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    • 7. 发明授权
    • Specimen holding method and fluid treatment method of specimen surface
and systems therefor
    • 试样表面及其系统的试样保持方法和流体处理方法
    • US5979475A
    • 1999-11-09
    • US430429
    • 1995-04-28
    • Takao SatohHaruo ItohHitoshi OkaYoichi TakaharaAkio Saito
    • Takao SatohHaruo ItohHitoshi OkaYoichi TakaharaAkio Saito
    • H01L21/00H01L21/683B08B3/02
    • H01L21/67017H01L21/6838
    • A highly clean fluid treatment system having a small system volume is provided by using a Bernoulli holder to accomplish stable holding of a specimen in a simple configuration. A holder having a specimen hold face formed almost the same as a specimen or having a Bernoulli effect producing region and a region surrounding the Bernoulli region made of a specific combination of materials is used and fluid supply sources are connected to the holder for supplying one or more fluids containing a treatment agent of a specimen. Since a force for inhibiting a position shift occurs on the end face of the specimen 10, stable specimen holding is enabled. The space between the specimen and the holder where treatment is executed is narrow and fluid always flows from the treatment space to the outside. Therefore, the fluid treatment system of a small volume producing high treatment efficiency and minimizing the chances of recontamination of the specimen can be provided.
    • 通过使用伯努利支架提供具有小系统体积的高度清洁的流体处理系统,以简单的配置实现样品的稳定保持。 使用具有与样本几乎相同或具有伯努利效应产生区域和由特定材料组合的伯努利区域周围的区域的样本保持面的保持器,并且流体供应源连接到保持器,用于供应一个或 含有样品处理剂的更多液体。 由于在试样10的端面发生用于抑制位移的力,因此能够进行稳定的试样保持。 试样与执行处理的保持器之间的空间狭窄,液体总是从处理空间流向外部。 因此,可以提供小体积的流体处理系统,其产生高的处理效率并最小化试样的再污染机会。
    • 8. 发明授权
    • Liquid discharge head and method for manufacturing liquid discharge head
    • 液体排出头及液体排出头的制造方法
    • US08733907B2
    • 2014-05-27
    • US13701187
    • 2011-05-16
    • Akio SaitoHiromitsu Morita
    • Akio SaitoHiromitsu Morita
    • B41J2/045
    • B41J2/14201B41J2/14209B41J2/1429B41J2/1607B41J2/1615B41J2/1632B41J2/1634B41J2002/14491Y10T29/49401
    • A liquid discharge head includes piezoelectric members including: a pressure chamber applying a pressure for discharging liquid to liquid; a first electrode provided on an inner surface side of the pressure chamber; and a second electrode provided outside the pressure chamber, the piezoelectric members being arranged in a first direction intersecting with an ink flow direction and in a second direction crossing the ink flow direction and the first direction so that the flow directions of the liquid flowing through the pressure chamber of the piezoelectric members are arranged along one another. The head includes first common wiring lines connected to the first electrodes arranged in the first direction; and second common wiring lines connected to the second electrodes 23 arranged in the second direction. The first common wiring lines are arranged in the second direction and the second common wiring lines are arranged in the first direction.
    • 液体排出头包括压电部件,包括:压力室,其施加用于将液体排出液体的压力; 设置在所述压力室的内表面侧的第一电极; 以及设置在所述压力室外部的第二电极,所述压电部件沿与油墨流动方向交叉的第一方向和与所述油墨流动方向和所述第一方向交叉的第二方向布置,使得流过所述油墨流动方向的液体的流动方向 压电部件的压力室彼此配置。 头包括连接到沿第一方向布置的第一电极的第一公共布线; 以及连接到沿第二方向布置的第二电极23的第二公共布线。 第一公共布线沿第二方向布置,第二公共布线布置在第一方向上。
    • 9. 发明授权
    • Decomposing system for polyisocyanate residues, and start-up method for the same
    • 多异氰酸酯残留分解体系及其启动方法
    • US07875253B2
    • 2011-01-25
    • US11988678
    • 2006-07-12
    • Tadashi YoshidaYasumichi OotoAkio Saito
    • Tadashi YoshidaYasumichi OotoAkio Saito
    • B01J8/00B01J8/08C07C211/00
    • C08J11/14C08J2375/00Y02W30/704Y10S422/901
    • An object of the invention is to provide a decomposing system for polyisocyanate residues that is capable of suppressing reaction of polyisocyanate residues with high temperature and high pressure water to allow smooth start-up of the operation, and a start-up method for the decomposing system for the polyisocyanate residues. The decomposing system is used for hydrolyzing the polyisocyanate residues to polyamine using high temperature and high pressure water, comprising a hydrolyzer, a water feed pipe connected to the hydrolyzer, a residual feed pipe connected to the water feed pipe, a solvent feed line for filling an organic solvent in a solvent filling portion of the residual feed pipe, and a solvent draining line. Upon start-up of the operation, the organic solvent is previously filled in the solvent filling portion via the solvent feed line and the solvent draining line, first, and then, the high temperature and high pressure water is fed from the water feed pipe to the hydrolyzer. Then, the organic solvent is fed from the residual feed pipe to the water feed pipe, first, and then, the polyisocyanate residues are fed thereto.
    • 本发明的目的是提供一种能够抑制多异氰酸酯残留物与高温高压水反应以使操作顺利启动的多异氰酸酯残留分解系统,以及分解系统的启动方法 对于多异氰酸酯残基。 分解系统用于使用高温高压水将多异氰酸酯残基水解成多胺,包括水解器,连接到水解器的给水管,连接到给水管的残余进料管,用于填充的溶剂进料管 剩余进料管的溶剂填充部分中的有机溶剂和溶剂排出管线。 在操作开始时,首先通过溶剂供给管线和溶剂排出管路先将有机溶剂填充到溶剂填充部分中,然后将高温高压水从供水管供给到 水解产物。 然后,将有机溶剂从剩余进料管供给到给水管,首先,向其中供给多异氰酸酯残渣。