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    • 24. 发明授权
    • Method for manufacturing a liquid discharge head
    • 液体排出头的制造方法
    • US06436301B1
    • 2002-08-20
    • US09291035
    • 1999-04-14
    • Tomoyuki HirokiTakayuki YagiTeruo OzakiMasahiko Kubota
    • Tomoyuki HirokiTakayuki YagiTeruo OzakiMasahiko Kubota
    • B41J204
    • B41J2/14064B41J2/14129B41J2/1604B41J2/1623B41J2/1628B41J2/1629B41J2/1631B41J2/1632B41J2/1642B41J2/1646B41J2202/13
    • A method for manufacturing a liquid discharge head, which is provided with a movable film supporting member for supporting a movable film separating a first liquid flow path and a bubble creation region completely, and that is displaceable by the bubble created on the heat generating element. The method comprises the steps of forming the movable film supporting member, forming on the surface of the substrate becoming the movable film supporting member the recessed portion corresponding to the movable region of the movable film, providing a material becoming the movable film on the entire surface of the substrate having the recessed portion provided therefor, removing the portion including the movable region on the substrate from the reverse side of the substrate having the movable film provided therefor and forming a slacked configuration on the portion of the movable region of the movable film.
    • 一种液体排出头的制造方法,该液体排出头具有可移动的薄膜支撑构件,用于支撑完全分离第一液体流动通道和气泡产生区域的可移动薄膜,并且可通过在发热元件上产生的气泡移动。 该方法包括以下步骤:形成可移动膜支撑构件,在基板的表面上形成为可移动膜支撑构件的与可移动膜的可移动区域相对应的凹部,在整个表面上提供成为可移动膜的材料 具有设置在其上的凹部的基板的背面,从其上设置有可移动薄膜的基板的背面去除包括可移动区域的部分,并在可移动薄膜的可移动区域的部分上形成松弛构造。
    • 25. 发明授权
    • Acoustic ejection of fluids using large F-number focusing elements
    • 使用大的F数量聚焦元件的流体声弹射
    • US06416164B1
    • 2002-07-09
    • US09910690
    • 2001-07-20
    • Richard G. StearnsRichard N. Ellson
    • Richard G. StearnsRichard N. Ellson
    • B41J204
    • B41J2/14008
    • The present invention provides a method and device for the acoustic ejection of fluid droplets from fluid-containing reservoirs using focusing means having an F-number greater than approximately 2. The droplets are ejected toward designated sites on a substrate surface for deposition thereon. In one embodiment, the device is comprised of: a plurality of reservoirs each adapted to contain a fluid; an ejector comprising a means for generating acoustic radiation and a large F-numbered means for focusing the acoustic radiation at a focal point near the fluid surface in each of the reservoirs; and a means for positioning the ejector in acoustically coupled relationship to each of the reservoirs. The invention is useful in a number of contexts, particularly in the preparation of biomolecular arrays.
    • 本发明提供一种用于使用具有大于约2的F数的聚焦装置从含有流体的储存器弹出流体液滴的方法和装置。液滴朝向衬底表面上的指定位置喷射以沉积在其上。 在一个实施例中,该装置包括:多个储存器,每个储存器适于容纳流体; 喷射器,其包括用于产生声辐射的装置和用于将声辐射聚焦在每个储存器中的流体表面附近的焦点处的大的F编号装置; 以及用于将喷射器定位成与每个储存器的声耦合关系的装置。 本发明在许多上下文中是有用的,特别是在生物分子阵列的制备中。
    • 30. 发明授权
    • Image forming apparatus and image forming method using an extrusion opening and shutter for releasing recording solution
    • 图像形成装置和使用挤出开口和快门释放记录溶液的快门的图像形成方法
    • US06375311B1
    • 2002-04-23
    • US09184286
    • 1998-11-02
    • Shinichi Kuramoto
    • Shinichi Kuramoto
    • B41J204
    • B41J2/005B41J2202/05
    • The recording solution in a recording solution chamber is always pressurized. The shutter is closed when recording is not conducted to prevent the recording solution from flowing out and drying up. The shutter is opened by the shutter driving section in accordance with the image information during recording to open the extrusion opening. The recording solution is extruded from the extrusion opening by the pressurizing force. After the top end of the extruded recording solution is deposited to the opposed image support, the shutter driving section closes the shutter. This discontinues the recording solution flown so far continuously from the extrusion of opening to form a not-stringing recording droplet on the image support. Recording solutions having viscosity in a wide range can be used. The recording dots can be formed accurately with low energy, and high quality images with reduced blot of recording dots can be obtained at high speed.
    • 记录溶液室中的记录溶液总是加压。 当不进行记录时,快门关闭,以防止记录溶液流出并干燥。 根据记录期间的图像信息,快门由快门驱动部分打开以打开挤出开口。 记录溶液通过加压力从挤出口挤出。 在挤出的记录溶液的顶端沉积到相对的图像支持体之后,快门驱动部分关闭快门。 这使得记录解决方案从打开的挤压开始连续地流动,从而在图像支持体上形成非串行的记录液滴。 可以使用具有大范围粘度的记录液。 可以以低能量精确地形成记录点,并且可以高速获得具有减少的记录点印迹的高质量图像。