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    • 3. 发明授权
    • Optical encoder device comprising a moveable slit plate and a stationary slit plate
    • 光学编码器装置,其包括可移动狭缝板和固定狭缝板
    • US08389925B2
    • 2013-03-05
    • US12921259
    • 2009-03-06
    • Yoshihiro ShojiYoshi IshizukaShoji Ito
    • Yoshihiro ShojiYoshi IshizukaShoji Ito
    • G01D5/34
    • G01D5/34746
    • An optical encoder device is provided, in which the number of light transmissive slits of a stationary slit plate can be increased as much as possible according to the length of a light receiving surface of a light receiving element to produce an output signal with little distortion. A movable slit plate 3 includes a slit row R1 in which a plurality of light transmissive slits (light transmissive portions) S1 each having a slit width of 180° in terms of electrical angle and a plurality of light non-transmissive slits (light non-transmissive portions) S2 each having a slit width of 180° in terms of electrical angle are alternately formed. A stationary slit plate 4 includes a slit row R2 in which a plurality of light transmissive slits S3 each having a slit width of 180° in terms of electrical angle and a plurality of light non-transmissive slits S4 each having a slit width of (360Xk-180)° in terms of electrical angle are alternately formed. k is a value that satisfies k=1±(⅓n) where n denotes the number of the light transmissive slits S3.
    • 提供一种光学编码器装置,其中可以根据光接收元件的光接收表面的长度尽可能地增加固定狭缝板的透光狭缝的数量,以产生具有很小变形的输出信号。 可动狭缝板3包括狭缝列R1,其中多个透光狭缝(透光部)S1以电角度为单位具有180°的狭缝宽度和多个光不透光狭缝(光非透明部分) 交替地形成各自具有电角度为180°的狭缝宽度的透光部)S2。 固定狭缝板4包括狭缝列R2,其中多个透光狭缝S3分别具有电角度为180°的狭缝宽度和多个狭缝宽度为(360Xk)的不透光狭缝S4 -180)°电角度交替形成。 k是满足k = 1±(1 / nn)的值,其中n表示透光狭缝S3的数量。
    • 4. 发明授权
    • Optical encoder device
    • 光学编码器装置
    • US08288709B2
    • 2012-10-16
    • US12846101
    • 2010-07-29
    • Yoshihiro Shoji
    • Yoshihiro Shoji
    • G01D5/34
    • G01D5/34707
    • An optical encoder device is provided, in which first light transmissive slits are formed in a movable slit plate and second light transmissive slits are formed in a stationary slit plate. The number of the second light transmissive slits is defined as S. The second light transmissive slits are formed in the stationary slit plate such that when one of the second light transmissive slits is optically coincident with one of the first light transmissive slits, the remaining S-1 second light transmissive slits are shifted in position from other first light transmissive slits corresponding to the remaining second light transmissive slits by S-1 phase differences.
    • 提供一种光学编码器装置,其中第一透光狭缝形成在可移动狭缝板中,并且第二透光狭缝形成在固定狭缝板中。 第二透光狭缝的数量被定义为S.第二透光狭缝形成在固定狭缝板中,使得当第二透光狭缝之一与第一透光狭缝之一光学一致时,剩余的S -1个第二透光狭缝从对应于剩余的第二透光狭缝的其它第一透光狭缝的位置偏移S-1相位差。
    • 7. 发明申请
    • OPTICAL ENCODER DEVICE
    • 光学编码器装置
    • US20110036970A1
    • 2011-02-17
    • US12921259
    • 2009-03-06
    • Yoshihiro ShojiYoshi IshizukaShoji Ito
    • Yoshihiro ShojiYoshi IshizukaShoji Ito
    • G01D5/347
    • G01D5/34746
    • An optical encoder device is provided, in which the number of light transmissive slits of a stationary slit plate can be increased as much as possible according to the length of a light receiving surface of a light receiving element to produce an output signal with little distortion. A movable slit plate 3 includes a slit row R1 in which a plurality of light transmissive slits (light transmissive portions) S1 each having a slit width of 180° in terms of electrical angle and a plurality of light non-transmissive slits (light non-transmissive portions) S2 each having a slit width of 180° in terms of electrical angle are alternately formed. A stationary slit plate 4 includes a slit row R2 in which a plurality of light transmissive slits S3 each having a slit width of 180° in terms of electrical angle and a plurality of light non-transmissive slits S4 each having a slit width of (360Xk-180)° in terms of electrical angle are alternately formed. k is a value that satisfies k=1±(⅓n) where n denotes the number of the light transmissive slits S3.
    • 提供一种光学编码器装置,其中可以根据光接收元件的光接收表面的长度尽可能地增加固定狭缝板的透光狭缝的数量,以产生具有很小变形的输出信号。 可动狭缝板3包括狭缝列R1,其中多个透光狭缝(透光部)S1以电角度为单位具有180°的狭缝宽度和多个光不透光狭缝(光非透明部分) 交替地形成各自具有电角度为180°的狭缝宽度的透光部)S2。 固定狭缝板4包括狭缝列R2,其中多个透光狭缝S3分别具有电角度为180°的狭缝宽度和多个狭缝宽度为(360Xk)的光不透光狭缝S4 -180)°电角度交替形成。 k是满足k = 1±(1 / nn)的值,其中n表示透光狭缝S3的数量。
    • 8. 发明授权
    • Non-aqueous electrolyte battery
    • 非水电解液电池
    • US5888671A
    • 1999-03-30
    • US835057
    • 1997-04-03
    • Mikiya YamasakiToshiyuki NohmaKoji NishioYasuyuki KusumotoYoshihiro Shoji
    • Mikiya YamasakiToshiyuki NohmaKoji NishioYasuyuki KusumotoYoshihiro Shoji
    • H01M4/1393H01M4/58H01M4/587H01M4/62
    • H01M4/587H01M4/362H01M4/0404H01M4/1393
    • The present invention is directed to a non-aqueous electrolyte battery comprising an anode, a cathode using a carbon material, and a non-aqueous electrolytic solution, wherein the carbon material obtained by coating a core composed of graphitized carbon in which spacing (d.sub.002) of lattice planes (002) is in the range of 3.35 to 3.39 .ANG. and the length (Lc) of a crystallite in the direction of the c axis is not less than 1000 .ANG. with coating graphitized carbon in which spacing (d.sub.002) of lattice planes (002) is more than that in the graphitizing carbon and is in the range of 3.36 to 3.48 .ANG., the carbon material obtained by coating a core composed of graphitized carbon in which spacing (d.sub.002) of lattice planes (002) is in the range of 3.35 to 3.39 .ANG. with a calcined product of an organic substance composed of carbon containing sulfur atoms, or the carbon material composed multi-phase graphitized carbon having two or more crystals respectively different crystallinities in one particle, the length (Lc) of a crystallite in the direction of the c axis in each of the crystals being not less than 10 .ANG., are used for the cathode.
    • 本发明涉及一种非水电解质电池,其包括阳极,使用碳材料的阴极和非水电解液,其中通过涂覆由石墨化碳构成的芯获得的碳材料,其中间隔(d002) 的晶格面(002)在3.35〜3.39范围内,微晶在c轴方向上的长度(Lc)不小于1000,涂覆石墨化碳,其中晶格间距(d002) (002)比石墨化碳中的多,在3.36〜3.48范围内,通过涂布由石墨化碳构成的芯构成的碳材料,其中晶格面(002)的间隔(d002)在该范围内 具有由含硫原子的碳组成的有机物的煅烧产物的3.35至3.39的角度,或具有两个或更多个晶体的多相石墨化碳的碳材料分别具有不同的晶体硅酸盐 在一个颗粒中,每个晶体中c轴方向上微晶的长度(Lc)不小于10,用于阴极。