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    • 2. 发明授权
    • Electrophotographic process and apparatus for making plural copies from
a single image
    • 用于从单个图像制作多个拷贝的电子照相方法和装置
    • US4407918A
    • 1983-10-04
    • US348839
    • 1982-02-16
    • Eiichi Sato
    • Eiichi Sato
    • G03G15/05G03G5/02G03G5/043G03G5/047G03G5/14G03G13/00G03G13/045G03G15/00G03G13/22
    • G03G5/144G03G13/00G03G13/045G03G5/0436G03G5/047G03G5/142Y10S430/102
    • A photosensitive member is formed by applying on an electrically conductive substrate, a first photoconductive layer sensitive to a visible light, an insulating charge retentive layer, and a second photoconductive layer sensitive to ultraviolet light, successively in this order. At first the photosensitive member is uniformly charged to a negative polarity, while the photosensitive member is uniformly exposed to the visible light. Then an image of a document to be copied is projected while the photosensitive member is charged to a positive polarity. After that the photosensitive layer is uniformly exposed to the visible light and finally the photosensitive member is uniformly exposed to the ultraviolet light. In this manner, an electrostatic charge image having high contrast and resolution is formed in the photosensitive member by means of charges which are stably trapped across the charge retentive layer. By repeating development and transfer for the same and single charge image once formed in the photosensitive member a number of copies having excellent image quality can be printed.
    • 通过依次施加导电性基板,对可见光敏感的第一光电导层,绝缘电荷保持层和对紫外线敏感的第二光电导层,形成感光体。 首先,感光构件被均匀地充电到负极性,同时感光构件被均匀地暴露于可见光。 然后在将感光构件充电到正极性的同时投影要复制的文档的图像。 之后,感光层均匀地暴露于可见光,最后感光部件均匀地暴露于紫外光。 以这种方式,通过稳定地捕获在电荷保持层上的电荷,在感光构件中形成具有高对比度和分辨率的静电荷图像。 通过重复显影和转印一次形成在感光构件上的相同和单一的电荷图像,可以印刷出具有优异图像质量的多个拷贝。
    • 3. 发明授权
    • Digital image forming method and apparatus
    • 数字图像形成方法和装置
    • US6013403A
    • 2000-01-11
    • US137114
    • 1998-08-20
    • Junichi Ichikawa
    • Junichi Ichikawa
    • G03G9/08G03G13/08G03G15/00G03G15/01G03G15/08H04N1/29H04N1/387H04N1/40G03G13/045
    • H04N1/40025G03G13/08H04N1/29G03G2215/0119
    • When the uniformly charged surface of a photoreceptor is exposed to an intensive light (a), a potential at an exposed position (Vx) is lower than a bias voltage (Vbias-A) of a first developing unit (b), toner A attaches to the exposed position (Vx) after its developing process, and its potential is lower than a bias voltage (Vbias-B) of a second developing unit (c). When the uniformly charged surface of a photoreceptor is exposed to a weak light, a potential at the exposed position (Vx) is lower than the bias voltage (Vbias-B) but higher than the bias voltage (Vbias-A) (e). Only toner B attaches to the photoreceptor (f). If the toner A and toner B belong to the same color family and are black toner and gray toner, an image of two density levels is formed, and the gradation and the graininess of the resultant picture are improved.
    • 当感光体的均匀充电的表面暴露于强光(a)时,暴露位置(Vx)的电位低于第一显影单元(b)的偏压(Vbias-A),调色剂A附着 在显影处理之后到曝光位置(Vx),并且其电位低于第二显影单元(c)的偏置电压(Vbias-B)。 当感光体的均匀带电表面暴露于弱光时,曝光位置(Vx)的电位低于偏置电压(Vbias-B),但高于偏置电压(Vbias-A)(e)。 只有调色剂B附着于感光体(f)。 如果调色剂A和调色剂B属于相同颜色系列,并且是黑色调色剂和灰色调色剂,则形成两个浓度级别的图像,并且所得图像的灰度和颗粒度得到改善。
    • 4. 发明授权
    • Charge carrier medium and reproduction of electrostatic latent image
    • 电荷载体介质和静电潜像的再现
    • US5497179A
    • 1996-03-05
    • US969231
    • 1993-03-08
    • Takashi AonoKayoko SugiyamaMasayuki Iijima
    • Takashi AonoKayoko SugiyamaMasayuki Iijima
    • G03G15/05G03G5/02G03G13/045H04N1/29G01D15/06
    • G03G13/045G03G5/02
    • A charge carrier medium 1 including an insulating layer 11 laminated on an electrically conductive layer 12 with an electrostatic latent image 2 recorded on the insulating layer 11 is brought into contact with water, etc., to resurrect the attenuated potential. Alternatively, the charge carrier medium 1 is previously immersed in water, etc., to deposit onto the surface thereof charges opposite in polarity to those of the electrostatic latent image 2 generated by charging, thereby attenuating the surface potential. This makes any external access to the image information impossible. In reading the image information, a PET film 5 or the like is brought into close contact with the surface of the charge carrier medium 1, and is then peeled apart from that surface to remove the charges of the opposite polarity and thereby resurrect the image information for reading. This makes it possible to protect the image information against a third person's access thereto and provide an assured reproduction of the electrostatic latent image.
    • PCT No.PCT / JP92 / 00615 Sec。 371日期1993年3月8日 102(e)1993年3月8日PCT PCT。日期为1992年5月14日。包含层叠在导电层12上的绝缘层11与记录在绝缘层11上的静电潜像2的电荷载体介质1接触 用水等来复活衰减的潜力。 或者,电荷载体介质1预先浸入水等中,以使其表面上的电荷与通过充电产生的静电潜像2的极性相反,从而使表面电位衰减。 这使得对图像信息的任何外部访问都不可能。 在读取图像信息时,将PET膜5等与电荷载体介质1的表面紧密接触,然后从该表面剥离以除去相反极性的电荷,从而使图像信息复原 阅读。 这使得可以保护图像信息免受第三人对其的访问,并提供静电潜像的可靠再现。
    • 5. 发明授权
    • Method for the formation of outline images corresponding to the
peripheral outlines of document's images
    • 用于形成对应于文档图像的外围轮廓的轮廓图像的方法
    • US4828953A
    • 1989-05-09
    • US58266
    • 1987-05-21
    • Tateki OkaNaoki ToyoshiTomoaki Yokoyama
    • Tateki OkaNaoki ToyoshiTomoaki Yokoyama
    • G03G13/045G03G13/22
    • G03G13/22G03G13/045
    • The present invention relates to a method for forming an outline of an image. By this method, at first, an electrostatic latent image bearing member is charged and then irradiated to a negative image to form an electrostatic latent image. Thereafter, the irradiated member is re-charged with a scorotron charger while applying a voltage to a grid, said voltage being lower than the surface potential of the non-image portion of the latent image, being higher than the potential of the image portion of the latent image and being of the same porality as that of the charging. By this re-charging, in one embodiment, the outline portion of the image has lower potential than the other portion. Then, the outline portion of the image with lower potential is visualized with a reversal development by using a toner charged to a polarity same as the polarity of charging.Or in another embodiment, the outline portion of the image has higher potential than the other portion. Then, the outline portion of the image with high potential is visualized with a normal development by using a toner charged to a polarity opposite to the polarity of charging.
    • 本发明涉及一种形成图像轮廓的方法。 通过该方法,首先,对静电潜像承载部件进行充电,然后照射到负像以形成静电潜像。 之后,将照射部件用栅极充电器重新充电,同时施加电压到电网,所述电压低于潜像的非图像部分的表面电位,高于图像部分的电位 潜像,与充电相同。 通过这种再充电,在一个实施例中,图像的轮廓部分具有比其他部分更低的电位。 然后,通过使用充电至与充电极性相同的极性的调色剂,通过反转显影可视化具有较低电位的图像的轮廓部分。 或者在另一个实施例中,图像的轮廓部分具有比其他部分更高的电位。 然后,通过使用以与充电极性相反的极性进行充电的调色剂,通过正常显影,可视化具有高电位的图像的轮廓部分。
    • 6. 发明授权
    • Contrast of electrostatic latent images with a light flooding step
    • 静电潜像与光淹步骤对比
    • US3963488A
    • 1976-06-15
    • US502627
    • 1974-09-03
    • Anatoli Brushenko
    • Anatoli Brushenko
    • G03G13/045G03G13/14
    • G03G13/045
    • A method for enhancing the contrast of a latent electrostatic image on a dielectric surface is disclosed which includes positioning a photoconductive electrode adjacent the dielectric surface; and applying an electrical potential between the photoconductive member and the dielectric surface, while irradiating selected portions of the photoconductive electrode, to cause electrical charge formation on selected portions of the dielectric surface corresponding to the selected photoconductive electrode portions. Thereafter, the applied electrical potential is reduced to essentially zero. In accordance with this invention, during such reduction to essentially zero potential, the entire surface of the photoconductive member is briefly flooded with light to obtain an improvement of the intensity and contrast of the latent electrostatic image formed on the dielectric surface.
    • 公开了一种用于增强电介质表面上的静电潜像对比度的方法,其包括将电导电极定位在电介质表面附近; 以及在光电导体和电介质表面之间施加电位,同时照射光导电极的选定部分,以在对应于所选择的光导电极部分的电介质表面的选定部分上形成电荷。 此后,所施加的电势减小到基本为零。 根据本发明,在这种还原到基本上为零的电位期间,光导体的整个表面被光暂时淹没,以获得形成在电介质表面上的静电潜像的强度和对比度的改善。
    • 10. 发明授权
    • Image forming apparatus
    • 图像形成装置
    • US08532518B2
    • 2013-09-10
    • US13191707
    • 2011-07-27
    • Yuusuke Torimaru
    • Yuusuke Torimaru
    • G03G15/047G03G15/00G03G13/045
    • G03G15/161G03G15/0131G03G15/5054G03G15/5058G03G2215/0164
    • An image forming apparatus includes an image bearing member; an image forming portion for forming a toner image on the image bearing member, the image forming portion being capable of forming an image to be formed on a recording material and forming a control image for controlling an image density at a position adjacent to the image to be formed on the recording material; an intermediary transfer member rotatable while carrying the toner image transferred from the image bearing member; a transfer member for forming a transfer portion where the toner image is to be transferred from the intermediary transfer member onto the recording material; an electrostatic cleaning member for electrostatically removing the toner deposited on the transfer member; a density detecting portion, provided upstream of the transfer member with respect to a rotational direction of the intermediary transfer member, for detecting a density of the control image transferred on the intermediary transfer member; an adjusting portion for adjusting an image forming condition of the image forming portion depending on an output of the density detecting portion; and a charge amount changing portion for adjusting a charge amount of the control image transferred onto the intermediary transfer member.
    • 图像形成装置包括:图像承载部件; 图像形成部分,用于在图像承载部件上形成调色剂图像,图像形成部分能够形成要形成在记录材料上的图像,并且形成用于控制与图像相邻的位置处的图像浓度的控制图像 形成在记录材料上; 中间转印构件,可承载从图像承载构件转印的调色剂图像; 用于形成转印部分的转印部件,其中调色剂图像将从中间转印部件转印到记录材料上; 用于静电去除沉积在转印部件上的调色剂的静电清洁部件; 密度检测部分,设置在所述转印构件的相对于中间转印构件的旋转方向的上游,用于检测在中间转印构件上转印的控制图像的浓度; 调节部分,用于根据浓度检测部分的输出调节图像形成部分的图像形成条件; 以及充电量改变部分,用于调节转印到中间转印部件上的控制图像的电荷量。