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    • 5. 发明授权
    • Thin film developing device
    • 薄膜显影装置
    • US4788570A
    • 1988-11-29
    • US851503
    • 1986-04-14
    • Yoshihiro OgataFuchio TakedaAkito YoshimaruShuichi EndohToshio KanekoToshihiko Takaya
    • Yoshihiro OgataFuchio TakedaAkito YoshimaruShuichi EndohToshio KanekoToshihiko Takaya
    • G03G15/09G03G15/08
    • G03G15/09
    • A developing device includes a developing sleeve driven to rotate for transporting a film of charged developer as carried thereon past a developing station where the film of developer is applied to an electrostatic latent image to have it developed. Also provided is a sponge roller pressed against and driven to rotate in the same rotating direction as that of the developing sleeve, so that the developer is supplied to the developing sleeve at one side of the contact between the developing sleeve and the sponge roller and any residual developer on the developing sleeve is removed at the other side of the contact. Preferably, a desired voltage difference is established between the developing sleeve and the sponge roller. Furthermore, the sponge roller is preferably so structured to have a sufficient conductivity level at least at its outer peripheral surface thereby allowing the residual charge on the developing sleeve to be discharged sufficiently.
    • 显影装置包括被驱动旋转的显影套筒,用于将带电显影剂的薄膜运送通过显影工位,其中将显影剂膜施加到静电潜像以使其显影。 还提供了一个海绵辊,其被压靠并驱动以与显影套筒相同的旋转方向旋转,使得显影剂在显影套筒和海绵辊之间的接触的一侧被供应到显影套筒,并且任何 显影套筒上的残留显影剂在触点的另一侧被去除。 优选地,在显影套筒和海绵辊之间建立期望的电压差。 此外,海绵辊的结构优选至少在其外周表面具有足够的导电率,从而允许显影套筒上的剩余电荷充分放电。
    • 8. 发明授权
    • Sheet processing device, image forming apparatus, and sheet processing method
    • 片材处理装置,成像装置和片材处理方法
    • US08011282B2
    • 2011-09-06
    • US12007309
    • 2008-01-09
    • Akito Yoshimaru
    • Akito Yoshimaru
    • B26F1/02
    • B26D7/1854B26D7/1863B26D2007/0018B26F1/02G03G15/6582G03G2215/00818Y10T83/207Y10T83/2074Y10T83/222Y10T83/943
    • A sheet processing device having punch processing device(s) for punch-processing on a conveyed sheet member and a punch-scrap storage box for storing punch scraps therein that are produced by the punch processing and dropped from the punch-processing device(s) having an increased storing capacity of punch scraps, including a punch-scrap storage box constituting an air distribution duct having a punch-scrap suction inlet and an air discharge outlet; and air-sucking device(s) (fan) arranged on the most downstream side in the air discharge outlet of the air flowing direction for conveying the punch scraps produced by the punch processing device(s). Air is sucked by the fan so as to catch the punch scraps with punch-scrap separating device(s) arranged on the upstream side of the air flowing direction of the fan so that the punch scraps are heaped within the punch scrap storage box.
    • 一种片材处理装置,其具有用于在被输送的片材构件上进行冲压加工的冲压加工装置和用于在其中存储冲压零件的冲头废料收纳箱,该冲头废料通过冲头加工而产生,并从冲头加工装置落下, 具有增加的冲压废料的储存能力,包括构成具有冲孔吸入口和排气出口的空气分配管道的冲压废料储存箱; 以及设置在空气流动方向的排气口的最下游侧的空气吸入装置(风扇),用于输送由冲头加工装置产生的冲孔废料。 空气被风扇吸入,以便在风扇的空气流动方向的上游侧设置有冲压废料分离装置来抓住冲头废料,使得冲头废料堆积在冲头废料收纳箱内。
    • 9. 发明申请
    • OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS INCLUDING SAME
    • 光学扫描装置和图像形成装置,包括它们
    • US20090225146A1
    • 2009-09-10
    • US12389936
    • 2009-02-20
    • AKITO YOSHIMARU
    • AKITO YOSHIMARU
    • B41J2/385
    • B41J2/473
    • A multi-beam scanning device for focusing deflected light beams onto an object to be scanned includes a light source unit, a deflector, a pitch adjustment device, and a conical-shape compression-torsion coil spring. The light source unit is rotatable about an optical axis and includes a plurality of light sources to emit the light beams and a plurality of coupling lenses disposed corresponding to the light sources. The deflector deflects the light beams emitted from the plurality of the light sources and passed through the plurality of the coupling lenses. The pitch adjustment device moves the light source unit in a first direction around the optical axis to adjust a beam pitch. The conical-shape compression-torsion coil spring urges the light source unit in a second direction opposite the first direction around the optical axis as well as in the optical axis direction. An image forming apparatus includes the multi-beam scanning device.
    • 用于将偏转的光束聚焦到待扫描的物体上的多光束扫描装置包括光源单元,偏转器,俯仰调节装置和锥形压缩扭转螺旋弹簧。 光源单元可围绕光轴旋转并且包括发射光束的多个光源和对应于光源设置的多个耦合透镜。 偏转器使从多个光源发射的光束偏转并穿过多个耦合透镜。 俯仰调节装置使光源单元围绕光轴沿第一方向移动,以调整光束间距。 锥形压缩扭转螺旋弹簧沿着与光轴方向相反的第一方向和光轴方向的第二方向推压光源单元。 图像形成装置包括多光束扫描装置。
    • 10. 发明授权
    • Optical scanning apparatus
    • 光学扫描装置
    • US06288818B1
    • 2001-09-11
    • US09466790
    • 1999-12-20
    • Akito Yoshimaru
    • Akito Yoshimaru
    • G02B2608
    • G02B26/123
    • An optical scanning apparatus includes a plurality of light sources which emit first and second beams. First and second coupling lens units respectively couple the first and second beams emitted by the plurality of light sources. A rotary deflector which has pairs of mutually-opposite reflection surfaces and deflects the first beam in a first direction by one of the reflection surfaces and deflects the second beam in a second direction opposite to the first direction, by another of the reflection surfaces. First and second imaging units scan an image surface of a photoconductive medium along a first half of a main scanning line by focusing and deflecting the deflected first beam onto the image surface, and scan the image surface along a second half of the main scanning line by focusing and deflecting the deflected second beam onto the image surface, such that the first and second halves form a substantially straight scanning line on the image surface when the rotary deflector is rotated.
    • 光学扫描装置包括发射第一和第二光束的多个光源。 第一和第二耦合透镜单元分别耦合由多个光源发射的第一和第二光束。 旋转偏转器,其具有成对的相互反射的反射表面,并且通过一个反射表面在第一方向上偏转第一光束,并且通过另一个反射表面沿与第一方向相反的第二方向偏转第二光束。 第一和第二成像单元通过将偏转的第一光束聚焦并偏转到图像表面上,沿着主扫描线的第一半扫描光导介质的图像表面,并且沿着主扫描线的第二半部扫描图像表面 将偏转的第二光束聚焦并偏转到图像表面上,使得当旋转偏转器旋转时,第一和第二半部在图像表面上形成基本上直的扫描线。