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    • 5. 发明授权
    • Optical scanning device
    • 光学扫描装置
    • US08767280B2
    • 2014-07-01
    • US13407392
    • 2012-02-28
    • Yusuke MurodateNaoyuki Iwata
    • Yusuke MurodateNaoyuki Iwata
    • G02B26/08G02B26/12B41J2/47
    • G02B26/12B41J2/471G02B26/121
    • An optical scanning device including: a light source part that is provided in a resin-molded casing and emits a laser beam; a deflector that is arranged in the casing and deflects and scans the laser beam, the deflector including, a rotary polygon mirror that reflects the laser beam, a driving source that rotates the rotary polygon mirror, and a substrate member; and the casing including, a fixed wall that extends in a direction perpendicular to a mirror surface of the rotary polygon mirror, a first fixing part that is provided to the fixed wall and fixes the light source part, a second fixing part that is provided to the fixed wall and fixes the substrate member, and a reinforcing part that is provided to the fixed wall and extends toward the emission direction so as to continuously connect the first fixing part and the second fixing part.
    • 一种光学扫描装置,包括:光源部,设置在树脂成型壳体内并发射激光束; 偏转器,布置在壳体中并偏转和扫描激光束,偏转器包括:反射激光束的旋转多面镜;旋转多面镜旋转的驱动源;以及基板部件; 并且所述壳体包括:在垂直于所述旋转多面镜的镜面的方向上延伸的固定壁,设置在所述固定壁上并固定所述光源部的第一固定部,将所述第二固定部设置于 所述固定壁固定所述基板部件,所述加强部设置在所述固定壁上,朝向所述排出方向延伸,以连续地连接所述第一固定部和所述第二固定部。
    • 7. 发明授权
    • Optical scanner
    • 光学扫描仪
    • US08270052B2
    • 2012-09-18
    • US12841274
    • 2010-07-22
    • Naoyuki Iwata
    • Naoyuki Iwata
    • G02B26/08
    • G02B26/123G03G15/04036G03G15/0435G03G2215/0404
    • An optical scanner scans target surfaces with laser beams emitted from first and second light sources and deflected by a light deflector. The optical scanner includes a first frame on which the first and second light sources, and the light deflector are mounted. The first frame has first and second exposure openings each extending in a main scanning direction and configured to allow a laser beam to pass therethrough from an interior of the optical scanner toward a corresponding target surface outside the optical scanner. The light deflector is attached to the first frame in a surrounding area defined by the first and second exposure openings. A second frame is provided opposite to the first frame on a side of the first frame where the light deflector is positioned, and at least one connecting member for connecting the first and second frames is provided in the surrounding area.
    • 光学扫描仪利用从第一和第二光源发射并由光偏转器偏转的激光束扫描目标表面。 光学扫描器包括第一框架,其上安装有第一和第二光源以及光偏转器。 第一框架具有第一和第二曝光开口,每个第一和第二曝光开口均沿主扫描方向延伸并且被配置为允许激光束从光学扫描器的内部通过光学扫描器外部的对应目标表面。 光偏转器在由第一和第二曝光开口限定的周围区域中附接到第一框架。 第二框架设置在第一框架的与第一框架的侧面相对的位置,其中光偏转器被定位,并且在周围区域中设置有用于连接第一和第二框架的至少一个连接构件。
    • 8. 发明授权
    • Image reading apparatus
    • 图像读取装置
    • US08610974B2
    • 2013-12-17
    • US13073018
    • 2011-03-28
    • Masaru TakeuchiNaoyuki IwataTakayuki AkimatsuTetsuya Ogawa
    • Masaru TakeuchiNaoyuki IwataTakayuki AkimatsuTetsuya Ogawa
    • H04N1/04
    • H04N1/00551H04N1/024H04N1/121H04N1/123H04N1/1245H04N1/193H04N1/2032H04N2201/0081H04N2201/02404H04N2201/02491
    • An image reading apparatus may include a main unit and a cover unit pivotally attached to the main unit. The cover unit may include an image reading device configured to read an image of a document along a conveying path. The image reading device may include a contact image sensor, a sensor holder to hold the contact image sensor, an urging member, and a shock absorber. The contact image sensor is disposed below the conveying path. The sensor holder has an open top boxed shape and holds the contact image sensor in position inside. The urging member is disposed in an inner bottom surface of the sensor holder to urge the contact image sensor toward the conveying path. The shock absorber is disposed between a bottom surface of the contact image sensor and the inner bottom surface of the sensor holder, and is made of a porous material.
    • 图像读取装置可以包括主单元和枢转地附接到主单元的盖单元。 盖单元可以包括被配置为沿着传送路径读取文档的图像的图像读取装置。 图像读取装置可以包括接触图像传感器,用于保持接触图像传感器的传感器保持器,推动构件和减震器。 接触图像传感器设置在输送路径的下方。 传感器支架具有敞开的顶盒形状,并将接触图像传感器保持在内部。 推动构件设置在传感器保持器的内底表面中,以将接触图像传感器推向输送路径。 减震器设置在接触图像传感器的底表面和传感器保持器的内底表面之间,并且由多孔材料制成。
    • 9. 发明授权
    • Sheet feeding device
    • 送纸装置
    • US08910931B2
    • 2014-12-16
    • US14040229
    • 2013-09-27
    • Naoyuki Iwata
    • Naoyuki Iwata
    • B65H3/06
    • B65H3/06B65H1/04B65H3/0607B65H3/0684B65H3/5223B65H3/66B65H7/00B65H2301/51212B65H2404/14211B65H2405/1117B65H2405/324B65H2511/20B65H2515/112B65H2515/81B65H2801/12B65H2220/01B65H2220/08
    • A sheet feeding device including: a sheet feeding roller configured to convey a sheet; a placing portion on which the sheet is configured to be placed; a moving unit configured to move the placing portion toward the sheet feeding roller; a separation pad to which a leading end of the conveyed sheet is configured to abut at a contact position; a separation roller configured to nip the sheet conveyed by the sheet feeding roller between the separation pad and the separation roller at a nip position while bringing the sheet into sliding contact with the separation pad; and a separation assistant member provided between the sheet feeding roller and the separation roller and configured to change a distance between the nip position and the contact position according to a basis weight of the sheet by coming into contact with the sheet.
    • 一种送纸装置,包括:送纸辊,其构造成输送纸张; 放置部件,所述片材被配置成放置在所述放置部分上; 移动单元,其构造成使所述放置部朝向所述片材进给辊移动; 所述分离垫,所述被输送的纸张的前端被构造成在接触位置处抵靠在所述分离垫上; 分离辊,其构造成在片材与分离垫滑动接触的同时,在夹持位置夹持由片材进给辊输送的片材在分离垫和分离辊之间; 以及设置在供纸辊和分离辊之间的分离辅助构件,其构造成通过与片材接触而根据片材的基重来改变辊隙位置和接触位置之间的距离。
    • 10. 发明申请
    • Polishing Composition for Silicon Wafer and Polishing Method of Silicon Wafer
    • 硅晶片抛光组合物和硅晶片抛光方法
    • US20090311947A1
    • 2009-12-17
    • US12307056
    • 2006-10-18
    • Naoyuki IwataIsao Nagashima
    • Naoyuki IwataIsao Nagashima
    • B24B37/04C09K3/14H01L21/304
    • H01L21/30625C09G1/02
    • The present invention provides a polishing composition used in a polishing process of a silicon wafer, which has an improved smoothness and is environment-friendly. The polishing composition for the silicon wafer of the present invention comprises a metal oxide, an alkaline substance and water, wherein the alkaline substance is guanidines. Another polishing composition for a silicon wafer of the present invention comprises an alkaline substance and water, wherein the alkaline substance is guanidines. These polishing compositions may further comprise a chelating agent. The metal oxide is preferably a cerium oxide or a silicon oxide. The present invention encompasses a polishing method using the above polishing composition and a kit for the above polishing composition.
    • 本发明提供一种用于硅晶片抛光工艺的抛光组合物,其具有改善的平滑度并且是环境友好的。 本发明的硅晶片用抛光组合物包含金属氧化物,碱性物质和水,其中碱性物质是胍。 本发明的硅晶片的另一抛光组合物包含碱性物质和水,其中碱性物质是胍。 这些抛光组合物还可以包含螯合剂。 金属氧化物优选为氧化铈或氧化硅。 本发明包括使用上述抛光组合物的抛光方法和用于上述抛光组合物的试剂盒。