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    • 1. 发明授权
    • Systems and methods for vent path leakage prevention
    • 排气通道泄漏防护系统和方法
    • US07172272B2
    • 2007-02-06
    • US10721353
    • 2003-11-26
    • Takatoshi TsuchiyaEric A. MerzKazuyuki OdaBrian S. Hilton
    • Takatoshi TsuchiyaEric A. MerzKazuyuki OdaBrian S. Hilton
    • B41J2/175
    • B41J2/17523B41J2/17513B41J2/17553
    • A fluid ejection container system provides a first container that contains the fluid, the first container being evacuated to negative gauge pressure when being filled with the fluid, a second container having a capillary medium that contains the fluid, a passage between the first and second containers communicating the fluid at a level wherein the passage is wetted with the fluid, a ventilation port to communicate air between an interior region in the fluid ejection system and ambient, at least one spill over region to communicate the fluid with the second container, and a plurality of channels to communicate at least the air between the interior region and the second container; wherein the at least one spill over region has sufficient volume to contain a quantity of the fluid that migrates out of the second container. The fluid ejection container system also provides a lid for sealing the first and second containers from the ambient, wherein the channels are disposed on the lid.
    • 流体喷射容器系统提供容纳流体的第一容器,当填充流体时第一容器被抽空至负表压;具有容纳流体的毛细管介质的第二容器,第一和第二容器之间的通道 在流体与流体接触的水平面上传送流体;通气口,用于在流体喷射系统的内部区域和环境之间连通空气,至少一个溢出区域以使流体与第二容器连通;以及 多个通道以至少使内部区域和第二容器之间的空气连通; 其中所述至少一个溢出区域具有足够的体积以容纳从第二容器迁出的一定量的流体。 流体喷射容器系统还提供用于将第一和第二容器与环境密封的盖,其中通道设置在盖上。
    • 3. 发明授权
    • Systems and methods for controllably refilling a fluid quantity sensing fluid ejection head
    • 用于可控地重新填充流体量感测流体喷射头的系统和方法
    • US07029083B2
    • 2006-04-18
    • US10721275
    • 2003-11-26
    • Eric A. MerzBrian S. Hilton
    • Eric A. MerzBrian S. Hilton
    • B41J2/195B41J2/175
    • B41J2/17566B41J2/17509
    • A controller for a fluid ejecting system having a refillable container includes an ejection count initializing circuit, routine or application, a count incrementing circuit, routine or application, at least one fluid level indicator, and a fluid quantity circuit, routine or application for determining an expended quantity of fluid, a fluid reserve capacity circuit, routine or application for determining a fluid reserve capacity in the container, an ejection job determining circuit, routine or application for determining a fluid job requirement, a reserve comparing circuit, routine or application to compare the fluid reserve capacity and the fluid job requirement, and a refill condition determining circuit, routine or application to determine that the container is to be refilled. Counts for a ejection amount and a reserve capacity are incremented in response to a specific amount of fluid being ejected from the container. The expended quantity of fluid is based on the ejection amount count subsequent to the fluid level being indicated. The fluid reserve capacity is based on the reserve capacity count and the expended quantity of fluid. The fluid job requirement is based on the expended quantity of fluid and a job number of ejected amounts of fluid. The container is determined to be refilled upon at least a condition wherein the fluid job requirement exceeds the fluid reserve capacity, and a condition wherein the fluid level is below a refill threshold.
    • 用于具有可再填充容器的流体喷射系统的控制器包括喷射计数初始化电路,程序或应用,计数递增电路,程序或应用,至少一个液位指示器和流体量电路,用于确定 流体储备容量回路,用于确定容器中流体储备容量的程序或应用程序,排出作业确定电路,用于确定流体工作要求的程序或应用程序,备用比较电路,比较例程或应用程序 流体储备容量和流体工作要求,以及重新填充条件确定电路,程序或应用程序以确定容器将被重新填充。 响应于从容器喷出的特定量的流体,喷射量和储备容量的计数增加。 流体的消耗量基于指示流体液面之后的喷射量计数。 流体储备能力基于储量和计量流量。 流体工作要求是基于流体的消耗量和排出量的流体的工作数量。 确定容器至少在其中流体作业要求超过流体储备容量的条件下重新填充,以及其中液面低于再填充阈值的条件。
    • 4. 发明授权
    • Ink cartridge for an ink jet printer having quick disconnect valve 09
    • 用于具有快速断开阀09的喷墨打印机的墨盒
    • US06276788B1
    • 2001-08-21
    • US09270464
    • 1999-03-15
    • Brian S. Hilton
    • Brian S. Hilton
    • B41J2175
    • B41J2/1752B41J2/17513
    • An ink jet cartridge has a rigid housing with a flexible, vent-free pouch containing ink positioned therein. The pouch has a fitment sealed therein with a quick disconnect valve incorporated in the distal end of the fitment which extends from the pouch. The housing protects the ink pouch from handling forces and provides the device to apply an insertion force necessary to install a cartridge into an ink supply station of an ink jet printer. Ink is extracted by a probe resident in the ink supply station which actuates the quick disconnect valve upon insertion of the cartridge. The quick disconnect valve reseals when the cartridge is removed from the probe. The quick disconnect valve has a spring biased ball and a resilient cap releasably snapped on the valve which has an internal conical wall that functions as a valve seat for the spring biased ball. The valve configuration reduces the number of parts and provides a larger and better surface for the ball to seal against.
    • 喷墨盒具有刚性壳体,其具有位于其中的含有墨水的柔性无通气袋。 该袋具有密封在其中的配件,其具有并入从该小袋延伸的配件的远端中的快速分离阀。 壳体保护墨水袋免受处理力的影响,并提供该装置以将墨盒安装到喷墨打印机的供墨站所需的插入力。 墨水通过驻留在供墨站中的探针提取,该探针在插入墨盒时致动快速断开阀。 当从探头上取下墨盒时,快速断开阀将重新启动。 快速断开阀具有弹簧偏压球和可释放地卡在阀上的弹性帽,其具有用作弹簧偏置球的阀座的内部锥形壁。 阀门配置减少了零件数量,并提供了一个更大更好的表面,用于球体密封。
    • 7. 发明授权
    • Geometry for a dual level fluid quantity sensing refillable fluid container
    • 双液位传感可再填充流体容器的几何形状
    • US07040728B2
    • 2006-05-09
    • US10455357
    • 2003-06-06
    • Eric A. MerzBrian S. Hilton
    • Eric A. MerzBrian S. Hilton
    • B41J2/195
    • B41J2/17566B41J2002/17573
    • A fluid reservoir sensing system includes a pair of optical prisms that reflect light when a fluid level is below one of the pair of prisms. The pair of optical prisms includes a low prism usable to sense a low liquid level in the fluid reservoir, and a high prism usable to sense a high liquid level in the fluid reservoir. The fluid reservoir sensing system optionally includes an emitter and a photosensor. The emitter projects light through at least one of the low prism to the low incident surface and the high prism to the high incident surface. The photosensor senses light reflected from the low prism while the liquid is below the low prism. The photosensor also senses light from the high prism while the liquid level is below the high prism.
    • 流体储存器感测系统包括一对光学棱镜,当液位低于该对棱镜中的一个时,其反射光。 该对光学棱镜包括可用于感测流体储存器中的低液位的低棱镜,以及可用于感测流体储存器中的高液位的高棱镜。 流体储存器感测系统可选地包括发射器和光电传感器。 发射器通过低棱镜中的至少一个投射到低入射表面,将高棱镜投射到高入射表面。 当液体低于低棱镜时,光传感器感测从低棱镜反射的光。 光电传感器还感测来自高棱镜的光,而液面低于高棱镜。
    • 8. 发明授权
    • Multiple resolution pagewidth ink jet printer including a positionable pagewidth printbear
    • 多分辨率页宽喷墨打印机,包括可定位的pagewidth printbear
    • US06234605B1
    • 2001-05-22
    • US09004270
    • 1998-01-08
    • Brian S. Hilton
    • Brian S. Hilton
    • B41J2155
    • B41J2/515B41J2/15B41J2/155B41J25/001B41J2025/008
    • A liquid ink printer, depositing ink drops to form an image, in multiple printing resolutions, on a recording medium moving along a recording medium path. The liquid ink printer includes a pagewidth printbar, including an array of ink ejecting nozzles spaced at a predetermined resolution, aligned substantially perpendicular to the recording medium path, to eject the ink drops on the recording medium during movement of the recording medium along the recording medium path, a positioning device, coupled to the pagewidth printbar, to position the printbar at a plurality of discrete locations, and a controller, coupled to the printbar and to the positioning device, to cause the positioning device to position the printbar at the plurality of discrete locations as a function of the predetermined resolution.
    • 一种液体墨水打印机,在沿着记录介质路径移动的记录介质上以多种打印分辨率沉积墨滴以形成图像。 液体墨水打印机包括页宽打印条,其包括以基本上垂直于记录介质路径排列的以预定分辨率间隔开的喷墨喷嘴阵列,以在记录介质沿着记录介质移动期间将墨滴喷射到记录介质上 路径,定位装置,耦合到所述页宽打印条,以将所述打印条定位在多个离散位置;以及控制器,耦合到所述打印条和所述定位装置,以使所述定位装置将所述打印条定位在所述多个 离散位置作为预定分辨率的函数。
    • 10. 发明授权
    • Printer with printhead fully traveling around drive belt loop
    • 带打印头的打印机完全绕传动带环路传播
    • US07134736B2
    • 2006-11-14
    • US10752721
    • 2004-01-08
    • Eric A. MerzBrian S. Hilton
    • Eric A. MerzBrian S. Hilton
    • B41J29/38
    • B41J19/005
    • A drive assembly for a printer includes an endless loop drive path and guide structure that allows a printhead to operate in either reciprocal or endless loop modes in which the printed traverse both a liner and an arcuate portion of the drive path. This provides a printer architecture in which a printhead may be endlessly driven at a constant speed in one direction to provide multiple print swaths separated spatially. This eliminates the need for deceleration/acceleration changes required in reciprocal printer architectures and is capable of increased throughput by defining arcuate turnaround zones that can be traversed by the printhead faster than the time it takes to slow, stop and reverse a conventional reciprocal printhead assembly. This robust printer architecture also allows flexibility in use of multiple printheads with simultaneous printing, simultaneous both side printing, and duplex capabilities.
    • 用于打印机的驱动组件包括环形环驱动路径和导向结构,其允许打印头以往复或无限循环模式操作,其中打印的横移既是驱动路径的衬套和弓形部分。 这提供了一种打印机结构,其中打印头可以在一个方向上以恒定速度无休止地驱动,以提供在空间上分离的多个打印条带。 这消除了在往复式打印机结构中所需的减速/加速变化的需要,并且通过限定弓形转向区域能够提高吞吐量,该区域可以比通常的往复式打印头组件减慢,停止和反向所需的时间快得多。 这种坚固的打印机架构还允许使用多个打印头同时进行打印,同时进行双面打印和双面打印功能。