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    • 91. 发明授权
    • Liquid discharge head, liquid discharge method and liquid discharge apparatus
    • 排液头,液体排出法和排液装置
    • US06435661B1
    • 2002-08-20
    • US09650996
    • 2000-08-31
    • Ryoji InoueHiroshi SugitaniMasanori TakenouchiMasami IkedaMasahiko KubotaKiyomitsu KudoTakashi Saito
    • Ryoji InoueHiroshi SugitaniMasanori TakenouchiMasami IkedaMasahiko KubotaKiyomitsu KudoTakashi Saito
    • B41J214
    • B41J2/14056B41J2/055B41J2/14048B41J2/14129
    • There is disclosed a liquid discharge head comprises a discharge port for discharging a liquid, a liquid flow path with one end constantly communicating with the discharge port and with a bubble generating area for generating a bubble in the liquid, a liquid supply port disposed in the liquid flow path and connected to a common liquid supply chamber for storing the liquid to be supplied to the liquid flow path, a plurality of bubble generating means, disposed in the liquid flow path, for generating the bubble in the liquid, and a plate-like movable member disposed in the liquid flow path with the side of the discharge port supported as a free end at a gap of 10 &mgr;m or less with respect to the liquid supply port on the side of the liquid flow path, and provided with a projection area larger than an opening area of the liquid supply port. The discharge port is in a linear communication state with the bubble generating means, and by driving the bubble generating means for generating the bubble with a smallest volume among the plurality of bubble generating means, the movable member seals and substantially shuts off the liquid supply port, which can increase a discharge amount ratio of liquid droplets, equalize liquid droplet discharge speeds, and raise a refill frequency after discharge.
    • 公开了一种液体排出头,其包括用于排出液体的排出口,一端与排出口恒定连通的液体流路,以及用于在液体中产生气泡的气泡发生区域, 液体流动路径并连接到公共液体供应室,用于储存要供应到液体流动通道的液体;多个气泡发生装置,设置在液体流动通道中,用于在液体中产生气泡; 所述液体流路中的所述液体流动路径中的所述液体流动路径中的液体供给口相对于所述液体流路的一侧的所述液体供给口以与所述液体流路相同的方式被支撑为自由端, 面积大于液体供应口的开口面积。 排出口与气泡产生装置处于线性连通状态,并且通过驱动用于在多个气泡生成装置中产生体积最小的气泡的气泡产生装置,可移动件密封并基本上关闭液体供应口 能够提高液滴的排出量比,均匀化液滴喷出速度,并且在排出后提高再充填频率。
    • 92. 发明授权
    • Liquid discharge head, manufacturing method of liquid discharge head, head cartridge, and liquid discharge apparatus
    • 排液头,排液头,头盒,排液装置的制造方法
    • US06386686B1
    • 2002-05-14
    • US09448597
    • 1999-11-24
    • Masahiko KubotaAya YoshihiraKiyomitsu Kudo
    • Masahiko KubotaAya YoshihiraKiyomitsu Kudo
    • B41J205
    • B41J2/14064B41J2/1604B41J2/1623B41J2/1628B41J2/1629B41J2/1631B41J2/1634B41J2/1639B41J2/1642B41J2/1646
    • A liquid discharge head has a plurality of first liquid flow passages connected to outlets for discharging the discharge liquid, a plurality of second liquid flow passages having an element board with heating elements for generating a bubble in the bubbling liquid and corresponding to the first liquid flow passages, and movable separation films substantially and mutually separating the first liquid flow passages and the second liquid flow passages at all times, wherein the movable separation films are mutually independent individual separation films for each of the second liquid flow passages. It is possible to directly provide a flow passage wall configuring a side wall of a first liquid flow passage onto the element board by the low temperature junction by using surface activation since the movable separation films are individual separation films. The junction of the flow passage wall to the element board is surely performed and the dispersion in discharge characteristics depending on the lot of products can be restrained.
    • 液体排出头具有连接到用于排出排出液体的出口的多个第一液体流动通道,多个第二液体流动通道,其具有带有加热元件的元件板,用于在发泡液体中产生气泡并对应于第一液体流 通道和可移动隔离膜,其中所有可移动隔离膜是用于每个第二液体流动通道的相互独立的独立分离膜,其基本上相互分离第一液体流道和第二液体流道。 由于可移动分隔膜是单独的分离膜,所以可以通过使用表面激活来直接提供通过低温接合部将第一液体流动通道的侧壁构造成元件板的流动通道壁。 可靠地进行流路壁与元件基板的接合,能够抑制产品的批次的放电特性的分散。
    • 94. 发明授权
    • Liquid discharge method, liquid discharge head, manufacturing method of the head, head cartridge, and liquid discharge device
    • 液体排出法,排液头,头,头盒,排液装置的制造方法
    • US06305783B1
    • 2001-10-23
    • US09452181
    • 1999-12-02
    • Masahiko KubotaYuji Tsuruoka
    • Masahiko KubotaYuji Tsuruoka
    • B41J214
    • B41J2/14056B41J2/14048B41J2/1604B41J2/1626B41J2/1631B41J2/1642B41J2/1646B41J2202/13
    • A liquid discharge method is disclosed which comprises a displacement step where a movable member is displaced by generating an electrostatic force between a substrate having a thermal energy generating element for generating thermal energy which is utilized to discharge a liquid through a discharge port and the movable member disposed opposite to the thermal energy generating element and having a free end on a downstream side in the flow direction of the liquid to thereby displace a liquid surface at the discharge port to an upstream side in the flow direction of the liquid; and a discharge step where the movable member is displaced owing to a bubble formed by the thermal energy generated by the thermal energy generating element to discharge the liquid through the discharge port. In addition, there are also herein disclosed a liquid discharge head, a manufacturing method of the head, a head cartridge, a liquid discharge device, and the like.
    • 本发明公开了一种液体排出方法,该方法包括一种位移步骤,其中通过在具有用于产生用于通过排出口排出液体的热能的热能产生元件的基板之间产生静电力而移动可动件,并且可移动件 与所述热能产生元件相对设置并且在所述液体的流动方向上的下游侧具有自由端,从而将所述排出口处的液面移动到所述液体的流动方向的上游侧; 以及排出步骤,其中可移动构件由于由热能产生元件产生的热能形成的气泡而移位,以通过排出口排放液体。 此外,还公开了液体排出头,头部的制造方法,头盒,液体排出装置等。
    • 95. 发明授权
    • Method for manufacturing microstructure, and method for manufacturing liquid jetting head
    • 微结构的制造方法以及液体喷射头的制造方法
    • US08869401B2
    • 2014-10-28
    • US12811255
    • 2009-03-26
    • Masahiko KubotaSatoshi Kokubo
    • Masahiko KubotaSatoshi Kokubo
    • B21D53/76B23P17/00H05K3/02H05K3/10G03C1/00G03F7/00B41J2/16
    • B41J2/1603B41J2/1634Y10T29/49155Y10T29/49401
    • A liquid ejection head or microstructure manufacturing method includes providing a substrate with an organic resin material layer for forming a flow passage wall member, and forming a flow path and ejection outlet by partly removing the organic resin material layer by illumination with a laser beam having a pulse width between 2 and 20 picosecs and having a focal point inside the organic resin material layer, with movement of the focal point of the laser beam. The ejection outlet is formed by exposure of the organic resin material to the laser beam condensed by a first lens having a numerical aperture of not less than 0.3, and the liquid flow path is formed by exposure of the organic resin material to the laser beam condensed by a second lens having a numerical aperture which is larger than that of the first lens and which is not less than 0.5.
    • 液体喷射头或微结构制造方法包括向基板提供用于形成流路壁构件的有机树脂材料层,以及通过用具有下述方式的激光束照射部分去除有机树脂材料层而形成流路和喷射出口 脉冲宽度在2至20皮秒之间,并且随着激光束的焦点的移动而在有机树脂材料层内具有焦点。 喷射出口是通过将有机树脂材料暴露于由数值孔径不小于0.3的第一透镜冷凝的激光束而形成的,并且液体流动路径是通过将有机树脂材料暴露于浓缩的激光束而形成的 通过具有比第一透镜大的数值孔径并且不小于0.5的数值孔径的第二透镜。