink tank status, the printing device carrier is moved to the appropriate printhead/ink tank installation position. In one embodiment, the status of the ink tank is determined by using the ink presence sensor. In another embodiment, the status of the ink tank is determined by using near field wireless communication with the memory of the ink tank. | 07-02-2009 |
20120169812 | CONSUMABLE SUPPLY ITEM, FLUID RESERVOIR AND RECIRCULATION SYSTEM FOR MICRO-FLUID APPLICATIONS - A consumable supply item for an imaging device holds an initial or refillable volume of ink. An interior retains the ink while exit and return ports define openings through a housing to fluidly communicate the interior to the imaging device. The opening of the return port is larger than the opening of the exit port. The design slows the return of fluid to the housing which minimizes air bubbles or frothiness in the fluid. During use, ink depletes toward a bottom surface of the interior beneath which the ink is prevented from occupying. A housing section below the interior retains a portion of the exit port so that a bottom of the opening of the exit port is substantially horizontally aligned with the bottom surface. It prevents stranding ink beneath the exit port. Further embodiments include port configuration, construction, and modular components, to name a few. | 07-05-2012 |
20120169813 | CONSUMABLE SUPPLY ITEM, FLUID RESERVOIR AND RECIRCULATION SYSTEM FOR MICRO-FLUID APPLICATIONS - A housing defines a fluid reservoir for an imaging device. One or more exterior walls define a volume for holding ink to set a fluid backpressure in the imaging device. An opening in the walls is positioned for overflowing excessive ink from the volume to maintain the fluid backpressure within a predetermined operating range. Fluid inlets and outlets connect the reservoir to both a supply item and an ejection head. Ink flows into the reservoir from the supply item. It fills until the fluid rises to a height where it overflows back to the supply item. Less full reservoirs fill as the pump operates, while full reservoirs simultaneously return fluid back to their supply containers. Fluid does not spill from the walls. | 07-05-2012 |
20120218356 | CONSUMABLE SUPPLY ITEM WITH CAPACITIVE FLUID LEVEL DETECTION FOR MICRO-FLUID APPLICATIONS - A consumable supply item for an imaging device holds an initial or refillable volume of fluid. Its housing defines an interior having a pair of opposed electrodes. The electrodes define a capacitance that varies in response to an amount of liquid between them. A volume space filled by the liquid varies along a length of the electrodes. The design facilitates abrupt changes in capacitance values at each change in the volume space. Devices can recalibrate fluid levels at these changes. Electrode interior surfaces face one another. At least one electrode has an open region, such as a hole or a cutout of material. In another design, a support material connects to each electrode to provide mechanical stability and create a region preventing filling by the liquid. Further embodiments contemplate material selection, construction, and modularity, to name a few. | 08-30-2012 |
20120306973 | CONSUMABLE SUPPLY ITEM WITH FLUID SENSING FOR MICRO-FLUID APPLICATIONS - A consumable supply item for an imaging device holds an initial or refillable volume of ink. A housing defines an interior having a pair of opposed electrodes. The electrodes have a capacitance that varies in response to an amount of liquid between them. A controller energizes one electrode and receives an output reading from the other. The controller processes the reading on board the housing and supplies it as a digital data stream to the imaging device during use. A memory stores calibration values for an empty and full housing. The controller writes back to the memory present fluid levels obtained from the output reading of the electrode. An enable output allows operation or not of a fluid pump in the imaging device. Materials, construction, modularity, and fluid communication ports are further embodiments, to name a few. | 12-06-2012 |
20120306974 | CONSUMABLE SUPPLY ITEM WITH FLUID SENSING AND PUMP ENABLE FOR MICRO-FLUID APPLICATIONS - A consumable supply item for an imaging device holds an initial or refillable volume of ink. A housing defines an interior having a pair of opposed electrodes. The electrodes have a capacitance that varies in response to an amount of liquid between them. A controller energizes one electrode and receives an output reading from the other. The controller processes the reading on board the housing and supplies it as a digital data stream to the imaging device during use. A memory stores calibration values for an empty and full housing. The controller writes back to the memory present fluid levels obtained from the output reading of the electrode. An enable output allows operation or not of a fluid pump in the imaging device. Materials, construction, modularity, and fluid communication ports are further embodiments, to name a few. | 12-06-2012 |
20150352856 | CONSUMABLE SUPPLY ITEM WITH FLUID SENSING FOR MICRO-FLUID APPLICATIONS - A consumable supply item for an imaging device holds an initial or refillable volume of ink. A housing defines an interior having a pair of opposed electrodes. The electrodes have a capacitance that varies in response to an amount of liquid between them. A controller energizes one electrode and receives an output reading from the other. The controller processes the reading on board the housing and supplies it as a digital data stream to the imaging device during use. A memory stores calibration values for an empty and full housing. The controller writes back to the memory present fluid levels obtained from the output reading of the electrode. An enable output allows operation or not of a fluid pump in the imaging device. Materials, construction, modularity, and fluid communication ports are further embodiments, to name a few. | 12-10-2015 |