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    • 21. 发明授权
    • Electrophotographic photoconductor, production method of the same, image forming apparatus, and process cartridge
    • 电子照相感光体,其制作方法,成像设备和处理盒
    • US08795935B2
    • 2014-08-05
    • US13256989
    • 2010-03-17
    • Hidetoshi KamiJunichi YamazakiYukio FujiwaraKazuhiro Egawa
    • Hidetoshi KamiJunichi YamazakiYukio FujiwaraKazuhiro Egawa
    • G03G15/04
    • G03G5/14791G03G5/0525G03G5/0614G03G5/071G03G5/14734G03G5/14786G03G5/14795
    • An electrophotographic photoconductor having a photosensitive layer and a crosslinked resin surface layer over a support, wherein shapes of concaves and convexes in a surface of the electrophotographic photoconductor are measured by a surface roughness/profile measuring device to obtain one-dimensional data arrays, the arrays are subjected to multiresolution analysis (MRA-1) through wavelet transformation to be separated into six frequency components including HHH, HHL, HMH, HML, HLH and HLL to obtain one-dimensional data arrays, the arrays of the HHL are thinned out to be reduced 1/10 to 1/100, thereby producing one-dimensional data arrays, which are then subjected to multiresolution analysis (MRA-2) through wavelet transformation to be separated into six frequency components including LHH, LHL, LMH, LML, LLH and LLL to thereby obtain 12 frequency components in total; and a center-line average roughness (WRa) of the 12 frequency components satisfies relationship (i) below. 1−597×WRa(HML)+238×WRa(HLH)−95×WRa(LHL)+84×WRa(LMH)−79×WRa(LML)+55×WRa(LLH)−17×WRa(LLL)>0  (i)
    • 在支撑体上具有感光层和交联树脂表面层的电子照相感光体,其中通过表面粗糙度/轮廓测量装置测量电子照相感光体的表面中的凹凸形状,以获得一维数据阵列,阵列 通过小波变换进行多分辨率分析(MRA-1)分离为HHH,HHL,HMH,HML,HLH和HLL等六个频率分量,得到一维数据阵列,将HHL的阵列稀疏化为 减少1/10至1/100,从而产生一维数据阵列,然后通过小波变换进行多分辨率分析(MRA-2),分为六个频率分量,包括LHH,LHL,LMH,LML,LLH和 从而获得12个频率分量; 并且12个频率分量的中心线平均粗糙度(WRa)满足以下关系式(i)。 1-597×WRa(HML)+ 238×WRa(HLH)-95×WRa(LHL)+84×WRa(LMH)-79×WRa(LML)+ 55×WRa(LLH)-17×WRa(LLL) > 0(i)
    • 23. 发明申请
    • IMAGE FORMING APPARATUS
    • 图像形成装置
    • US20100124712A1
    • 2010-05-20
    • US12610542
    • 2009-11-02
    • Kazuhiro EGAWAYukio FujiwaraHidetoshi KamiKohichi Ohshima
    • Kazuhiro EGAWAYukio FujiwaraHidetoshi KamiKohichi Ohshima
    • G03G15/00
    • G03G21/0011G03G2215/00957
    • The image forming apparatus includes a photoreceptor bearing an electrostatic image; a developing device developing the electrostatic image with a developer including a toner to form a toner image on the photoreceptor; a transferring device transferring the toner image onto a receiving material; and a cleaning device having a cleaning blade cleaning the surface of the photoreceptor. The photoreceptor includes an electroconductive substrate, a photosensitive layer and an outermost layer having projected portions thereon. The outermost layer and projected portions include the same crosslinked charge transport material. The outermost layer has a surface roughness property such that the number of projected portions having height greater than Rz/2 is from 40 to 90 in a length of 12 mm, wherein Rz represents ten-point mean roughness of the outermost layer. The tip of the cleaning blade is contacted with the photoreceptor at a linear pressure of from 80 g/cm to 150 g/cm.
    • 图像形成装置包括具有静电图像的感光体; 显影装置用包含调色剂的显影剂显影静电图像以在感光体上形成调色剂图像; 转印装置,将调色剂图像转印到接收材料上; 以及具有清洁感光体表面的清洁刮板的清洁装置。 感光体包括导电基底,感光层和在其上具有突出部分的最外层。 最外层和突出部分包括相同的交联电荷输送材料。 最外层具有表面粗糙度性质,使得高度大于Rz / 2的突出部分的数量在12mm的长度上为40至90,其中Rz表示最外层的十点平均粗糙度。 清洁刮板的尖端与感光体以80g / cm〜150g / cm的线性压力接触。
    • 27. 发明授权
    • Image forming apparatus and process cartridge
    • 成像设备和处理盒
    • US08170449B2
    • 2012-05-01
    • US12389551
    • 2009-02-20
    • Hidetoshi KamiYukio FujiwaraKazuhiro Egawa
    • Hidetoshi KamiYukio FujiwaraKazuhiro Egawa
    • G03G5/047
    • G03G5/14704G03G5/0592G03G5/0614G03G5/071G03G5/14791
    • An image forming apparatus including an image bearing member which has an electroconductive substrate, a photosensitive layer overlying the electroconductive substrate and a cross-linked resin surface layer overlying the photosensitive layer and bears a latent electrostatic image on the surface thereof, an application device to apply a solid lubricant to the image bearing member; a charging device to charge the surface of the image bearing member, an irradiation device to irradiate the surface of the image bearing member with light to form the latent electrostatic image thereon, a development device to develop the latent electrostatic with toner to obtain a developed image, a transfer device to transfer the developed image to a recording medium, and; a cleaning device to clean the surface of the image bearing member, wherein the cross-linked resin surface layer includes a cross-linked body of trimethylol propane triacrylate and particulates including silicon and an average diameter of agglomeration areas of the particulates containing silicon on the surface of the cross-linked resin surface layer is from 0.5 to 2.2 μm.
    • 一种图像形成装置,包括具有导电基板的图像承载部件,覆盖导电基板的感光层和覆盖在感光层上的交联树脂表面层,并在其表面上承载静电潜像;应用装置, 图像承载部件的固体润滑剂; 用于对图像承载部件的表面充电的充电装置,照射装置,用光照射图像承载部件的表面以在其上形成静电潜像;显影装置,用调色剂显影静电以获得显影图像 ,将显影图像转印到记录介质的转印装置,以及 用于清洁图像承载部件的表面的清洁装置,其中所述交联树脂表面层包括三羟甲基丙烷三丙烯酸酯和包含硅的颗粒的交联体和在所述表面上含有硅的颗粒的附聚区域的平均直径 的交联树脂表面层为0.5〜2.2μm。
    • 28. 发明申请
    • ELECTROPHOTOGRAPHIC PHOTOCONDUCTOR, PRODUCTION METHOD OF THE SAME, IMAGE FORMING APPARATUS, AND PROCESS CARTRIDGE
    • 电子照相机,其生产方法,图像形成装置和工艺盒
    • US20120008984A1
    • 2012-01-12
    • US13256989
    • 2010-03-17
    • Hidetoshi KamiJunichi YamazakiYukio FujiwaraKazuhiro Egawa
    • Hidetoshi KamiJunichi YamazakiYukio FujiwaraKazuhiro Egawa
    • G03G15/00G03G5/04
    • G03G5/14791G03G5/0525G03G5/0614G03G5/071G03G5/14734G03G5/14786G03G5/14795
    • An electrophotographic photoconductor having a photosensitive layer and a crosslinked resin surface layer over a support, wherein shapes of concaves and convexes in a surface of the electrophotographic photoconductor are measured by a surface roughness/profile measuring device to obtain one-dimensional data arrays, the arrays are subjected to multiresolution analysis (MRA-1) through wavelet transformation to be separated into six frequency components including HHH, HHL, HMH, HML, HLH and HLL to obtain one-dimensional data arrays, the arrays of the HHL are thinned out to be reduced 1/10 to 1/100, thereby producing one-dimensional data arrays, which are then subjected to multiresolution analysis (MRA-2) through wavelet transformation to be separated into six frequency components including LHH, LHL, LMH, LML, LLH and LLL to thereby obtain 12 frequency components in total; and a center-line average roughness (WRa) of the 12 frequency components satisfies relationship (i) below. 1−597×WRa(HML)+238×WRa(HLH)−95×WRa(LHL)+84×WRa(LMH)−79×WRa(LML)+55×WRa(LLH)−17×WRa(LLL)>0  (i)
    • 在支撑体上具有感光层和交联树脂表面层的电子照相感光体,其中通过表面粗糙度/轮廓测量装置测量电子照相感光体的表面中的凹凸形状,以获得一维数据阵列,阵列 通过小波变换进行多分辨率分析(MRA-1)分离为HHH,HHL,HMH,HML,HLH和HLL等六个频率分量,得到一维数据阵列,将HHL的阵列稀疏化为 减少1/10至1/100,从而产生一维数据阵列,然后通过小波变换进行多分辨率分析(MRA-2),将其分为六个频率分量,包括LHH,LHL,LMH,LML,LLH和 从而获得12个频率分量; 并且12个频率分量的中心线平均粗糙度(WRa)满足以下关系式(i)。 1-597×WRa(HML)+ 238×WRa(HLH)-95×WRa(LHL)+84×WRa(LMH)-79×WRa(LML)+ 55×WRa(LLH)-17×WRa(LLL) > 0(i)