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    • 31. 发明授权
    • Line head and an image forming apparatus using such a line head
    • 线头和使用这种线头的图像形成装置
    • US07733364B2
    • 2010-06-08
    • US11832525
    • 2007-08-01
    • Yujiro NomuraNozomu InoueRyuta KoizumiKen Ikuma
    • Yujiro NomuraNozomu InoueRyuta KoizumiKen Ikuma
    • B41J15/14B41J27/00
    • B41J2/45
    • A line head, includes: a substrate which is provided with a plurality of luminous element groups which respectively include a plurality of luminous elements in a first direction which emit light beams; a lens array which includes a plurality of imaging lenses which are provided corresponding to the plurality of luminous element groups; and a light shielding member which is disposed between the substrate and the lens array and includes a plurality of light guiding holes which correspond to the plurality of luminous element groups, wherein the lens array is away from the light shielding member, an inner diameter of each of the plurality of light guiding holes in the first direction is a first light guiding hole diameter, and a bore diameter of each of the plurality of imaging lenses in the first direction is a first lens diameter, and the first light guiding hole diameter is smaller than the first lens diameter.
    • 行头包括:基板,其设置有分别包括发射光束的第一方向上的多个发光元件的多个发光元件组; 透镜阵列,其包括对应于所述多个发光元件组而设置的多个成像透镜; 以及遮光构件,其设置在所述基板和所述透镜阵列之间,并且包括与所述多个发光元件组对应的多个导光孔,其中所述透镜阵列远离所述遮光构件,每个所述透镜阵列的内径 在第一方向上的多个导光孔的长度为第一导光孔直径,第一方向上的多个摄像透镜的孔径为第一透镜直径,第一导光孔直径较小 比第一透镜直径。
    • 32. 发明授权
    • Light scanning apparatus, method of controlling the same and image forming apparatus equipped with the same
    • 光扫描装置及其控制方法以及配备有该装置的成像装置
    • US07719739B2
    • 2010-05-18
    • US12167097
    • 2008-07-02
    • Akihiro GomiYujiro NomuraKen Ikuma
    • Akihiro GomiYujiro NomuraKen Ikuma
    • G02B26/08
    • G02B26/105G02B27/0031Y10S359/90
    • A light scanning apparatus makes a light beam scan along a main scanning direction on an effective scanning region which has a predetermined width. The apparatus comprises: a light source which emits the light beam; a deflector which includes an oscillation mirror which oscillates about an oscillatory axis which is orthogonal or approximately orthogonal to the main scanning direction, deflects the light beam emitted from the light source using the oscillation mirror, and makes the light beam scan a second scanning range which contains but extends beyond a first scanning range which corresponds to the effective scanning region; a detector which detects the scanning light beam which moves through a position which is outside the first scanning range but is within the second scanning range, and outputs a signal; and a controller which controls a mirror drive signal fed to the oscillation mirror based on the output signal from the detector and accordingly adjusts the amplitude of the oscillation mirror. In the apparatus above, the controller stops driving the oscillation mirror when confirming based on the output signal that the oscillation mirror is under abnormal control.
    • 光扫描装置在具有预定宽度的有效扫描区域沿着主扫描方向进行光束扫描。 该装置包括:发射光束的光源; 包括围绕与主扫描方向正交或大致正交的振荡轴振荡的振荡镜的偏转器,使用振荡镜偏转从光源发射的光束,并使光束扫描第二扫描范围,该扫描范围 包含但延伸超过对应于有效扫描区域的第一扫描范围; 检测器,其检测移动通过处于第一扫描范围之外但处于第二扫描范围内的位置的扫描光束,并输出信号; 以及控制器,其基于来自检测器的输出信号来控制馈送到振荡镜的反射镜驱动信号,并且因此调整振荡镜的振幅。 在上述装置中,当基于振荡镜处于异常控制的输出信号进行确认时,控制器停止驱动振荡镜。
    • 33. 发明授权
    • Image forming apparatus with exposure units using oscillation mirrors and method for controlling drive frequencies of the oscillation mirrors
    • 具有使用振荡镜的曝光单元的图像形成装置以及用于控制振荡镜的驱动频率的方法
    • US07639274B2
    • 2009-12-29
    • US11104289
    • 2005-04-12
    • Yujiro NomuraKen Ikuma
    • Yujiro NomuraKen Ikuma
    • B41J15/14B41J27/00
    • G02B26/105
    • In an image forming apparatus including plural exposure units each deflecting a light beam from a light source by means of an oscillation mirror in resonant oscillations and scanning the deflected light beam on a latent image carrier thereby forming a latent image on the latent image carrier, every one of the exposure units assuredly attains an adequate amplitude of the oscillation mirror for ensuring the formation of images of high quality. More specifically, a CPU 101 retrieves resonant frequencies of individual deflectors previously stored in a memory. The CPU 101 calculates an average value of these resonant frequencies and applies a drive command to mirror drivers 1022 of the exposure units 6Y, 6M, 6C, 6K such as to drive all the deflectors into oscillations at the average value. Alternatively, a resonant-frequency adjusting section 653 makes adjustment to match the resonant frequencies of the individual deflectors substantially with a drive frequency. This ensures that all the oscillation mirrors attain adequate amplitudes.
    • 在包括多个曝光单元的图像形成装置中,每个曝光单元各自通过谐振振荡中的振荡镜偏转来自光源的光束,并且将偏转的光束扫描在潜像载体上,从而在潜像载体上形成潜像, 其中一个曝光单元确实获得了足够的振荡镜幅度,以确保形成高质量的图像。 更具体地,CPU 101检索预先存储在存储器中的各个偏转器的谐振频率。 CPU 101计算这些谐振频率的平均值,并将驱动命令施加到曝光单元6Y,6M,6C,6K的镜像驱动器1022,以将平均值驱动所有偏转器进入振荡。 或者,谐振频率调整部653进行调整,使各个偏转器的谐振频率与驱动频率基本一致。 这确保了所有的振荡镜都能获得足够的振幅。
    • 36. 发明授权
    • Image forming apparatus and correction method for color registration offset
    • 用于彩色配准偏移的图像形成装置和校正方法
    • US07327977B2
    • 2008-02-05
    • US11285507
    • 2005-11-22
    • Koji KitazawaYujiro NomuraKen IkumaKunihiro Kawada
    • Koji KitazawaYujiro NomuraKen IkumaKunihiro Kawada
    • G03G15/01
    • G03G15/0131G03G15/0194G03G2215/0132G03G2215/0161G03G2215/1623
    • Prior to the formation of registration pattern images (Step S7), base information is acquired by means of a test pattern sensor detecting a surface of an intermediate transfer belt or particularly a surface of a pattern formation region thereof. A surface condition of the pattern formation region is acquired based on the base information thus acquired, while the formation of the registration pattern images is controlled based on the surface condition. In this manner, the registration pattern images are formed with an adequate consideration given to the surface condition of the pattern formation region where the registration pattern images are to be formed (Step S7). Hence, the positions of the registration pattern images may be detected with high accuracies. As a result, a proper correction of color registration offset may be accomplished, assuredly preventing the occurrence of the color registration offset or degraded color tone.
    • 在形成注册图案图像之前(步骤S7),通过检测中间转印带的表面或特别是其图案形成区域的表面的测试图案传感器来获取基本信息。 基于所获得的基本信息,获取图案形成区域的表面状态,同时基于表面条件来控制对准图案图像的形成。 以这种方式,在对要形成配准图案图像的图案形成区域的表面状态进行充分考虑的情况下形成对准图案图像(步骤S7)。 因此,可以高精度地检测配准图案图像的位置。 结果,可以实现颜色对准偏移的适当校正,可靠地防止颜色对准偏移或劣化色调的发生。
    • 37. 发明授权
    • Optical scanning apparatus and image forming apparatus
    • 光学扫描装置和图像形成装置
    • US07177060B2
    • 2007-02-13
    • US11014519
    • 2004-12-15
    • Yujiro NomuraKen Ikuma
    • Yujiro NomuraKen Ikuma
    • G02B26/08
    • G02B26/0816G02B26/105G06K15/1219
    • The size Hbs of a beam spot of an incident light beam on a deflection mirror surface 651 is larger than the width Hb of the deflection mirror surface 651 when a pivot angle θ is zero, and therefore, Hbs>Hb is satisfied at any pivot angle θ and the deflection mirror surface 651 is overfilled with the incident light beam. Hence, even when beam rotation occurs, only a central portion of the incident light beam is reflected by the deflection mirror surface 651 and guided as a scanning light beam to a scanning lens. Owing to this, the central axis CLs of the outgoing light beam (scanning light beam) Ls from a deflector becomes close to the central axis CLs as it is when the pivot angle θ is zero.
    • 当偏转镜面651上的入射光束的光束点的大小Hbs比摆动角度θ为零时偏转镜面651的宽度Hb大,因此在任意的转角处满足Hbs> Hb θ和偏转镜表面651用入射光束过满。 因此,即使当光束旋转发生时,仅入射光束的中心部分被偏转镜面651反射,并作为扫描光束被引导到扫描透镜。 由此,来自偏转器的出射光束(扫描光束)Ls的中心轴线CL随着枢转角度θ为零而变得接近中心轴线CLs。
    • 39. 发明授权
    • Optical scanning apparatus and image forming apparatus
    • 光学扫描装置和图像形成装置
    • US07123396B2
    • 2006-10-17
    • US11050661
    • 2005-02-03
    • Yujiro NomuraKen Ikuma
    • Yujiro NomuraKen Ikuma
    • G02B26/08
    • H04N1/1135G02B26/0833G02B26/105H04N1/12H04N2201/0082
    • A first distance is longer than a second distance. This sets a movable plate 653 apart from the horizontal side portions (first adjacent portions) 652a in the direction Y of a pivot axis, which reduces air resistance against the movable plate 653 and hence the amount of heat generation. A light beam from a first optical system impinges upon a deflection mirror surface 651 from the front side of the deflection mirror surface 651 and along the direction Y of the pivot axis at an acute angle with respect to the surface normal to the deflection mirror surface 651. Hence, the light beam L travels in the space other than the space surrounding the deflection mirror surface 651, namely, the space in the vicinity of a central section of the deflection mirror surface. This realizes scanning with the light beam without thermal influence.
    • 第一距离长于第二距离。 这使得可枢转轴线方向Y上的水平侧部分(第一相邻部分)652a分开的可移动板653减小了对可移动板653的空气阻力并因此降低了发热量。 来自第一光学系统的光束从偏转镜表面651的前侧撞击偏转镜表面651,并且相对于垂直于偏转镜表面651的表面以旋转轴线的方向Y照射锐角 。 因此,光束L在偏转镜面651周围的空间以外的空间,即偏转镜面的中央部附近的空间中行进。 这实现了光束的扫描而没有热影响。
    • 40. 发明申请
    • Scanner having scan angle multiplier
    • 扫描仪具有扫描角倍增器
    • US20050057790A1
    • 2005-03-17
    • US10913943
    • 2004-08-06
    • Yujiro NomuraKen Ikuma
    • Yujiro NomuraKen Ikuma
    • G02B26/10G02B26/08
    • G02B26/10
    • A transmission optical system comprises a concave surface mirror whose reflection surface is directed toward a deflection mirror surface and a transmission lens which is disposed between the concave surface mirror and the deflection mirror surface. A light beam deflected by a deflecting element at a first deflection angle is guided to the concave surface mirror via the transmission lens, and the light beam returned by the concave surface mirror is guided to the deflecting element via the transmission lens. In consequence, the deflecting element reflects the light beam twice, and the light beam is emitted toward a scanning lens at a second deflection angle which is larger than the first deflection angle.
    • 透射光学系统包括反射面朝向偏转镜面的凹面镜,以及设置在凹面镜与偏转镜面之间的透镜。 由偏转元件以第一偏转角偏转的光束经由透镜透镜被引导到凹面镜,并且由凹面镜返回的光束经由透镜透镜被引导到偏转元件。 因此,偏转元件将光束反射两次,并且以比第一偏转角大的第二偏转角向扫描透镜发射光束。