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    • 4. 发明授权
    • Motionless scanner
    • US5132627A
    • 1992-07-21
    • US636045
    • 1990-12-28
    • Zoran D. PopovicDamodar M. PaiMerlin E. ScharfeSatchidanand MishraEdward A. Domm
    • Zoran D. PopovicDamodar M. PaiMerlin E. ScharfeSatchidanand MishraEdward A. Domm
    • G01R29/00G01R29/12G03G5/00G03G15/00G03G21/00
    • G03G15/75
    • A process is disclosed for ascertaining electrical discharge properties of an electrophotographic imaging member including the steps of (a) providing at least one electrophotographic imaging member comprising an electrically conductive layer and at least one photoconductive layer, (b) contacting the surface of the electrophotographic imaging member with a substantially transparent electrode and applying an electric potential or an electric current to form an electric field across the photoconductive layer, (c) terminating the applying of the electric potential or the electric current, (d) exposing the photoconductive layer to activating radiation to discharge the electrophotographic imaging member, (e) repeating steps (b), (c) and (d), and (f) measuring the potential across the photoconductive layer during steps (b), (c) and (d) as a function of time by means of an electrostatic meter coupled to the electrode. Also, disclosed is apparatus for ascertaining electrical discharge properties of an electrophotographic imaging member including (a) means to support an electrophotographic imaging member comprising an electrically conductive layer and at least one photoconductive layer, (b) means for applying an electric potential or electric current to a substantially transparent electrode on the electrophotographic imaging member to form an electric field across the photoconductive layer, (c) means for terminating the applying of the electric potential or the electric current, (d) an electrostatic voltmeter probe coupled to the means for applying an electric current to the electrode, (e) means for exposing the photoconductive layer through the substantially transparent electrode to activating radiation to discharge the electrophotographic imaging member to a predetermined level, and (f) means for exposing the photoconductive layer to activating radiation to fully discharge the electrophotographic imaging member.
    • 7. 发明授权
    • Continuous flexible belt loading device
    • 连续柔性带装载装置
    • US06970669B2
    • 2005-11-29
    • US10719397
    • 2003-11-21
    • Satchidanand MishraSatish R. ParikhRobert C. U. YuEdward A. Domm
    • Satchidanand MishraSatish R. ParikhRobert C. U. YuEdward A. Domm
    • G03G21/00G03G15/00G03G21/16G03G15/02
    • G03G15/75G03G15/754G03G21/1647G03G2215/00987G03G2215/1614
    • A belt loading apparatus has been provided for loading a flimsy continuous belt onto a belt support and drive assembly including a vertical front end having a first shape and without damage to the belt. The belt loading apparatus includes a wall member defining a sleeve including an outer surface having a total outer surface area, a first edge and a second and opposite edge. The second edge has a vertical profile having a second shape such that the second shape of the second edge is a mirror image of the first shape of the belt support and drive assembly. The belt loading apparatus then includes friction reducing members formed on the outer surface of the sleeve for temporarily supporting and spacing a flimsy continuous belt to be loaded onto the belt support and drive assembly. The friction reducing members each have a belt contact area such that a sum total of belt contact areas of all the friction reducing members is significantly less than the total outer surface area of the sleeve.
    • 已经提供了一种带子装载装置,用于将脆弱的连续带装载到带支撑件和驱动组件上,该组件包括具有第一形状并且不损坏皮带的垂直前端。 带装载装置包括限定套筒的壁构件,所述套筒包括具有总外表面积的外表面,第一边缘和第二和相对边缘。 第二边缘具有第二形状的垂直轮廓,使得第二边缘的第二形状是皮带支撑和驱动组件的第一形状的镜像。 然后,皮带装载装置包括形成在套筒的外表面上的摩擦减小构件,用于临时支撑和间隔要装载到皮带支撑件和驱动组件上的脆弱的连续皮带。 摩擦减小构件各自具有带接触面积,使得所有摩擦减小构件的皮带接触面积的总和明显小于套筒的总外表面积。
    • 8. 发明授权
    • Ascertaining imaging cycle life of a photoreceptor
    • 确定感光体的成像周期寿命
    • US5175503A
    • 1992-12-29
    • US636034
    • 1990-12-28
    • Satchidanand MishraEdward A. Domm
    • Satchidanand MishraEdward A. Domm
    • G01M11/00G01N27/60G03G5/00G03G15/00G03G21/00
    • G03G15/75
    • A process for ascertaining the projected imaging cycle life of an electrophotographic imaging member including the steps of(a) providing at least one electrophotographic imaging member having a cycling life of a known number of imaging cycles, the imaging member comprising an electrically conductive layer and at least one photoconductive layer,(b) repeatedly subjecting the electrophotographic imaging member to cycles comprising electrostatic charging and light discharging steps,(c) measuring dark decay of the photoconductive layer during cycling until the amount of dark decay reaches a crest value,(d) establishing with the crest value a reference datum for dark decay crest value versus imaging cycles,(e) repeatedly subjecting a virgin electrophotographic imaging member to aforesaid cycles comprising electrostatic charging and light discharging steps until the amount of dark decay reaches a crest value which remains substantially constant during further cycling, and(f) comparing the dark decay crest value of the virgin electrophotographic imaging member with the reference datum to ascertain the projected cycling life of the virgin electrophotographic imaging member.
    • 一种用于确定电子照相成像构件的投影成像周期寿命的方法,包括以下步骤:(a)提供具有已知数量的成像周期的循环寿命的至少一个电子照相成像构件,所述成像构件包括导电层和 (b)重复地对电子照相成像构件进行包括静电充电和放电步骤的循环,(c)在循环期间测量光电导层的暗衰减,直到暗衰变量达到峰值,(d) 以峰值计算出暗衰变峰值与成像周期的参考基准,(e)对原始电子照相成像构件重复进行上述包括静电充电和放电步骤的循环,直到暗衰变量达到基本保持的峰值 在进一步骑自行车期间恒定,(f)比较t 他具有参考基准的原始电子照相成像构件的暗衰变峰值,以确定原始电子照相成像构件的预计循环寿命。