| Patent application number | Description | Published |
|---|
| 20100150598 | TONER AND ADDITIVE REMOVAL SYSTEM FOR COPIER OR PRINTER - This is an electrophotographic marking system that effectively cleans residual toner and toner additives from the surface of a photoreceptor of a marking system, by improved toner and toner agent removal expedients . This cleaning process reduces ghosting problems that had been encountered in final copies produced by electrophotographic systems such as in copier, printers and duplicators. This cleaning is accomplished by expedients such as increasing a cleaning brush bias, and by increasing the surface area of cleaning brushes used in the system. In addition, the development process is desensitized to the development of ghosting. This desensitizing is accomplished by expedients such as increasing the gap between the development roll and the photoreceptor and by reducing the AC development electrical bias. | 06-17-2010 |
| 20100196068 | IMAGE FORMING MACHINE BLADE ENGAGEMENT APPARATUS WITH BLADE CASSETTE - A blade engagement system for cleaning and/or metering a release agent onto an image forming machine moving surface, such as a photoreceptor. The blade engagement system includes a blade cassette having a plurality of blades, each including a compliant blade member having a blade tip. The blade engagement system also including a blade engagement apparatus removably receiving the blade cassette. The blade engagement apparatus having a blade positioning mechanism moving the blades, one at a time, from the blade cassette to a working position wherein the blade tip engages the moving surface for cleaning and/or metering. Used blades can be moved back into the cassette for storage. The blade cassette can be replaced with a new one after all of the blades have been used. | 08-05-2010 |
| 20100278548 | AUTOMATED CLEANER FOR A CHARGING DEVICE - An image forming apparatus including: a first charging device for charging an imageable surface; recording means for recording an electrostatic latent image on the imageable surface; developing means for developing the electrostatic latent image with developer; a second charging device for transferring a developer image on the imageable surface onto an a substrate; control means for setting a value of the bias of either the first charging device or the second charging device from an operating bias to a testing bias; test pattern forming means for forming test patterns on the imageable surface at operating bias and said testing bias; test patterns detection means for scanning non-uniformity of the test patterns, and means for associating non-uniformity of the test patterns to a reliability condition of either the first charging device and/or second charging device. | 11-04-2010 |
| 20100278553 | AUTOMATED CLEANER FOR A CHARGING DEVICE - An apparatus for controlling a cleaning device for cleaning a charging device, including: means for detecting contamination on the charging device; means, in communication with detecting means, for generating a cleaning command; and a controller, responsive to the cleaning command, for controlling operation of the cleaning system. | 11-04-2010 |
| 20100321719 | MUTUAL ENGINE CONTROLLER - A printing device has a printing engine that is at least partially made up of a customer replaceable unit or units. An engine controller is operatively connected to the printing engine. The engine controller uses software to control the operations of the printing engine. A non-volatile memory is operatively connected to the engine controller. The non-volatile memory stores values used by the engine controller to control operations of the printing engine. An adapter card is operatively connected to the non-volatile memory and to the customer replaceable units. The customer replaceable unit has a memory unit and the adapter card reads data from the memory unit. The adapter card uses the data to directly alter values within the non-volatile memory by bypassing the engine controller when communicating with the non-volatile memory. Further, the adapter card alters the non-volatile memory without altering the software used by the engine controller. | 12-23-2010 |
| 20110091255 | METAL BLADE CLEANING OF AN AMORPHOUS SILICON RECEPTOR - This is a shim cleaning blade for use in a novel cleaning station of an electrophotographic marking system having an a-Si photoconductive surface. The cleaning blade is preferably made from stainless steel but other metals can be used if suitable. The blade has a thickness of about 0.05-0.2 mm, but best results are obtained when using a thickness of about 005-0.1 mm. The cleaning blade contacts the photoconductive surface it is cleaning at an angle of from about 2 to about 40 degrees. | 04-21-2011 |
| 20110311286 | CLEANING BLADE PARAMETER ADJUSTMENT SYSTEM - A cleaning blade assembly within a printing device is positioned to contact a surface to be cleaned. There is a first opening within the cleaning blade assembly and a first pin within the first opening. There is also a second opening within the cleaning blade assembly, and a second pin within the second opening. The first and second pins connect the cleaning blade assembly to the printing device. The first pin has a first cam surface that is rounded and is off-center with respect to the axis of the first pin. The cam surface is parallel to the axis of the first pin and is positioned within the first opening such that rotation of the first pin within the first opening causes the cleaning blade assembly to move in a direction perpendicular to the axis of the first pin. | 12-22-2011 |
| 20120008965 | CURRENT MONITORING TO DEFECT PHOTORECEPTOR SCRATCHES - A method monitors an electric current supplied to an electrostatic brush within a printing device. The electrostatic brush contacts and cleans a photoreceptor surface within the printing device. The method records a current spike pattern of when the electric current exceeds a first current threshold during the monitoring; however, the method will stop operations of the printing device if the electric current exceeds a second current threshold that is greater than the first current threshold. Further, the method can determine whether a scratch is present on the photoreceptor surface based on the current spike pattern. | 01-12-2012 |
