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    • 3. 发明申请
    • Casing structure for electronic equipment
    • 电子设备外壳结构
    • US20070045306A1
    • 2007-03-01
    • US11488639
    • 2006-07-19
    • Kazuhiko HiranoKazuyuki Sasaki
    • Kazuhiko HiranoKazuyuki Sasaki
    • H05B6/64
    • H05K7/20172H05K5/0213
    • A fan motor is mounted on the upper wall of the casing. The lower surface of this upper wall is formed into an inclined surface in which inclination is formed from the front wall side of the casing toward a back wall across from the front wall. When the fan motor is driven, oil mist or moisture contained in the air are condensed into water droplets or oil droplets. These water droplets or oil droplets fall and flow to the inner wall surface of the upper wall of the casing along the inner peripheral wall of a vent hole. Then the water droplets or oil droplets flow along the profile line of a vent hole smoothly (without stopping) and roll down the side wall of the casing.
    • 风扇马达安装在外壳的上壁上。 该上壁的下表面形成为从壳体的前壁侧朝向前壁的后壁形成倾斜的倾斜面。 当风扇马达被驱动时,空气中含有的油雾或水分会凝结成水滴或油滴。 这些水滴或油滴沿着通气孔的内周壁落到壳体上壁的内壁表面。 然后,水滴或油滴沿着通气孔的轮廓线平滑地流动(不停止)并且滚下壳体的侧壁。
    • 4. 发明授权
    • Window regulator
    • 窗口调节器
    • US07076918B2
    • 2006-07-18
    • US10610768
    • 2003-07-02
    • Hisato TatsumiYasuo OhtsukiSyunsuke TamuraKazuyuki SasakiKenichi Hirooka
    • Hisato TatsumiYasuo OhtsukiSyunsuke TamuraKazuyuki SasakiKenichi Hirooka
    • E05F11/48
    • B60J5/0416E05F11/382E05F11/385E05F11/488E05Y2201/612E05Y2201/684E05Y2600/10E05Y2900/55
    • A window regulator comprises a front guide rail installed in a front portion of a door and extending upward and downward; a rear guide rail installed in a rear portion of the door and extending upward and downward; a front carrier unit fixed to a lower front portion of the window pane and slidably engaged with the front guide rail through a first mechanism; and a rear carrier unit fixed to a lower rear portion of the window pane and slidably engaged with the rear guide rail through a second mechanism. The first mechanism is constructed to permit a pivotal movement of the front carrier unit about an imaginary axis that extends along the front guide rail. The second mechanism has a with a channel construction includes a slider on the rear carrier unit that is slidably received in a channel construction of the rear guide rail. The construction has a generally C-shaped cross section with its open side facing to the outside an exterior of the door when the door is mounted on a vehicle.
    • 窗口调节器包括安装在门的前部并向上和向下延伸的前导轨; 安装在门的后部并向上和向下延伸的后导轨; 固定到所述窗玻璃的下前部并且通过第一机构与所述前导轨可滑动地接合的前承载单元; 以及固定到所述窗玻璃的下后部并且通过第二机构与所述后导轨可滑动地接合的后承载单元。 第一机构被构造成允许前托架单元围绕沿着前导轨延伸的假想轴的枢转运动。 第二机构具有通道结构,其包括在后托架单元上的可滑动地容纳在后导轨的通道结构中的滑块。 当门安装在车辆上时,该结构具有大致C形横截面,其敞开侧面向门的外部。
    • 5. 发明授权
    • Environment monitoring system
    • 环境监测系统
    • US06466684B1
    • 2002-10-15
    • US09394689
    • 1999-09-13
    • Kazuyuki SasakiNaoto IshikawaMasato NakajimaTeruhisa Imai
    • Kazuyuki SasakiNaoto IshikawaMasato NakajimaTeruhisa Imai
    • G06K900
    • G06K9/00805G06K9/00798G06T7/246G06T2207/30256
    • In an environment monitoring system using an optical flow, a monitoring region is set in one's own vehicle lane or an adjacent lane on the basis of the white lines. In this case, an early image is divided into a plurality of small regions. An edge is extracted which is an candidate of each the white lines for each the small regions using a virtual FOE for each the small regions acquired previously of the early image. A white line is determined is determined on the basis of the edge extracted. Finally, white line segments are extended for each small region determined to acquire a coordinate of a crossing point thereof and that of the virtual FOE is stored for each the small regions. The virtual FOE is used to extract the edge for each of the small regions of an image newly picked-up in order to detect the optical flow.
    • 在使用光流的环境监视系统中,基于白线将监视区域设定在自己的车道或相邻车道中。 在这种情况下,早期图像被分成多个小区域。 提取一个边缘,它是每个小区域的每个白线的候选者,使用虚拟FOE对于先前获得的早期图像获取的每个小区域。 基于提取的边缘确定白线。 最后,对于确定获得其交叉点的坐标的每个小区域,并且针对每个小区域存储虚拟FOE的坐标的白线段被扩展。 虚拟FOE用于提取新拾取的图像的每个小区域的边缘,以便检测光流。
    • 8. 发明授权
    • Slit lamp and accessory device thereof
    • 狭缝灯及其配件
    • US4711541A
    • 1987-12-08
    • US695900
    • 1985-01-29
    • Hisakazu YoshinoShinichi NishimuraKazuyuki Sasaki
    • Hisakazu YoshinoShinichi NishimuraKazuyuki Sasaki
    • A61B3/135A61B3/14A61B3/10
    • A61B3/135A61B3/156
    • A slit lamp comprising a slit light projection optical system having a slit aperture for projecting a slit pattern light along a slit plane to a crystalline lens of a patient's eye and a microscope for observing a section of the crystalline lens which is illuminated by the slit pattern light. The microscope comprises an crystalline lens section recording optical system including a recording device having an image plane for recording the section of the crystalline lens of the patient's eye illuminated by the slit pattern light, and a retroillumination image recording optical system for guiding a retroillumination image of the crystalline lens to the recording device of the crystalline lens section recording optical system for recording the section of the crystalline lens. The crystalline lens section recording optical system including an imaging optical system having a principal plane which intersects an extension of the image plane of the recording device in an extension plan including the slit aperture and the projection optical axis of the slit light projection optical.
    • 一种狭缝灯,包括狭缝光投射光学系统,该狭缝光投射光学系统具有用于将缝隙图案光沿狭缝平面投射到患者眼睛的晶状体的狭缝孔,以及用于观察由狭缝图案照射的晶状体的一部分的显微镜 光。 显微镜包括晶状体记录光学系统,该晶状体记录光学系统包括具有用于记录由狭缝图案光照射的患者眼睛的晶状体的部分的图像平面的记录装置,以及用于引导照明图像的后照照明图像的后照照明图像记录光学系统 晶状体到用于记录晶状体截面的晶状体记录光学系统的记录装置。 该晶状体部分记录光学系统包括成像光学系统,该成像光学系统具有在包括狭缝孔和狭缝光投影光学的投影光轴的扩展平面中与记录装置的像面的延伸部相交的主平面。
    • 10. 发明授权
    • Casing structure for electronic equipment
    • 电子设备外壳结构
    • US07923670B2
    • 2011-04-12
    • US11488639
    • 2006-07-19
    • Kazuhiko HiranoKazuyuki Sasaki
    • Kazuhiko HiranoKazuyuki Sasaki
    • H05B6/64H05K7/20
    • H05K7/20172H05K5/0213
    • A fan motor is mounted on the upper wall of the casing. The lower surface of this upper wall is formed into an inclined surface in which inclination is formed from the front wall side of the casing toward a back wall across from the front wall. When the fan motor is driven, oil mist or moisture contained in the air are condensed into water droplets or oil droplets. These water droplets or oil droplets fall and flow to the inner wall surface of the upper wall of the casing along the inner peripheral wall of a vent hole. Then the water droplets or oil droplets flow along the profile line of a vent hole smoothly (without stopping) and roll down the side wall of the casing.
    • 风扇马达安装在外壳的上壁上。 该上壁的下表面形成为从壳体的前壁侧朝向前壁的后壁形成倾斜的倾斜面。 当风扇马达被驱动时,空气中含有的油雾或水分会凝结成水滴或油滴。 这些水滴或油滴沿着通气孔的内周壁落到壳体上壁的内壁表面。 然后,水滴或油滴沿着通气孔的轮廓线平滑地流动(不停止)并且滚下壳体的侧壁。