公开(公告)号：US06600882B1

公开(公告)日：2003-07-29

申请号：US10272920

申请日：2002-10-17

申请人： Steven Lewis Applegate ,  James John Molloy

发明人： Steven Lewis Applegate ,  James John Molloy

IPC分类号： G03G1508

CPC分类号： G03G15/0856 ,  G03G15/0858 ,  G03G15/0872

摘要： Toner (5) is measured in a toner cartridge (1) by compressing the air in the upper part (7) of the toner hopper (3). The result of the compression is observed by a diaphragm (13) or, alternatively, by a pressure transducer (25). The volume of air is inversely proportional to the resonant frequency of diaphragm (13) or the pressure at pressure transducer (25). This is converted by control system (23) using direct equations or table look-up of empirical data. The diaphragm (13) carries a magnet (15), which is driven by coil (19) from the imaging device and then frequency of current induced by magnet (15) is then sensed by coil (19). Uneven toner piling is not a significant factor in the results measured.

摘要翻译： 通过压缩调色剂料斗（3）的上部（7）中的空气，在调色剂盒（1）中测量调色剂（5）。 压缩的结果由隔膜（13）观察到，或者由压力传感器（25）观察。 空气的体积与隔膜（13）的谐振频率或压力传感器（25）处的压力成反比。 这由控制系统（23）使用直接方程式或经验数据的表查找来转换。 隔膜（13）承载由成像装置的线圈（19）驱动的磁体（15），然后由线圈（19）感测由磁体（15）感应的电流频率。 不均匀的碳粉堆积不是测量结果的重要因素。

公开(公告)号：US5995774A

公开(公告)日：1999-11-30

申请号：US152241

申请日：1998-09-11

申请人： Steven Lewis Applegate ,  Cyrus Bradford Clarke ,  Timothy Philip Craig ,  David Lee Merrifield ,  James John Molloy ,  Benjamin Keith Newman ,  Gary Scott Overall ,  Gregrory Lawrence Ream ,  Thomas Gregrory Survant ,  Thomas Campbell Wade ,  Phillip Byron Wright

发明人： Steven Lewis Applegate ,  Cyrus Bradford Clarke ,  Timothy Philip Craig ,  David Lee Merrifield ,  James John Molloy ,  Benjamin Keith Newman ,  Gary Scott Overall ,  Gregrory Lawrence Ream ,  Thomas Gregrory Survant ,  Thomas Campbell Wade ,  Phillip Byron Wright

IPC分类号： G03G21/18 ,  G03G15/08

CPC分类号： G03G21/1889 ,  G03G2221/1663

摘要： An improved electrophotographic (EP) printer is provided having a detachable process cartridge that contains a non-volatile memory device, which is an EPROM that cannot be erased after a bit is burned. A "toner wheel" mounted to the exterior of the toner reservoir of the process cartridge provides, in conjunction with an optoelectronic sensor, an electrical signal that the printer receives and uses to determine toner usage. A toner "gas-gauge" is created which uses "bucket levels" as discrete steps to indicate how much of the measured physical toner material actually remains within the toner reservoir. After a given amount of toner material has been dispensed through the developer unit, one of the bits of the EPROM memory device is irreversibly burned, thereby providing a permanent record on the process cartridge of a certain amount of toner usage. As with a normal automobile gas gauge, the toner gas-gauge reading should never increase unless the amount of toner material inside the toner reservoir has increased. Once the bucket level transitions begin to occur for the toner gas-gauge, the printer becomes aware that a majority of the toner material has been expended from inside the toner reservoir. If the number of bucket gradation levels then increases by more than the hysteresis amount, then the printer will "lock out" the operation of a non-reusable process cartridge. When the lock-out mode occurs, a particular bit is burned on the EPROM mounted to the cleaner housing of the process cartridge. This ensures that this particular process cartridge cannot be removed, then simply placed back into the same (or a different) printer, and then begin supplying toner to a printer. Certain important "machine data" also can be stored in the EPROM memory device on the process cartridge of the present invention. The present invention is also able to declare the "end-of-life" of a process cartridge when the gas-gauge toner sensor is not functional (such as when it has been tampered with).