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    • 3. 发明授权
    • Optical scanning device, line-image forming optical system therein, imaging adjustment method in the device and image forming apparatus
    • 光扫描装置,其中的线图像形成光学系统,装置中的成像调整方法和图像形成装置
    • US06509995B1
    • 2003-01-21
    • US09653330
    • 2000-08-31
    • Seizo SuzukiMagane AokiHiromichi AtsuumiKohji Sakai
    • Seizo SuzukiMagane AokiHiromichi AtsuumiKohji Sakai
    • G02B2608
    • G02B26/128
    • A light source emitting a light flux; a coupling optical system couples the light flux from the light source to a subsequent optical system by transforming it into a parallel light flux, an approximately convergent light flux or an approximately divergent light flux; a light deflector reflects the light flux from the coupling optical system with a deflection reflective surface, and deflects it; a scanning and imaging optical system condenses the deflected light flux from the light deflector onto a surface to be scanned as a beam spot; and a correcting optical system is provided for self correcting shift of focal position of the beam spot on the surface to be scanned occurring due to environmental change or the like. The correcting optical system comprises at least one pair of a resin-made lens having an anamorphic surface having a negative power in each of main scanning direction and sub-scanning direction and a glass-made lens having an anamorphic surface having a positive power at least in sub-scanning direction, and is disposed between the coupling optical system and deflection reflective surface.
    • 发射光束的光源; 耦合光学系统将来自光源的光束通过将其变换成平行光束,近似收敛的光束或大致发散的光束而将光束耦合到后续的光学系统; 光偏转器用耦合光学系统反射具有偏转反射表面的光束,并使其偏转; 扫描和成像光学系统将来自光偏转器的偏转光束会聚到待扫描的表面上作为光斑; 并且提供了一种校正光学系统,用于自动校正由于环境变化等而发生的待扫描表面上的束斑的焦点位置偏移。 校正光学系统包括至少一对树脂制透镜,其具有在主扫描方向和副扫描方向各自具有负功率的变形表面,并且玻璃制镜片具有至少具有正功率的变形表面 并且设置在耦合光学系统和偏转反射表面之间。
    • 7. 发明申请
    • Optical scanning device having a temperature compensation unit
    • 具有温度补偿单元的光学扫描装置
    • US20050018265A1
    • 2005-01-27
    • US10912231
    • 2004-08-06
    • Hiromichi AtsuumiSeizo SuzukiSatoru Itoh
    • Hiromichi AtsuumiSeizo SuzukiSatoru Itoh
    • G02B26/12G02B26/08
    • G02B26/128Y10S359/90
    • In an optical scanning device and image forming apparatus according to the present invention, a light source emits a light beam, and a scanning optical unit deflects the light beam from the light source and focuses the deflected light beam to form a light spot on a scanned surface, the scanned surface being scanned by the light beam from the scanning optical unit. A temperature detection unit detects a temperature of the scanning optical unit and its neighboring locations. A temperature compensation unit adjusts a focal-point position of the light beam on the scanned surface in accordance with a change in the temperature detected by the temperature detection unit, the temperature compensation unit adjusting the focal-point position of the light beam by directly varying a focusing effect of a corrector lens on the light beam from the light source by a controlled amount of movement of the corrector lens along its optical axis that corresponds to the temperature change.
    • 在根据本发明的光学扫描装置和图像形成装置中,光源发射光束,扫描光学单元使来自光源的光束偏转并聚焦偏转的光束,以在扫描的光束上形成光点 表面,被扫描的表面被来自扫描光学单元的光束扫描。 温度检测单元检测扫描光学单元及其相邻位置的温度。 温度补偿单元根据由温度检测单元检测到的温度变化来调整扫描面上的光束的焦点位置,温度补偿单元通过直接变化来调整光束的焦点位置 通过对应于温度变化的校正透镜沿着其光轴的受控量的运动,校正透镜对来自光源的光束的聚焦效果。
    • 9. 发明授权
    • Scanning and imaging lens, optical scanning device and image forming apparatus
    • 扫描和成像透镜,光学扫描装置和成像装置
    • US06448998B1
    • 2002-09-10
    • US09649179
    • 2000-08-29
    • Seizo SuzukiMagane AokiHiromichi AtsuumiKohji Sakai
    • Seizo SuzukiMagane AokiHiromichi AtsuumiKohji Sakai
    • B41J2700
    • B41J2/442G02B13/0005G02B26/125
    • A scanning and imaging lens condensing a light flux deflected by a deflector onto a surface to be scanned as a beam spot, has a plurality of lenses. A shape in main scanning cross section of each of both surfaces of a lens on a side of deflector has a convex shape, and a shape in main scanning cross section of at least one surface of the lens on the side of deflector is a non-arc shape. A shape in main scanning cross section of a first surface of a lens on a side of surface to be scanned has a convex shape, and a shape in main scanning cross section of at least one surface of the lens on the side of surface to be scanned is a non-arc shape. The scanning and imaging lens has at least two special toroidal surfaces in each of which a curvature in sub-scanning cross section varies in main scanning direction.
    • 将由偏转器偏转的光束会聚到待扫描的表面上作为束斑的扫描和成像透镜具有多个透镜。 在偏转器一侧的透镜的两个表面的主扫描横截面中的形状具有凸形形状,并且在偏转器一侧的透镜的至少一个表面的主扫描横截面中的形状是非平面形状, 弧形。 在待扫描表面侧的透镜的第一表面的主扫描横截面中的形状具有凸形形状,并且在表面侧的透镜的至少一个表面的主扫描横截面中的形状为 扫描是非弧形的。 扫描和成像透镜具有至少两个特殊的环形表面,每个特殊的环形表面在副扫描横截面中的曲率在主扫描方向上变化。
    • 10. 发明授权
    • Multi-beam optical scanning apparatus and image forming apparatus
    • 多光束光学扫描装置和成像装置
    • US07006120B2
    • 2006-02-28
    • US10635520
    • 2003-08-07
    • Kohji SakaiMagane AokiYoshinori HayashiSeizo SuzukiHiromichi Atsuumi
    • Kohji SakaiMagane AokiYoshinori HayashiSeizo SuzukiHiromichi Atsuumi
    • B41J27/00
    • B41J2/473
    • A multi-beam optical scanning apparatus includes a semiconductor laser array slanted relative to a sub-scanning direction and emitting a plurality of optical beams; a coupling lens converting a shape of each optical beam emitted from the semiconductor laser array; and an aperture with an opening having a size of Am×As, arranged after the coupling lens in a direction in which the optical beam progresses, where Am is a dimension of the opening in a main scanning direction and As is a dimension of the opening in the sub-scanning direction. When a length in the main scanning direction of a contour line defined by 1/e2 strength of a maximum strength of an optical beam at the position of the aperture is Lm, and a length in the sub-scanning direction of the contour line defined by 1/e2 strength of the maximum strength of the optical beam at the position of the aperture is Ls, the following conditional expressions are satisfied: Am
    • 多光束光学扫描装置包括相对于副扫描方向倾斜并发射多个光束的半导体激光器阵列; 转换从半导体激光器阵列发射的每个光束的形状的耦合透镜; 以及具有尺寸为A mA x A s s的开口的孔,沿着光束进行的方向设置在耦合透镜之后,其中A m 是主扫描方向上的开口的尺寸,A S是子扫描方向上的开口的尺寸。 当在孔径的位置处的光束的最大强度的1 / e 2强度确定的轮廓线的主扫描方向上的长度为L / 并且在孔径的位置处的光束的最大强度的强度的1 / e 2强度限定的轮廓线的副扫描方向上的长度为L / SUB>,满足以下条件表达式