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    • 12. 发明授权
    • Light scanner and image formation apparatus therewith
    • 光扫描器及图像形成装置
    • US06842274B2
    • 2005-01-11
    • US10288447
    • 2002-11-06
    • Kazuhiro AkatsuTakeshi Mochizuki
    • Kazuhiro AkatsuTakeshi Mochizuki
    • B41J2/44B41J2/47G02B26/10G02B26/12H04N1/113G02B26/08
    • B41J2/473G02B26/123
    • A light scanner has a light source 1 of a two-dimensional array consisting of a plurality of light source elements, a coupling lens system 2 for collimating a light flux from the light source 1, a shaping lens system (cylindrical lens 4 and lens 5) for shaping the light flux, light beam deflection means 6 for deflecting and scanning the post-shaped light flux, and a scanning lens system 7 for forming an image of the deflected and scanned light flux on a scanned medium 8. Assuming that the focal length of the coupling lens system 2 is f, a slit 3 for limiting the subscanning direction width as a member for shielding a part of the light flux is placed at a location at a distance of about f from the coupling lens system 2 in an opposite direction to the light source 1.
    • 光扫描器具有由多个光源元件组成的二维阵列的光源1,用于准直来自光源1的光束的耦合透镜系统2,整形透镜系统(柱面透镜4和透镜5 ),用于使光束成形,用于偏转和扫描后形光束的光束偏转装置6,以及用于在扫描介质8上形成偏转和扫描光束的图像的扫描透镜系统7.假设焦点 耦合透镜系统2的长度为f,用于将辅助扫描方向宽度限制为用于屏蔽光束的一部分的部件的狭缝3以相对于耦合透镜系统2的距离耦合透镜系统2的大约f的距离 光源1的方向。
    • 14. 发明授权
    • Optical scanner
    • 光学扫描仪
    • US06473215B1
    • 2002-10-29
    • US09627044
    • 2000-07-27
    • Takeshi MochizukiKazutaka Setoma
    • Takeshi MochizukiKazutaka Setoma
    • G02B2608
    • G02B26/125
    • In an optical scanner, while a plurality of lens elements comprise scanning lens optics, the angle (&thgr;46 of the line dropped normal to the first face of a lens element (42) positioned the closest to the medium to be scanned which is directed to a light deflecting means at the point where the principal ray of a light beam incident at the scan start end crosses the first face is generally equal to the angle (&thgr;46′) of the line dropped normal to the second face of the lens element which is directed to the medium to be scanned at the point where the principal ray crosses said second face, and the angle (&thgr;49) of the line dropped normal to the first face at the point where the principal ray of a light beam incident at the scan finishing end crosses said first face is generally equal to the angle (&thgr;49′) of the line dropped normal to said second face at the point where the principal ray crosses the second face.
    • 在光学扫描仪中,当多个透镜元件包括扫描透镜光学元件时,该线的角度(θ46)垂直于位于最接近被扫描的介质的透镜元件(42)的第一面,其被定向到 入射在扫描开始端的光束的主光线穿过第一面的点处的光偏转装置通常等于垂直于导向的透镜元件的第二面垂直的线的角度(θ46') 到主扫描线穿过所述第二面的点处的要被扫描的介质,并且在入射到扫描结束端的光束的主光线的点处垂直于第一面的线的角度(θ49)下降 所述第一面的横截面通常等于在主光线穿过第二面的点处垂直于所述第二面的线的角度(θ49')。
    • 18. 发明授权
    • Optical printer
    • 光学打印机
    • US4806951A
    • 1989-02-21
    • US153005
    • 1988-02-08
    • Akira ArimotoSusumu SaitoTakeshi Mochizuki
    • Akira ArimotoSusumu SaitoTakeshi Mochizuki
    • B41J2/44G02B26/10G03G15/04G06K15/12H04N1/04H04N1/23G01D9/42G01D15/14
    • G06K15/1261G06K2215/111
    • An optical printer using laser beams, wherein, when a plurality (n) of laser beams are used at once to carry out a scanning operation, the positions of spots of said laser beams in both the primary scanning direction and sub-scanning direction are set so as to have the relation l=(n-1)a+m.multidot.n.multidot.a, wherein m is a positive integer (m.gtoreq.1); a the distance between the adjacent scanning lines in the sub-scanning direction on the printing surface of the optical printer after a printing operation; and l the distance between the adjacent laser beams in the sub-scanning direction on the surface of a photosensitive drum, whereby a high-quality printing effecting no overlapping and omission of images can be obtained even if the distance between the adjacent laser beams is increased during a scanning operation using a plurality of laser beams at once.
    • 一种使用激光束的光学打印机,其中,当一次使用多个(n)个激光束进行扫描操作时,设定所述激光束在主扫描方向和副扫描方向上的位置 以便具有关系l =(n-1)a + mxnxa,其中m是正整数(m> / = 1); 在打印操作之后在所述光学打印机的打印表面上的副扫描方向上的相邻扫描线之间的距离; 以及l在感光鼓的表面上的副扫描方向上的相邻激光束之间的距离,由此即使相邻激光束之间的距离增加,也可以获得不影响重叠和省略的高质量打印 在使用多个激光束的扫描操作期间。
    • 19. 发明授权
    • Automatic spraying method
    • 自动喷涂法
    • US4714635A
    • 1987-12-22
    • US900626
    • 1986-08-26
    • Takeshi MochizukiKatsumasa IwasawaIkuya ShiraishiKazuki Terafuji
    • Takeshi MochizukiKatsumasa IwasawaIkuya ShiraishiKazuki Terafuji
    • B05D1/02B05B12/12B05D3/00
    • B05B12/124
    • An automatic spraying method wherein the amount of displacement of a valve member is calculated from data representing a particular spray distance by means of a microcomputer, and the valve member is activated on the basis of the displacement amount thus obtained. A curve which represents the relationship between the valve member displacement and the amount of a fluid which is to be jetted out is experimentally obtained in advance, and this curve is approximated by a plurality of straight lines or parabolas. The slopes or average slopes of these lines or curves are obtained, and the ratio between the respective slopes of the sections which are adjacent to each other is calculated. Trial spraying is carried out at two different spray distances within a range of valve member displacement amounts so as to provide a desired coating, and the relationship between the spray distance and the valve member displacement amount which provides similar coatings is obtained at two points. An equation in the section is determined by the microcomputer on the basis of data concerning the two points and data which determines whether the section is a straight line or a parabola. An equation in an adjacent section is determined from the equation already obtained and the slope ratio, and these equations are stored in a memory, whereby the valve member displacement for input data representing a particular spray distance can be calculated on the basis of the stored equations.
    • 一种自动喷射方法,其中通过微型计算机从表示特定喷射距离的数据计算阀构件的位移量,并且基于由此获得的位移量来启动阀构件。 表示阀构件位移与要喷射的流体的量之间的关系的曲线是预先获得的,该曲线由多条直线或抛物面近似。 获得这些线或曲线的斜率或平均斜率,并且计算彼此相邻的部分的相应斜率之间的比率。 在阀构件位移量的范围内以两种不同的喷射距离进行试喷,以提供所需的涂层,并且在两点获得喷射距离和提供类似涂层的阀构件位移量之间的关系。 该部分中的等式由微计算机基于关于两点的数据和确定该部分是直线还是抛物线的数据来确定。 根据已经获得的方程和斜率确定相邻截面中的方程,并将这些方程存储在存储器中,由此可以基于所存储的等式计算表示特定喷射距离的输入数据的阀构件位移 。