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    • 42. 发明授权
    • Liquid-feeding device and liquid ejection apparatus
    • 送液装置和液体喷射装置
    • US06926398B2
    • 2005-08-09
    • US10435810
    • 2003-05-12
    • Makoto AndoTakumi Namekawa
    • Makoto AndoTakumi Namekawa
    • B05C5/00B05C11/10B41J2/175
    • B41J2/17596
    • There is provided a liquid-feeding device with large liquid-capacity and a simplified structure and capable of stably holding liquid without leakage. An ink-feeding device includes an ink reservoir; an ink chamber; a valve displaced so that a closing member opens an open region by reduction in pressure due to reduction in the ink amount in the ink chamber; a fresh-air communicating hole for communicating with fresh air; and an air inlet tube capable of bringing air, when an amount of ink in the ink chamber is reduced, from the fresh-air communicating hole by the amount of air corresponding to the amount of the reduced ink, wherein a bore diameter of the lower end of the air inlet tube and a water head are determined so that the ink meniscus holding power P at the lower end of the air inlet tube and the water head pressure H corresponding to the height from the bottom surface of an ink ejection unit (nozzle surface) to the lower end of the air inlet tube satisfy the relationship P>H.
    • 提供了具有大的液体容量和简化的结构的能够稳定地保持液体而不泄漏的液体输送装置。 一种供墨装置包括一个储墨器; 墨水室; 阀被移位,使得封闭构件通过由于墨水室中的墨水量的减少而减小压力而打开开口区域; 用于与新鲜空气通气的新鲜空气连通孔; 以及空气导入管,其能够在墨水室中的墨水量减少时将空气从与所述还原墨水量相对应的空气量从所述新鲜空气连通孔排出,其中所述下部 空气入口管的端部和水头被确定为使得在进气管的下端处的墨弯月面保持力P和与从喷墨单元(喷嘴)的底表面的高度相对应的水头压力H 表面)到进气管的下端满足P> H的关系。
    • 45. 发明授权
    • Recording head driving method, recording head, ink-jet printer
    • 记录头驱动方式,记录头,喷墨打印机
    • US06890060B2
    • 2005-05-10
    • US09936943
    • 2001-01-22
    • Yuji YakuraMakoto AndoYuichiro Ikemoto
    • Yuji YakuraMakoto AndoYuichiro Ikemoto
    • B41J2/05B41J2/145B41J2/15
    • B41J2/04541B41J2/04543B41J2/0458B41J2/04595B41J2202/20
    • An ink jet printer has a line head having heating elements (121d) for ejecting ink droplets from nozzles, in which the plurality of heating elements (121d) are arrayed in a direction substantially perpendicular to the paper feed direction. In the line head, the plurality of heating elements (121d) are divided into a plurality of blocks, with each block consisting of a predetermined number of spatially arrayed heating elements of the plurality of heating elements (121d) corresponding to the plurality of nozzles, and a phase signal PH is sequentially supplied to a set of heating elements (121d) simultaneously driven over the respective blocks, thus sequentially driving the respective heating elements (121d) by each set as a unit in a time-divisional manner. Thus, the ink jet printer can reduce the positional shift of dots on the paper and can reduce the instantaneous maximum dissipation power in time-division drive.
    • 喷墨打印机具有线头,该线头具有用于从喷嘴喷射墨滴的加热元件(121d),其中多个加热元件(121d)沿大致垂直于送纸方向的方向排列。 在行头中,多个加热元件(121d)被分成多个块,每个块由与多个加热元件对应的多个加热元件(121d)中的预定数量的空间排列的加热元件组成 喷嘴,相位信号PH依次提供给同时驱动各块的一组加热元件(121d),从而按时间顺序依次驱动各加热元件(121d)作为一个单元 。 因此,喷墨打印机可以减少纸上的点的位置偏移,并且可以减少时分驱动中的瞬时最大耗散功率。
    • 46. 发明授权
    • Manufacturing method for print head
    • 打印头制造方法
    • US06794208B2
    • 2004-09-21
    • US09951941
    • 2001-09-12
    • Atsushi NakamuraShinji KayabaMakoto AndoHiroshi TokunagaShinichi Horii
    • Atsushi NakamuraShinji KayabaMakoto AndoHiroshi TokunagaShinichi Horii
    • H01L2100
    • B41J2/1623B41J2/16B41J2/1625B41J2/1631B41J2202/20
    • A manufacturing method for a print head, in which a substrate member provided with heating elements is laminated to a nozzle-formed member in which ink-ejection nozzles are formed, includes the step of laminating a correcting member having approximately the same coefficient of linear expansion as the substrate member to the nozzle-formed member. A nozzle interval L1 of a nozzle-formed member which doesn't laminate a correcting member at an operating temperature T0 is determined as =L2(1+&agr;2&Dgr;T)/(1+&agr;1&Dgr;T), wherein L2 is the nozzle interval and a heater interval at the operating temperature after the print head is completed; &agr;1 and is the coefficient of linear expansion of the nozzle-formed member; &agr;2 is the coefficient of linear expansion of the correcting member; T1 is the laminating temperature of the nozzle-formed member and the correcting member; and &Dgr;T is the difference between the laminating temperature T1 and the operating temperature T0.
    • 一种打印头的制造方法,其中将具有加热元件的基板部件层压到其上形成有喷墨嘴的喷嘴形成部件,包括层叠具有大致相同的线膨胀系数的校正部件的步骤 作为到喷嘴形成部件的基板部件。 在操作温度T0下不校正校正部件的喷嘴形成部件的喷嘴间隔L1被确定为= L2(1 +α2DeltaT)/(1 +α1DeltaT),其中L2是喷嘴间隔和加热器间隔 在打印头完成后的工作温度下; α1是喷嘴形成部件的线膨胀系数; α2是校正构件的线性膨胀系数; T1是喷嘴形成部件和校正部件的层压温度; 而DeltaT是层压温度T1与工作温度T0之差。
    • 48. 发明授权
    • Ink-jet printer
    • 喷墨打印机
    • US06598951B2
    • 2003-07-29
    • US09759162
    • 2001-01-16
    • Yuichiro IkemotoMakoto AndoYuji Yakura
    • Yuichiro IkemotoMakoto AndoYuji Yakura
    • B41J2938
    • B41J2/04506B41J2/04508B41J2/0452B41J2/04541B41J2/04543B41J2/0458B41J2/04581B41J2/04595B41J2/1433B41J2/155B41J2002/14475B41J2202/20
    • The present invention provides an ink-jet printer having high resolution and image quality, low power consumption, low cost and containing line heads. The ink-jet printer emits droplets of ink arriving as ink dots forming images and letters recorded onto a recording medium from a line head having a plurality of nozzles arrayed in the width direction of the recording medium which is almost perpendicular to the feed direction of the recording medium, and the printer comprises head chips having a specified number of nozzles and a drive circuit to drive each nozzle, in which a plurality of the head chips are arrayed in the width direction thereof to form the line head so that the nozzles each head chip has and part of the nozzles the neighboring head chips have are arrayed in the feed direction of the recording medium, the nozzles each head chip has are sequentially time-series driven by separate driving, and the number of the nozzles each head chip has is the number of part of the nozzles the neighboring head chips have and the number of nozzles arrayed in the feed direction of the recording medium added to the integer multiple of the number of phases for the separate driving of the nozzles.
    • 本发明提供了一种具有高分辨率和图像质量,低功耗,低成本和包含线头的喷墨打印机。 喷墨打印机以墨点形成墨滴,形成从记录介质上记录的图像和字母的墨点,该线头具有在记录介质的宽度方向上排列的多个喷嘴,该多个喷嘴几乎垂直于记录介质的进给方向 记录介质,并且打印机包括具有指定数量的喷嘴的头部芯片和用于驱动每个喷嘴的驱动电路,其中多个头部芯片沿其宽度方向排列以形成线头,使得喷嘴各自的头部 芯片具有相邻的头芯片的一部分喷嘴沿记录介质的进给方向排列,每个喷头芯片通过单独的驱动被依次时间序列驱动,每个喷头芯片的喷嘴数量是 相邻头芯片具有的喷嘴的部分数量和在记录介质的进给方向排列的喷嘴数量被加到n的整数倍中 用于单独驱动喷嘴的相位数。
    • 49. 发明授权
    • Printer head, ink jet printer and method for driving printer head
    • 打印机头,喷墨打印机和驱动打印头的方法
    • US06540317B1
    • 2003-04-01
    • US09631514
    • 2000-08-03
    • Kenji OkamotoEmi YamadaMakoto Ando
    • Kenji OkamotoEmi YamadaMakoto Ando
    • B41J2205
    • B41J2/04581B41J2/04588B41J2/211
    • There is provided a printer head in an ink jet printer that includes: a quantification medium pressuring chamber where a quantification medium is introduced; a discharge medium pressuring chamber where a discharge medium is introduced; a quantification medium nozzle communicating with the quantification medium pressuring chamber; a discharge medium nozzle communicating with the discharge medium pressuring chamber, the discharge medium nozzle being disposed to adjoin the quantification medium nozzle; and a first pressure generating element pulling the quantification medium pushed out of the quantification medium nozzle into the discharge medium nozzle to form a mixed solution by contacting the quantification medium in the discharge medium nozzle through a surface where the quantification medium nozzle opens, wherein the first pressure generating element then generates a pressure for discharging the mixed solution from the discharge medium nozzle.
    • 提供了一种喷墨打印机中的打印机头,包括:定量介质加压室,定量介质被引入; 放电介质加压室,其中引入放电介质; 与定量介质加压室连通的定量介质喷嘴; 与排出介质加压室连通的排出介质喷嘴,排出介质喷嘴设置成与定量介质喷嘴相邻; 以及第一压力产生元件,通过使定量介质喷嘴打开的表面接触排出介质喷嘴中的定量介质,将从定量介质喷嘴推出的定量介质拉出到排出介质喷嘴中以形成混合溶液,其中第一 然后,压力产生元件产生用于从排出介质喷嘴排出混合溶液的压力。
    • 50. 发明授权
    • Plasma processing apparatus and plasma processing method
    • 等离子体处理装置和等离子体处理方法
    • US06528752B1
    • 2003-03-04
    • US09595476
    • 2000-06-16
    • Nobuo IshiiYasuyoshi YasakaMakoto AndoNaohisa Goto
    • Nobuo IshiiYasuyoshi YasakaMakoto AndoNaohisa Goto
    • B23K1000
    • H01J37/321H01J37/32082H01J37/32568
    • A plasma-assisted processing system has a lifting mechanism capable of vertically moving a microwave power unit and a waveguide to adjust the level of a planar slot antenna disposed on an expanded lower end part of the waveguide. A space extending under the antenna is surrounded by a shielding member. An optical sensor having an array of photosensors is disposed on the outer side of a window formed in the side wall of a vacuum vessel to monitor the lower limit level of a cease region for a plasma (cease level). An ideal distance between the cease level and the antenna is determined beforehand and the level of the antenna is adjusted on the basis of a measured cease level so that the antenna is spaced the ideal distance apart from the cease level. Since the difference between the cease level and a level X0 for the cutoff density of an X-wave is fixed, the level X0 may be monitored instead of the cease level.
    • 等离子体辅助处理系统具有能够垂直移动微波功率单元和波导的升降机构,以调节布置在波导的扩展的下端部的平面缝隙天线的高度。 在天线下方延伸的空间被屏蔽构件包围。 具有光电传感器阵列的光学传感器设置在形成在真空容器的侧壁中的窗口的外侧上,以监测等离子体的停止区域的下限水平(停止水平)。 预先确定停止电平和天线之间的理想距离,并且基于测量的停止电平来调节天线的电平,使得天线与停止电平相隔一段理想距离。 由于X波的截止密度的停止电平和电平X0之间的差是固定的,因此可以监视电平X 0而不是停止电平。