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    • 1. 发明申请
    • SLIDING BEARING
    • 滑动轴承
    • US20080187259A1
    • 2008-08-07
    • US11861605
    • 2007-09-26
    • Osamu ISHIGOTakahito NakagawaKouji KurodaAkira Ono
    • Osamu ISHIGOTakahito NakagawaKouji KurodaAkira Ono
    • F16C9/02
    • F16C33/1065F16C9/02F16C17/022F16C33/046F16C33/1055F16C2240/40F16C2240/42F16C2240/54F16C2360/22
    • Disclosed is a cylindrical sliding bearing consisting of an upper and a lower half bearings, which supports a crankshaft of an internal combustion engine. An oil groove is formed circumferentially on an inner surface of at least the upper half bearing. There are provided circumferential grooves formed by boring machining on the overall inner surfaces of the half bearings. Each of the circumferential grooves existing in circumferential both end regions has a larger cross-sectional area than the grooves existing in other regions receiving predominantly operational load when the crankshaft rotates. The upper half bearing is chamfered at a front inner end edge with respect to a rotational direction of the crankshaft supported by the sliding bearing, and the lower half bearing is also chamfered at an inner end edge adjacent to the above front inner end edge, an area of the respective chamfered portion being the same as the 0.15 mm to 0.4 mm length chamfer corner area.
    • 公开了一种由支撑内燃机的曲轴的上半轴承和下半轴承组成的圆柱形滑动轴承。 在至少上半轴承的内表面上周向形成油槽。 在半轴承的整个内表面上设置有通过镗孔加工形成的周向槽。 存在于周向两端区域中的每个周向凹槽具有比当曲轴旋转时主要承受操作负载的其它区域中存在的凹槽更大的横截面面积。 上半轴承在相对于由滑动轴承支撑的曲轴的旋转方向的前内端边缘处被倒角,并且下半轴承在邻近上述前内端边缘的内端边缘处也被倒角, 相应倒角部分的面积与0.15mm至0.4mm长的倒角角区域相同。
    • 2. 发明授权
    • Method of manufacturing optical component, optical component, method of manufacturing display device, and display device
    • 光学部件的制造方法,光学部件,显示装置的制造方法以及显示装置
    • US08551804B2
    • 2013-10-08
    • US13120999
    • 2009-09-17
    • Kazuhito HoriAkira Ono
    • Kazuhito HoriAkira Ono
    • H01L21/00
    • H01L51/5284H01L27/3272H01L51/5275
    • A method and optical component prevent external light reflection and increase light extraction efficiency. In one example embodiment, an optical component is provided on a light extraction side of a light-emitting panel. After a shielding film shaped like a lattice or a mesh is formed on a transparent substrate, a resist film is formed, the resist film is irradiated with ultraviolet light UV from the back side of the substrate by using the shielding film as a mask, and development is carried out, so that an optical functional element is formed. The planar shape of the undersurface of the optical functional element is the same as the planar shape of the lattice or the mesh of the shielding film, and a positioning error between the optical functional element and the shielding film becomes extremely small.
    • 一种方法和光学部件防止外部光反射并提高光提取效率。 在一个示例性实施例中,在发光面板的光提取侧上设置光学部件。 在透明基板上形成像晶格或网状的屏蔽膜之后,形成抗蚀剂膜,通过使用屏蔽膜作为掩模,从基板的背面用抗紫外线UV照射抗蚀剂膜, 进行显影,从而形成光功能元件。 光功能元件的下表面的平面形状与屏蔽膜的格子或网格的平面形状相同,并且光功能元件与屏蔽膜之间的定位误差变得非常小。
    • 3. 发明申请
    • PACKAGING POUCH FOR ABSORBENT ARTICLE
    • 吸收物品包装袋
    • US20130008824A1
    • 2013-01-10
    • US13544109
    • 2012-07-09
    • Shigeo ItoYasuhiro IwabuTatsuo TakashimaAkira Ono
    • Shigeo ItoYasuhiro IwabuTatsuo TakashimaAkira Ono
    • B65D85/00
    • B65D75/5833B65D75/56B65D75/5805B65D75/5827
    • A packaging pouch for packaging an absorbent article has a front, back and side faces. The side faces are folded between the front and back faces. The packaging pouch is rectangular in use. A sealing portion expanding in a transverse direction around the upper end of the packaging pouch, a side face portion that forms the side face of the package, and a top portion that forms the top face of the package by positioning between the sealing portion and the side face portion are formed. Moreover, perforations are formed in the top portion along a reference line extending in the transverse direction from one side edge of the packaging pouch to the other side edge of the packaging pouch. Handle members extending in the transverse direction from around one to the other side edge and are attached to the front back faces in the top portion below the perforations.
    • 用于包装吸收制品的包装袋具有前,后和侧面。 侧面折叠在前面和后面之间。 包装袋在使用中是矩形的。 围绕包装袋的上端在横向上扩展的密封部分,形成包装的侧面的侧面部分和通过在密封部分和密封部分之间定位形成包装的顶面的顶部 形成侧面部。 此外,沿着从包装袋的一个侧边缘到包装袋的另一侧边缘在横向上延伸的参考线在顶部形成穿孔。 处理从横向方向延伸到另一侧边缘的构件,并且附接到穿孔下方的顶部中的前后表面。
    • 9. 发明授权
    • Phase shift mask inspection apparatus
    • 相移掩模检查装置
    • US6078393A
    • 2000-06-20
    • US923088
    • 1997-09-04
    • Katsuki OohashiTakeshi FujiwaraAkira Ono
    • Katsuki OohashiTakeshi FujiwaraAkira Ono
    • G01B9/02G03F1/26G03F1/84H01L21/027H01L21/66
    • G03F1/84G01B9/02024G01B9/02082G03F1/26G01B2290/70
    • A phase shift mask inspection apparatus according to the present invention comprises a laser light source for outputting laser light in a deep ultraviolet region, optical conversion means for converting the laser light outputted from the laser light source into light of a point source group consisting of a plurality of point sources, an illumination optical system for separating the light of the point source group converted by the optical conversion means into two polarized light beams shifted sideways and illuminating these polarized light beams onto a phase shift mask in which a phase shifter is formed, a sensing optical system for superimposing the two polarized light beams passed through the phase shift mask on one another to produce interference light, and phase value computing means for calculating the phase value at the phase shifter in the phase shift mask on the basis of the intensify of the interference light produced by the sensing optical system.
    • 根据本发明的相移掩模检查装置包括用于在深紫外区域中输出激光的激光源,用于将从激光源输出的激光转换成由 多个点源,用于将由光转换装置转换的点源组的光分离成横向偏移的两个偏振光束并将这些偏振光照射到形成有移相器的相移掩模上的照明光学系统, 用于将通过相移掩模的两个偏振光束彼此叠加以产生干涉光的感测光学系统;以及相位值计算装置,用于基于加强度在相移掩模中计算移相器上的相位值 由感测光学系统产生的干涉光。