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    • 93. 发明申请
    • PIXEL-TYPE TWO-DIMENSIONAL IMAGE DETECTOR
    • 像素型二维图像检测器
    • US20120280132A1
    • 2012-11-08
    • US13520451
    • 2011-01-04
    • Tatsuya NakamuraMasaki KatagiriNoriaki Tsutsui
    • Tatsuya NakamuraMasaki KatagiriNoriaki Tsutsui
    • G01T1/20G01T3/06
    • G01T3/06G01T1/20
    • In a lattice-like pixel structure in which a reflecting plate that reflects a fluorescent light from a fluorescent material-based neutron detecting sheet is arranged along a vertical axis at a regular interval, and a reflecting plate that reflects a fluorescent light is arranged along a horizontal axis at a regular interval and at a right angle with respect to a series of fluorescent plates formed arranged along the vertical axis, a lattice-like fluorescent light detecting member is formed by providing such a structure that a groove may be formed at upper half position of the vertical axis direction reflecting plate and at a center position in a vertical axis interval for accommodating a wavelength shifting fiber for vertical axis detection for detecting the fluorescent light, and a groove may be formed at lower half position of the horizontal axis direction reflecting plate and at a center position in a horizontal axis interval for accommodating a wavelength shifting fiber for horizontal axis detection for detecting the fluorescent; and a fluorescent material-based neutron detecting sheet is arranged only at a front surface or at both of a front surface and a back surface of the lattice-like fluorescent light detecting member.
    • 在以规则的间隔沿着垂直轴配置反射来自基于荧光材料的中子检测片的荧光的反射板的格子状像素结构中,反射荧光的反射板沿着 水平轴相对于沿着垂直轴线形成的一系列荧光板以规定间隔和直角形成,通过提供这样的结构形成格子状荧光检测部件,即,可以在上半部形成凹槽 垂直轴方向反射板的位置和垂直轴间隔的中心位置,用于容纳用于检测荧光的垂直轴检测用波长移动光纤,并且可以在水平轴方向的下半位置形成反射 并且在水平轴间隔的中心位置处,用于容纳用于水平线的波长移动光纤 用于检测荧光的轮轴检测; 并且基于荧光材料的中子检测片仅布置在格子状荧光检测部件的前表面或前表面和后表面两者处。
    • 96. 发明申请
    • STACKED STRUCTURE AND METHOD OF MANUFACTURING THE SAME
    • 堆叠结构及其制造方法
    • US20120085573A1
    • 2012-04-12
    • US13377882
    • 2010-05-07
    • Hitoshi NoguchiNaoki TanakaTatsuya Nakamura
    • Hitoshi NoguchiNaoki TanakaTatsuya Nakamura
    • H05K1/16H05K3/10
    • H05K1/162H01G4/1209H01G4/30H01G4/33H05K2201/0195H05K2203/1355
    • A problem to be solved is to suppress deterioration of insulating properties in a stacked structure with a dielectric film formed by powder spraying coating process, and in a method of manufacturing the stacked structure. In a stacked structure according to the present invention, a dielectric layer 3 is provided between a first conductive layer 1 and a second conductive layer 2. The dielectric layer 3 includes an underlying layer 31 formed by applying a dispersion solution containing dielectric particles onto the first conductive layer 1, and a dielectric film 32 formed on the underlying layer 31 by powder spraying coating process. A method of manufacturing the stacked structure according to the present invention includes a dielectric layer forming step of forming the dielectric layer 3 on the first conductive layer 1, and a conductive layer forming step of forming the second conductive layer 2 on the dielectric layer 3. The dielectric layer forming step includes an underlying layer forming step of forming the underlying layer 31 by applying a dispersion solution containing dielectric particles onto the first conductive layer 1, and a dielectric film forming step of forming the dielectric film 32 on the underlying layer 31 by powder spraying coating process.
    • 要解决的问题是通过用粉末喷涂法形成的电介质膜来抑制层叠结构中的绝缘性的劣化,以及制造层叠结构的方法。 在根据本发明的堆叠结构中,电介质层3设置在第一导电层1和第二导电层2之间。电介质层3包括通过将包含电介质颗粒的分散溶液施加到第一导电层1上而形成的下层31 导电层1和通过粉末喷涂法在下层31上形成的电介质膜32。 根据本发明的制造叠层结构的方法包括在第一导电层1上形成电介质层3的介电层形成步骤和在电介质层3上形成第二导电层2的导电层形成步骤。 电介质层形成步骤包括通过将含有电介质颗粒的分散溶液施加到第一导电层1上形成下层31的下层形成步骤,以及电介质膜形成步骤,通过在第一导电层1上形成介电膜32在下层31上 粉末喷涂工艺。
    • 98. 发明申请
    • FASTENING TAB AND SIDE PANEL OF DISPOSABLE DIAPER AND DISPOSABLE DIAPER
    • 紧凑的面板和可拆卸的DIAPER和可替代的DIAPER的面板
    • US20100004616A1
    • 2010-01-07
    • US11721097
    • 2005-12-06
    • Tatsuya NakamuraYasuhiro KonoTakeshi YamadaJayshree Seth
    • Tatsuya NakamuraYasuhiro KonoTakeshi YamadaJayshree Seth
    • A61F13/58
    • A61F13/581A61F13/15756A61F13/5644A61F13/58A61F13/60A61F2013/5677A61F2013/5694
    • There is provided a fastening tab or side panel for a disposable diaper (herein below sometimes referred to simply as a “fastening tab”) with an opening formed in the fastening tab or side panel base member or a notch on the terminal end of the fastening tab or side panel base member. When an invention fastening tab or side panel of an adult or baby disposable diaper (herein below sometimes referred to simply as a “diaper”) is pulled outward, the fastening tab or side panel in some embodiments can be pulled out by hooking the fastening tab or side panel at an opening (the “opening” formed by a discrete opening or a notch) with a finger. The opening helps the fastening tab to have good handleability on the diaper when the diaper is fixed to a user. A fastening tab having openings or notches, with the side having the notches being attached to the diaper such that the notch forms an “opening”, also distributes forces at the side of the diaper. When the fastening tab is pulled the resulting forces are distributed in at least two directions around the sides of the openings or notches. This improves the fit of the diaper around the waist and/or around the thighs. The opening(s) also improves the visibility of the location of the fastener attachment and increases comfort of the fastening tab.
    • 提供了一种用于一次性尿布(在下文中有时简称为“紧固片”)的紧固片或侧片,其中形成在紧固片或侧片基底构件中的开口或紧固件的终端上的凹口 翼片或侧板基座构件。 当将成人或婴儿一次性尿布(以下有时简称为“尿布”)的发明紧固片或侧面片向外拉出时,在一些实施例中,紧固片或侧片可以通过钩住紧固片 或侧面板(通过离散的开口或凹口形成的“开口”)。 当尿布固定到使用者时,该开口有助于紧固片在尿布上具有良好的可操作性。 一种具有开口或凹口的紧固片,其侧面具有连接到尿布上的凹口,使得凹口形成“开口”,也分配在尿布侧的力。 当拉紧紧固片时,所产生的力分布在围绕开口或凹口的侧面的至少两个方向上。 这改善了尿布围绕腰部和/或大腿周围的配合。 开口还提高了紧固件附件的位置的可视性并增加了紧固片的舒适性。
    • 99. 发明授权
    • Clamp
    • US07387281B2
    • 2008-06-17
    • US11411548
    • 2006-04-26
    • Tatsuya Nakamura
    • Tatsuya Nakamura
    • F16L3/00
    • H05K3/301G02B6/3616G02B6/3636H02G3/32H05K13/06H05K2201/10606
    • A clamp to be surface mounted on a printed circuit board with a clamp groove into which an optical fiber is inserted. A flexible synthetic resin member is deformed by applying a pressing force so as to narrow the width of the clamp groove. The deformation causes an opening of the clamp to be closed, and opposing shape preservation members with the clamp groove located therebetween to be deformed so as to shorten the distance between top ends of the shape preservation members. A metal plate member with no spring properties remains deformed even after the pressing force is released, and the flexible synthetic resin member also remains deformed. An optical fiber pinched by inner wall surfaces of the clamp groove is unlikely to be displaced either in an axial direction or in a radial direction.
    • 表面安装在具有插入光纤的夹持槽的印刷电路板上的夹具。 柔性合成树脂构件通过施加按压力而变形,以使夹紧槽的宽度变窄。 变形导致夹具的开口闭合,并且夹持槽位于其间的相对形状保持构件变形,以缩短形状保持构件的顶端之间的距离。 没有弹性的金属板构件即使在按压力被释放之后也保持变形,并且柔性合成树脂构件也保持变形。 由夹紧槽的内壁表面夹住的光纤在轴向或径向方向上不太可能移动。
    • 100. 发明申请
    • Clamp
    • US20060243868A1
    • 2006-11-02
    • US11411548
    • 2006-04-26
    • Tatsuya Nakamura
    • Tatsuya Nakamura
    • A46B17/02
    • H05K3/301G02B6/3616G02B6/3636H02G3/32H05K13/06H05K2201/10606
    • A clamp to be surface mounted on a printed circuit board with a clamp groove into which an optical fiber is inserted. A flexible synthetic resin member is deformed by applying a pressing force so as to narrow the width of the clamp groove. The deformation causes an opening of the clamp to be closed, and opposing shape preservation members with the clamp groove located therebetween to be deformed so as to shorten the distance between top ends of the shape preservation members. A metal plate member with no spring properties remains deformed even after the pressing force is released, and the flexible synthetic resin member also remains deformed. An optical fiber pinched by inner wall surfaces of the clamp groove is unlikely to be displaced either in an axial direction or in a radial direction.
    • 表面安装在具有插入光纤的夹持槽的印刷电路板上的夹具。 柔性合成树脂构件通过施加按压力而变形,以使夹紧槽的宽度变窄。 变形导致夹具的开口闭合,并且夹持槽位于其间的相对形状保持构件变形,以缩短形状保持构件的顶端之间的距离。 没有弹性的金属板构件即使在按压力被释放之后也保持变形,并且柔性合成树脂构件也保持变形。 由夹紧槽的内壁表面夹住的光纤在轴向或径向方向上不太可能移动。