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    • 3. 发明授权
    • Zoom optical system
    • 变焦光学系统
    • US06433940B1
    • 2002-08-13
    • US09840453
    • 2001-04-24
    • Masashi HankawaKazuteru KawamuraMasaru Morooka
    • Masashi HankawaKazuteru KawamuraMasaru Morooka
    • G02B1514
    • G02B15/163
    • A zoom optical system comprising, in order from the object side, a first lens unit having positive refractive power, a second lens unit having positive refractive power and a third lens unit having negative refractive power, and configured to change a magnification from a wide position to a tele position by moving the lens units on the object side so as to widen an airspace between the first lens unit and the second lens unit and narrow an airspace between the second lens unit and the third lens unit, thereby having a short total length at the tele position in particular and favorable optical performance.
    • 一种变焦光学系统,其从物体侧依次包括具有正屈光力的第一透镜单元,具有正屈光力的第二透镜单元和具有负屈光力的第三透镜单元,并且被配置为从宽位置改变倍率 通过在物体侧移动透镜单元以扩大第一透镜单元和第二透镜单元之间的空间并使第二透镜单元和第三透镜单元之间的空间变窄,从而具有短的总长度 在远程位置,具有良好的光学性能。
    • 4. 发明申请
    • Zoom lens and image pickup apparatus equipped with same
    • 变焦镜头和配备相机的摄像设备
    • US20090257131A1
    • 2009-10-15
    • US12384976
    • 2009-04-09
    • Masahiro KatakuraKazuteru Kawamura
    • Masahiro KatakuraKazuteru Kawamura
    • G02B15/177
    • G02B15/177
    • An apparatus has a zoom lens and an image pickup element disposed on the image side of the zoom lens that converts an optical image formed by the zoom lens into an electrical signal. The zoom lens includes, in order from the object side to the image side, a negative first lens unit, a negative second lens unit, a positive third lens unit, and a negative fourth lens unit. During zooming from the wide angle end to the telephoto end, the distance between the first lens unit and the second lens unit changes, the distance between the second lens unit and the third lens unit changes, and the distance between the third lens unit and the fourth lens unit changes, the distance between the second lens unit and the third lens unit being smaller at the telephoto end than at the wide angle end. The first lens unit includes a reflecting surface that deflects the optical path, and the zoom lens satisfies the following condition (1): −100
    • 设备具有变焦透镜和设置在变焦透镜的像侧上的图像拾取元件,其将由变焦透镜形成的光学图像转换为电信号。 变焦透镜从物体侧到像侧依次包括负的第一透镜单元,负的第二透镜单元,正的第三透镜单元和负的第四透镜单元。 在从广角端到远摄端的变焦期间,第一透镜单元和第二透镜单元之间的距离改变,第二透镜单元和第三透镜单元之间的距离改变,并且第三透镜单元与第三透镜单元之间的距离 第四透镜单元改变,第二透镜单元和第三透镜单元之间的距离在望远端比在广角端处更小。 第一透镜单元包括使光路偏转的反射面,变焦透镜满足以下条件(1):-100
    • 5. 发明授权
    • Zoom lens
    • 变焦镜头
    • US5793532A
    • 1998-08-11
    • US521067
    • 1995-08-29
    • Kazuteru Kawamura
    • Kazuteru Kawamura
    • G02B13/18G02B15/177G02B15/20G02B15/14G02B3/02
    • G02B15/177
    • The invention provides a high-performance wide-angle zoom lens system which has a zoom ratio of 2 or more and an angle of view of 65.degree. or more at the wide-angle end and comprises a reduced number of lenses, and so is favorable for reducing the size, weight, and cost of a camera used therewith. This zoom lens system comprises a first lens group G1 of negative power, a second lens group G2, a third lens group G3 of positive power and a fourth lens group G4 of negative power, with the space between the respective lens groups being varied for zooming. The first lens group G1 consists of a negative lens alone, the second and third lens groups G2 and G3 include one independent negative lens and two positive lenses in all, and the fourth lens group G4 comprises one negative lens or alternatively two lenses, positive and negative.
    • 本发明提供了一种高广角变焦透镜系统,其在广角端具有2倍以上的变焦倍率和65度以上的视角,并且包括减少数量的透镜,因此有利 用于减小与其一起使用的相机的尺寸,重量和成本。 该变焦透镜系统包括负功率的第一透镜组G1,第二透镜组G2,正光焦度的第三透镜组G3和负功率的第四透镜组G4,各透镜组之间的空间变化以变焦 。 第一透镜组G1由单独的负透镜组成,第二透镜组G2和第三透镜组G3全部包括一个独立的负透镜和两个正透镜,第四透镜组G4包括一个负透镜或两个透镜,其为正和 负。
    • 6. 发明授权
    • Two-unit zoom lens system
    • 双机变焦镜头系统
    • US5459616A
    • 1995-10-17
    • US19286
    • 1993-02-18
    • Kazuteru KawamuraYasuji Ogata
    • Kazuteru KawamuraYasuji Ogata
    • G02B15/16G02B15/14
    • G02B15/161
    • The invention provides a two-unit or positive-negative type of zoom lens that has a zoom range of the order of 38-70 mm, comprises six lens groups or six lenses, and makes use of an aspherical plastic lens for cost reduction and for improving its performance as well. This zoom lens system is constructed from a first unit I of positive power and a second unit II of negative power and is designed to be variable in the air space between both the units for zooming. The first unit I includes a positive meniscus lens L1 convex on the object side, a negative lens L2, a positive lens L3 and a lens L4, and the second unit II includes a positive meniscus lens L5 convex on the image side and a negative meniscus lens L6 convex on the image side. At least L5 consists of a plastic lens having an aspherical surface.
    • 本发明提供了具有38-70mm量级的变焦范围的两单元或正负型变焦透镜,包括六个透镜组或六个透镜,并且使用非球面塑料透镜来降低成本,并且 提高其性能。 该变焦透镜系统由正功率的第一单元I和负功率的第二单元II构成,并且被设计为在用于变焦的两个单元之间的空气空间中可变。 第一单元I包括在物体侧凸出的正弯月透镜L1,负透镜L2,正透镜L3和透镜L4,第二单元II包括在像侧凸起的正弯月透镜L5和负弯液面 透镜L6在图像侧凸起。 至少L5由具有非球面的塑料透镜组成。
    • 7. 发明授权
    • Zoom lens and imaging apparatus incorporating the same
    • 变焦镜头和包含其的成像装置
    • US08339714B2
    • 2012-12-25
    • US13248570
    • 2011-09-29
    • Akiyoshi TochigiKazuteru KawamuraYasuharu Yamada
    • Akiyoshi TochigiKazuteru KawamuraYasuharu Yamada
    • G02B15/14
    • G02B15/173
    • A zoom lens comprising, in order from an object side thereof, a first lens group of positive refracting power, a second lens group of negative refracting power, an aperture stop, a third lens group of positive refracting power, a fourth lens group of negative refracting power, and a fifth lens group of positive refracting power. Upon zooming from the wide-angle end to the telephoto end, at least the first lens group and the aperture stop remain fixed in position, the second and third lens groups move in the optical axis direction, and the separation between each of the lens groups and the aperture stop changes. Upon focusing from a focusing-on-infinity state to a close-range-focusing state, the fourth lens group moves in the optical axis direction, with satisfaction of the following: −0.36
    • 一种变焦透镜,其从物体侧起依次具有正折射率的第一透镜组,负折射光焦度的第二透镜组,孔径光阑,正折射率的第三透镜组,负折射率的第四透镜组 屈光力和第五透镜组的正折射力。 当从广角端到望远端变焦时,至少第一透镜组和孔径光阑保持固定就位,第二和第三透镜组沿光轴方向移动,并且每个透镜组之间的间隔 并且孔径光阑改变。 从聚焦无限状态向近距离聚焦状态聚焦时,第四透镜组沿光轴方向移动,满足以下条件:-0.36
    • 8. 发明申请
    • Imaging optical system, and imaging apparatus incorporating the same
    • 成像光学系统和包含该成像装置的成像装置
    • US20110235191A1
    • 2011-09-29
    • US12925470
    • 2010-10-21
    • Kazuteru KawamuraKeitaro Yokoyama
    • Kazuteru KawamuraKeitaro Yokoyama
    • G02B13/18G02B9/04
    • G02B7/04G02B9/04
    • An imaging optical system has, in order from the object side to the image side thereof, a front lens group, an aperture stop, and a rear lens group. A lens located closest to object side in said front lens group always remains fixed in position, with satisfaction of the following conditions (1) and (2): 1.15≦fb/IHω≦1.7   (1) −4.0≦fn/f≦−1.3   (2) where f is a focal length of the whole imaging optical system, fn is a focal length of a first negative lens in said front lens group, fb is a back focus of the imaging optical system upon focusing on an object point at infinity, and IHω is a distance from an optical axis of a position where a chief ray from a maximum incident half angle of view (ω) upon focusing on an object point at infinity is imaged at the imaging plane.
    • 成像光学系统从物体侧到其像侧依次具有前透镜组,孔径光阑和后透镜组。 满足以下条件(1)和(2):1.15≦̸ fb /IHω≦̸ 1.7(1)-4.0≦̸ fn / f&nlE中的最靠近所述前透镜组中物体侧的透镜始终保持固定 ; -1.3(2)其中f是整个成像光学系统的焦距,fn是所述前透镜组中的第一负透镜的焦距,fb是在聚焦在物体上时成像光学系统的后焦点 指向无限远,并且IHω是在聚焦在无限远物体上的来自最大入射半视角(ω)的主光线在成像平面成像的位置处的光轴的距离。
    • 10. 发明授权
    • Imaging apparatus
    • 成像设备
    • US07418199B2
    • 2008-08-26
    • US11177277
    • 2005-07-11
    • Kazuteru KawamuraKazuya Nishimura
    • Kazuteru KawamuraKazuya Nishimura
    • G03B17/00H04N5/262H04N5/255G02B13/16G02B15/14
    • G03B17/00
    • An imaging apparatus including a first lens unit with positive power in which the most object-side surface is concave and the most image-side surface is convex, an aperture stop, a second lens unit with positive power in which the most object-side surface is convex and the most image-side surface is concave, and a third lens unit with positive power; and an image sensor. Air spacing between the second lens unit and the third lens unit assumes the shape of a biconvex air lens. The imaging apparatus satisfies the following condition: 1.4≦|r 2R|/IH≦15.0 where IH is the maximum photographic image height, which is a half of the diagonal length, in an effective imaging area, of the image sensor, and r 2R is the radius of curvature, measured along the optical axis, of the most image-side surface of the second lens unit.
    • 一种成像装置,包括具有正电力的第一透镜单元,其中最物体侧表面是凹形的并且最像图像侧表面是凸形的;孔径光阑;具有正光焦度的第二透镜单元,其中最物体侧表面 是凸的,并且最大的图像侧表面是凹的,以及具有正功率的第三透镜单元; 和图像传感器。 第二透镜单元和第三透镜单元之间的空气间隔呈双凸透镜的形状。 成像装置满足以下条件:<?in-line-formula description =“In-line formula”end =“lead”?> 1.4 <= | R2R | / IH <= 15.0 <?in-line-formula description = “直线公式”end =“tail”?>其中IH是图像传感器的有效成像区域中最大摄影图像高度,它是对角线长度的一半,r 2R是曲率半径 ,沿着光轴测量第二透镜单元的最大像侧表面。