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    • 2. 发明授权
    • Image processor
    • 图像处理器
    • US06704126B1
    • 2004-03-09
    • US09661501
    • 2000-09-14
    • Eiichi HayashiYuichi Kawanabe
    • Eiichi HayashiYuichi Kawanabe
    • H04N104
    • H04N1/00559H04N1/00525H04N1/1017H04N1/193
    • The present invention discloses an image processor, in which an inverter for driving a fluorescent lamp is disposed in separation into parts at both ends of a carriage mounting the fluorescent lamp thereon in a direction perpendicular to a scanning direction of the carriage, so as to shorten a harness between the fluorescent lamp and the inverter and dispense with a part projecting in the scanning direction of the carriage, thereby achieving miniaturization. Inverters for driving a fluorescent lamp are disposed in appropriate separation at both ends of a full-rate carriage mounting the fluorescent lamp thereon in a scanning direction of the full-rate carriage and does not project in the scanning direction of the full-rate carriage. Thus, it is unnecessary to provide space in a casing for accommodating a projecting inverter in the case at a scanning ending end, thereby allowing miniaturizing the casing.
    • 本发明公开了一种图像处理器,其中用于驱动荧光灯的反相器分离成在与支架的扫描方向垂直的方向上安装荧光灯的托架的两端部分,以缩短 荧光灯与逆变器之间的线束,并且省去沿着滑架的扫描方向突出的部分,从而实现小型化。 用于驱动荧光灯的逆变器在全速率滑架的两端以适合的间隔配置,在全速滑架的扫描方向上安装荧光灯,并且不在全速滑架的扫描方向上突出。 因此,不需要在用于在扫描结束端的情况下容纳投影逆变器的壳体中设置空间,从而允许壳体小型化。
    • 4. 发明授权
    • Carriage driving mechanism in image processor
    • 图像处理器中的支架驱动机构
    • US06879413B1
    • 2005-04-12
    • US09664394
    • 2000-09-19
    • Eiichi HayashiYuichi Kawanabe
    • Eiichi HayashiYuichi Kawanabe
    • H04N1/10H04N1/193H04N1/04
    • H04N1/1026H04N1/1013H04N1/193
    • A carriage driving mechanism to prevent the carriage adapted to travel as a predetermined wire is taken up from floating and remaining in such floating position due to an unexpected force exerted on said carriage under a tensile force. A carriage support extending from transversely opposite ends is provided with contact arms extending upward, respectively, to come in contact with a top plate of a housing to restrict the carriage from further floating off. Legs directly placed on guide tracks of the housing to support the carriages on the guide tracks and are formed with oil sumps filled with suitable lubricant such as grease. At least one of the legs is formed to adjust a height of this one leg to level the carriage.
    • 由于在张力下施加在所述托架上的意外力,用于防止作为预定丝线行进的滑架的滑架驱动机构从浮动中取出并保持在该浮动位置。 从横向相对端延伸的滑架支架分别设置有向上延伸的接触臂,以与壳体的顶板接触,以限制滑架进一步浮起。 腿部直接放置在壳体的引导轨道上以支撑引导轨道上的托架,并且形成有填充有合适润滑剂(例如油脂)的油池。 形成腿部中的至少一个以调节该一个腿部的高度以使托架平整。
    • 8. 发明申请
    • PROCESS FOR PRODUCING MULTILAYER PRINTED WIRING BOARD
    • 生产多层印刷线路板的工艺
    • US20100206471A1
    • 2010-08-19
    • US12721891
    • 2010-03-11
    • Shigeo NakamuraSeiichiro OhashiEiichi HayashiTadahiko Yokota
    • Shigeo NakamuraSeiichiro OhashiEiichi HayashiTadahiko Yokota
    • B32B38/10
    • H05K3/4673B32B37/025B32B38/0004B32B2038/0076B32B2305/076B32B2309/02B32B2309/105B32B2309/12B32B2309/68B32B2311/00B32B2457/08H05K3/4644H05K2203/0228H05K2203/066H05K2203/085Y10T29/49155Y10T156/1052Y10T156/1054
    • A production method of a multi-layer printed wiring board containing the following steps (1)-(5): (1) a temporary fitting preparatory step including conveying an adhesive sheet from an adhesive sheet roll wherein an adhesive sheet having a prepreg formed on a support film is wound in a roll and placing the adhesive sheet such that a prepreg surface contacts one or both of the surfaces of a circuit board, (2) a temporary fitting step for temporarily fitting the adhesive sheet to the circuit board, including partially adhering the adhesive sheet to the circuit board by heating and pressing a part of the adhesive sheet from the support film side, and cutting the adhesive sheet according to the size of the circuit board with a cutter, (3) a laminating step including heating and pressing the temporarily fitted adhesive sheet under reduced pressure to laminate the adhesive sheet on the circuit board, (4) a thermal curing step including forming an insulating layer by thermally curing the prepreg, and (5) a detaching step including detaching the support film after the thermal curing step, enables continuous production of an insulating layer of a multi-layer printed wiring board with a prepreg and without using a single wafer.
    • 一种包含以下步骤(1) - (5)的多层印刷线路板的制造方法:(1)临时配合准备步骤,包括从粘合片辊输送粘合片,其中,将具有预浸渍体的粘合片形成在 将支撑膜缠绕在卷筒中并放置粘合片,使得预浸料表面接触电路板的一个或两个表面,(2)临时安装步骤,用于将粘合片临时装配到电路板,包括部分 通过从支撑膜侧加热和压制粘合片的一部分,将粘合片粘合到电路板上,并用切割机根据电路板的尺寸切割粘合片,(3)层压步骤,包括加热和 在减压下按压临时贴合的粘合片以将粘合片层合在电路板上,(4)热固化步骤,包括通过热固化该制备形成绝缘层 (5)包括在热固化步骤之后分离支撑膜的分离步骤,能够连续制备具有预浸料的多层印刷线路板的绝缘层,而不使用单个晶片。
    • 9. 发明授权
    • Mirror attachment structure for image-reading apparatus
    • 用于图像读取装置的镜子附件结构
    • US07233420B2
    • 2007-06-19
    • US10367922
    • 2003-02-19
    • Eiichi Hayashi
    • Eiichi Hayashi
    • H04N1/04
    • H04N1/0305H04N1/00525H04N1/0318H04N2201/0081H04N2201/03112H04N2201/03137H04N2201/03141H04N2201/03145
    • A mirror attachment structure for an image-reading apparatus that includes a carriage for mounting a light source for illuminating a document and a photoelectric conversion device for receiving light from the document includes a reinforcement sheet metal member. The reinforcement sheet metal member includes first and second sections that do not lie in the same plane and a mirror that is fixed to one of the sections. The carriage supports the reinforcement sheet metal member. The reinforcement sheet metal member may be formed into a proper shape by bending. The mirror may be directly bonded to the reinforcement sheet metal member, mounted on a support attached to the reinforcement sheet metal member, or formed directly on the reinforcement sheet metal member by evaporating aluminum onto the reinforcement sheet metal member.
    • 一种用于图像读取装置的镜子附接结构,包括用于安装用于照射原稿的光源的托架和用于从文件接收光的光电转换装置,包括加强件金属件。 加强板金属构件包括不位于同一平面中的第一和第二部分以及固定到其中一个部分的反射镜。 滑架支撑加强板金属构件。 加强板金属构件可以通过弯曲形成适当的形状。 反射镜可以直接结合到加强板金属构件上,安装在附接到加强板金属构件的支撑件上,或者通过将铝蒸镀到加强板金属构件上而直接形成在加强板金属构件上。