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    • 4. 发明申请
    • IMAGE FORMING APPARATUS
    • 图像形成装置
    • US20120195624A1
    • 2012-08-02
    • US13206123
    • 2011-08-09
    • Tetsunao KoujiriTaku FukuharaYoko Miyamoto
    • Tetsunao KoujiriTaku FukuharaYoko Miyamoto
    • G03G15/16
    • G03G15/161G03G15/0189G03G15/162G03G2215/0129
    • An image forming apparatus includes an image holding body that holds an electrostatic latent image; a developing device that develops the electrostatic latent image with a toner and forms a toner image on the image holding body; a transfer member having a fluorocarbon resin dispersion layer at least at a surface layer of the transfer member, fluorocarbon resin being dispersed in the fluorocarbon resin dispersion layer; a first transfer device that first-transfers the toner image, which is formed on the image holding body, on the transfer member; a second transfer device that second-transfers the toner image, which is first-transferred on the transfer member, on a recording medium; and an abrading member that is arranged to come into contact with and be separated from the transfer member and abrades part of the surface layer of the transfer member when the abrading member contacts the transfer member.
    • 图像形成装置包括保持静电潜像的图像保持体; 显影装置,其利用调色剂显影静电潜像并在图像保持体上形成调色剂图像; 至少在转印部件的表面层具有碳氟树脂分散层的转印部件,氟树脂分散在氟碳树脂分散层中; 第一转印装置,其将形成在图像保持体上的调色剂图像首先转印在转印部件上; 第二转印装置,其将首先转印在转印部件上的调色剂图像二次转印在记录介质上; 以及研磨构件,其被配置为当所述研磨构件接触所述转印构件时与所述转印构件接触并与所述转印构件分离并磨蚀所述转印构件的表面层的一部分。
    • 9. 发明授权
    • Image forming apparatus
    • 图像形成装置
    • US09052648B2
    • 2015-06-09
    • US12550644
    • 2009-08-31
    • Tsutomu KomiyamaKazutoshi SugitaniYoko Miyamoto
    • Tsutomu KomiyamaKazutoshi SugitaniYoko Miyamoto
    • G03G21/20G03G15/20G03G15/00G03G21/16
    • G03G15/20G03G15/657G03G21/1685G03G2215/00016G03G2221/1639
    • An image apparatus includes: a first housing including an image forming unit for forming an image on a recording material; a second housing including a heating unit for heating the formed image; a conveying unit, provided across the first and second housings, that conveys the recording material to a side of the heating unit using a no-end belt; a conveying unit including a first fixed unit disposed on a side of the second housing and a second fixed unit disposed on a side of the first housing; a first fixing unit positioning the first fixed unit to the heating unit, and fixing the first fixed unit to restrict directions other than a rotating direction of the conveying unit around the first fixed unit; a second fixing unit rotating the conveying unit around the first fixed unit, and fixing the second fixed unit to the first housing.
    • 图像装置包括:第一壳体,包括用于在记录材料上形成图像的图像形成单元; 第二壳体,包括用于加热所形成的图像的加热单元; 传送单元,设置在所述第一和第二壳体两侧,其使用无端带将所述记录材料传送到所述加热单元的一侧; 输送单元,其包括设置在所述第二壳体的一侧的第一固定单元和设置在所述第一壳体的一侧的第二固定单元; 第一固定单元,将第一固定单元定位到加热单元,并且固定第一固定单元以限制围绕第一固定单元的输送单元的旋转方向以外的方向; 第二固定单元,使所述输送单元绕所述第一固定单元旋转,并将所述第二固定单元固定到所述第一壳体。
    • 10. 发明授权
    • Method and apparatus for measuring small displacement
    • 测量小位移的方法和装置
    • US07457721B2
    • 2008-11-25
    • US11587142
    • 2005-04-22
    • Mitsuo TakedaWei WangNobuo IshiiYoko Miyamoto
    • Mitsuo TakedaWei WangNobuo IshiiYoko Miyamoto
    • G01B11/00G06F19/00
    • G01B11/002G01B11/024G01B11/24G06T7/001G06T7/262G06T7/529G06T7/579G06T2207/30136G06T2207/30164
    • Without using an interferometer, small displacement and/or three-dimensional shape of an object is detected in a noncontact way with high accuracy using pseudo-phase information calculated from e.g., a speckle pattern having a spatially random structure. A speckle image of the test object of the before displacement is obtained, and a spatial frequency spectrum is calculated by executing an N-dimensional Fourier transform for this. The complex analytic signal is obtained by setting the amplitude of frequency spectrum in the half plane including zero frequency in this amplitude distribution to zero, and executing the frequency spectrum amplitude in the half plane of the remainder in the inverse Fourier transform. And then, the amplitude value of this complex analytic signal is replaced with the constant value, a part of the obtained analytic signal domain is clipped, the phase information is calculated by the phase-only correlation function, and the cross-correlation peak in N-dimension is obtained. The displacement magnitude can be obtained by executing the above-mentioned method to the after displacement of the test object, and obtaining the difference of the cross-correlation peak before and after the displacement.
    • 在不使用干涉仪的情况下,使用从例如具有空间随机结构的散斑图案计算的伪相位信息,以非接触方式以非接触方式检测物体的小位移和/或三维形状。 获得前一位移测试对象的斑点图像,并通过执行N维傅立叶变换来计算空间频谱。 通过将该幅度分布中包括零频率的半平面中的频谱的幅度设置为零,并且在逆傅立叶变换中执行余数的半平面中的频谱幅度,获得复数分析信号。 然后,将该复数分析信号的振幅值代入常数值,得到的分析信号域的一部分被剪切,相位信息由相位相关函数计算,N相互相关峰值 - 获得维度。 可以通过对被检体的移位后的上述方法进行位移大小,得到位移前后的互相关峰的差。