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    • 81. 发明授权
    • Zoom optical system, imaging lens device, and digital apparatus
    • 变焦光学系统,成像镜头设备和数字设备
    • US07382546B2
    • 2008-06-03
    • US11257879
    • 2005-10-25
    • Kenji Konno
    • Kenji Konno
    • G02B15/14
    • G02B17/086G02B13/003G02B13/0035G02B13/004G02B13/006G02B13/0065G02B13/007G02B13/009G02B15/14G02B15/177
    • A reflecting prism (PR1) and a reflecting prism (PR2) each adapted to bend an incident ray at a predetermined angle for reflection are arranged in such a manner that an incident surface of the reflecting prism disposed on a side of a subject on an optical path and the exit surface of the other reflecting prism are aligned substantially parallel to each other. The incident surface or the exit surface of at least one of the reflecting prisms has an optical power. At least one lens group including one or more lens element is arranged between the two reflecting prisms in such a manner that the optical axis of the lens group is coincident with the axis of the optical path between the two reflecting prisms. At least one lens group is moved in the direction of the optical axis thereof. Thus, provided are a thin and superfine zoom optical system, an imaging lens device incorporated with the zoom optical system, and a digital apparatus loaded with the imaging lens device.
    • 反射棱镜(PR 1)和反射棱镜(PR 2)各自适于弯曲以预定角度反射的入射光线,以使得设置在被摄物体一侧的反射棱镜的入射面 光路和另一反射棱镜的出射表面基本上彼此平行地排列。 至少一个反射棱镜的入射表面或出射表面具有光焦度。 包括一个或多个透镜元件的至少一个透镜组被布置在两个反射棱镜之间,使得透镜组的光轴与两个反射棱镜之间的光路的轴线重合。 至少一个透镜组沿其光轴的方向移动。 因此,提供了一种薄且超细的变焦光学系统,结合有变焦光学系统的成像透镜装置和装载有成像透镜装置的数字装置。
    • 82. 发明授权
    • Exhaust system for a motorcycle, and motorcycle including same
    • 摩托车的排气系统,以及包括其的摩托车
    • US07364010B2
    • 2008-04-29
    • US11110420
    • 2005-04-20
    • Kenji Konno
    • Kenji Konno
    • F01N7/08F01N1/16B62D61/02B60K13/04F16K17/00F01N1/02B62K11/00B62M7/00
    • B62K19/30B62M7/02
    • A motorcycle, having both left and right mufflers, has an exhaust structure which enables an increase in the allowable margin through which the rear wheel is permitted to rise. A main exhaust pipe extends from an engine to one side of a shock absorber disposed on the rear side of the engine. The main exhaust pipe is branched in the vicinity of the shock absorber into a first branch pipe and a second branch pipe. The first branch pipe is connected to a first muffler disposed on the same side as the main exhaust pipe, and the second branch pipe is connected to a second muffler after passing between the shock absorber and a rear wheel to the opposed side of the vehicle body. The second branch pipe does not interfere with the rising motion of the rear wheel, and a sufficient allowable margin is secured for the rear wheel.
    • 具有左右消音器的摩托车具有能够增加后轮被允许上升的容许余量的排气结构。 主排气管从发动机延伸到设置在发动机后侧的减震器的一侧。 主排气管在减震器附近分支为第一分支管和第二分支管。 第一分支管与设置在与主排气管相同侧的第一消声器连接,第二分支管在通过减震器和后轮之间的第二消声器连接到车体的相对侧 。 第二分支管不会干扰后轮的上升运动,并且对于后轮确保足够的允许余量。
    • 86. 发明申请
    • Image pickup optical systems, image pickup apparatuses and digital apparatuses
    • 摄像光学系统,摄像设备和数字设备
    • US20070024739A1
    • 2007-02-01
    • US11492741
    • 2006-07-25
    • Kenji Konno
    • Kenji Konno
    • H04N9/07
    • H04N5/2254G02B5/04G02B13/002G02B13/0065G02B13/007G02B13/009G02B17/086G03B17/00
    • The present invention provides image pickup optical systems capable of suppressing the degradation of the image quality due to unnecessary light beams while attaining compaction by optimizing the shapes of the emission surfaces of reflection prisms. The image pickup optical system includes an incidence-side prism for reflecting incident light while folding it by about 90 degree and an image-surface side prism. An image pickup device is placed near the emission surface of the image-surface side prism. The incidence-side prism is formed to have a convex emission surface. This can reduce the amount of the unnecessary light beams (stray light) reflected by the aforementioned reflection surface and also causes the unnecessary light beams reflected by the emission surface and the reflection surface to be diffused, thereby significantly reducing the amount of unnecessary light beams directed to the light receiving surface of the image pickup device. This can suppress the occurrence of ghosts and the like due to unnecessary light beams as aforementioned.
    • 本发明提供了能够通过优化反射棱镜的发射表面的形状来抑制由于不需要的光束而导致的图像质量劣化的图像拾取光学系统,同时实现压缩。 摄像光学系统包括入射侧棱镜,用于将入射光反射约90度,并具有图像侧棱镜。 图像拾取装置放置在图像侧棱镜的发射表面附近。 入射侧棱镜形成为具有凸出的发光面。 这可以减少由上述反射面反射的不必要的光束(杂散光)的量,并且使由发射面和反射面反射的不必要的光束扩散,从而显着地减少不必要的光束定向量 到图像拾取装置的光接收表面。 这可以抑制由于如上所述的不必要的光束而引起的重影等。
    • 87. 发明授权
    • Taking lens apparatus
    • 拍摄镜头设备
    • US07079325B2
    • 2006-07-18
    • US10629441
    • 2003-07-29
    • Kenji Konno
    • Kenji Konno
    • G02B15/14
    • G02B15/177G02B5/04
    • A taking lens apparatus has a zoom lens system that is composed of a plurality of lens units and that achieves zooming by varying the distances between the lens units and an image sensor that converts the optical image formed by the zoom lens system into an electrical signal. The zoom lens system has a first lens unit that is disposed at the object-side end of the zoom lens system, that has a negative optical power as a whole, that includes a reflective member for bending the optical axis of the zoom lens system as a whole at substantially 90°, and that remains stationary relative to the image sensor during the zooming of the zoom lens system, a second lens unit that is disposed on the image-sensor side of the first lens unit with a variable aerial distance secured in between, that has a positive optical power as a whole, and that moves toward the object side during the zooming of the zoom lens system from the wide-angle end to the telephoto end, and a third lens unit that is disposed on the image-sensor side of the second lens unit with a variable aerial distance secured in between, that has a positive optical power as a whole, and that moves toward the object side during the zooming of the zoom lens system.
    • 拍摄透镜装置具有由多个透镜单元组成的变焦透镜系统,并且通过改变透镜单元之间的距离和将由变焦透镜系统形成的光学图像转换为电信号的图像传感器来实现变焦。 变焦透镜系统具有设置在变焦透镜系统的物侧端部的第一透镜单元,其具有作为整体的负光焦度,该第一透镜单元包括用于将变焦透镜系统的光轴弯曲的反射构件, 整体大致为90°,并且在变焦透镜系统的变焦期间相对于图像传感器保持静止;第二透镜单元,设置在第一透镜单元的图像传感器侧,具有可变的空中距离,固定在 在变焦透镜系统从广角端到望远端的变焦期间,其整体具有正的光焦度,并且朝向物体侧移动;以及第三透镜单元,其设置在图像形成区域上, 第二透镜单元的传感器侧具有固定在其间的可变空间距离,其整体具有正光焦度,并且在变焦透镜系统的变焦期间朝向物体侧移动。
    • 89. 发明申请
    • Catadioptric objective system and objective system
    • 反射折射系统和客观系统
    • US20050094540A1
    • 2005-05-05
    • US10969555
    • 2004-10-20
    • Kenji Konno
    • Kenji Konno
    • G02B17/08G02B13/18G11B7/00G11B7/135
    • G11B7/1387G11B2007/13725
    • A catadioptric objective system used for storage and/or reproduction of information by use of an optical near field. The catadioptric objective system is composed of a catadioptric objective lens and a light transmitting plate. The lens has a first surface and a second surface. The first surface has a positive optical power and transmits incident rays. The second surface has a positive optical power and reflects incident rays, and a plane portion is formed in the center of the second surface. The light transmitting plate has a third surface and a fourth surface which are substantially parallel to each other, and the third surface is bonded to the second surface. Incident rays pass through the first surface and are reflected by the second surface. Thereafter, the rays enter into the first surface again and are reflected by the first surface. Then, the rays pass through the plane portion of the second surface, and the rays are converged in vicinity of the fourth surface.
    • 用于通过使用光学近场来存储和/或再现信息的反射折光物镜系统。 反射折射物镜系统由反射折射物镜和透光板组成。 透镜具有第一表面和第二表面。 第一表面具有正光焦度并透射入射光线。 第二表面具有正光焦度并反射入射光线,并且平面部分形成在第二表面的中心。 透光板具有基本上彼此平行的第三表面和第四表面,并且第三表面结合到第二表面。 入射光线穿过第一表面并被第二表面反射。 此后,光线再次进入第一表面并被第一表面反射。 然后,射线穿过第二表面的平面部分,并且射线会聚在第四表面附近。