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公开(公告)号:US20090219628A1
公开(公告)日:2009-09-03
申请号:US12453262
申请日:2009-05-05
申请人: Noritoshi Eguchi , Tamotsu Nakano
发明人: Noritoshi Eguchi , Tamotsu Nakano
IPC分类号: G02B15/14
CPC分类号: G02B15/14 , G02B7/08 , G02B17/0856
摘要: A variable power optical system composed of a first optical part, a second optical part, and a third optical part, with the first optical part being movable with respect to the second and third optical parts to change the focal length of the entire system. The first optical part is movably held between the second optical part and the third optical part. The first optical part moves in the direction perpendicular to the optical axis over a distance between the position on the optical system of the entire system and the position of retraction from the optical axis of the entire system.
摘要翻译: 一种由第一光学部件,第二光学部件和第三光学部件组成的可变光学系统,其中第一光学部件可相对于第二和第三光学部件移动,以改变整个系统的焦距。 第一光学部件可移动地保持在第二光学部件和第三光学部件之间。 第一光学部件在整个系统的光学系统上的位置与从整个系统的光轴退回的位置之间的距离上沿与光轴垂直的方向移动。
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公开(公告)号:US20070115567A1
公开(公告)日:2007-05-24
申请号:US10579210
申请日:2005-09-12
申请人: Noritoshi Eguchi , Tamotsu Nakano
发明人: Noritoshi Eguchi , Tamotsu Nakano
IPC分类号: G02B7/02
CPC分类号: G02B15/14 , G02B7/08 , G02B17/0856
摘要: A variable power optical system composed of a first optical part (G1) for refraction, a second optical part (G2) for reflection or transmission, and a third optical part (G3) for refraction, with the first optical part being movable with respect to the second and third optical parts to change the focal length of the entire system, wherein the second optical part or the third optical part has a guide 4 which is in contact partly with the first optical part in such a way as to restrict its moving direction and the first optical part is movably held between the second optical part and the third optical part. This structure eliminates the necessity of separately forming the guide to move G1. The guide 4 is formed from a synthetic resin integrally with the stationary optical part (G3).
摘要翻译: 由用于折射的第一光学部件(G 1),用于反射或透射的第二光学部件(G 2)和用于折射的第三光学部件(G 3)组成的可变光学系统,第一光学部件可移动 相对于第二光学部件和第三光学部件改变整个系统的焦距,其中第二光学部件或第三光学部件具有引导件4,引导件4以与第一光学部件部分接触的方式限制 其移动方向和第一光学部件可移动地保持在第二光学部件和第三光学部件之间。 该结构消除了单独形成导向件移动G 1的必要性。 引导件4由与固定光学部件(G 3)一体的合成树脂形成。
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公开(公告)号:US07554749B2
公开(公告)日:2009-06-30
申请号:US10579210
申请日:2005-09-12
申请人: Noritoshi Eguchi , Tamotsu Nakano
发明人: Noritoshi Eguchi , Tamotsu Nakano
CPC分类号: G02B15/14 , G02B7/08 , G02B17/0856
摘要: A variable power optical system composed of a first optical part (G1) for refraction, a second optical part (G2) for reflection or transmission, and a third optical part (G3) for refraction, with the first optical part being movable with respect to the second and third optical parts to change the focal length of the entire system, wherein the second optical part or the third optical part has a guide 4 which is in contact partly with the first optical part in such a way as to restrict its moving direction and the first optical part is movably held between the second optical part and the third optical part. This structure eliminates the necessity of separately forming the guide to move G1. The guide 4 is formed from a synthetic resin integrally with the stationary optical part (G3).
摘要翻译: 一种由用于折射的第一光学部件(G1),用于反射或透射的第二光学部件(G2)和用于折射的第三光学部件(G3))组成的可变光焦度系统,所述第一光学部件可相对于 所述第二和第三光学部件改变整个系统的焦距,其中所述第二光学部件或所述第三光学部件具有引导件4,所述引导件4以与所述第一光学部件部分接触的方式限制其移动方向 并且第一光学部件可移动地保持在第二光学部件和第三光学部件之间。 这种结构消除了分开形成导轨以移动G1的必要性。 引导件4由与固定光学部件(G3)一体的合成树脂形成。
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4.发明授权Mounting structure for plurality of lenses, camera module, and electronic equipment 有权多个镜头,相机模块和电子设备的安装结构公开(公告)号:US07850377B2
公开(公告)日:2010-12-14
申请号:US12099939
申请日:2008-04-09
申请人: Hideo Okamoto , Nobuyuki Adachi , Noritoshi Eguchi
发明人: Hideo Okamoto , Nobuyuki Adachi , Noritoshi Eguchi
CPC分类号: H04N5/2254 , G02B7/021 , H04M1/0264
摘要: A mounting structure for a plurality of lenses, wherein at least three lenses are arranged with their optical axes set to coincide with each other, the lenses located at both ends in the optical axis direction are provided with parts facing each other, and the mutually facing parts of the lenses are fixed to each other with an adhesive. The mounting structure, wherein all the lenses except the lenses located at both ends in the optical axis direction are fixed in the state of being clamped between the lenses located at both ends in the optical axis direction by shrinkage during curing of the adhesive.
摘要翻译: 一种用于多个透镜的安装结构,其中至少三个透镜被设置成使它们的光轴彼此重合,位于光轴方向两端的透镜设置有彼此相对的部分,并且相互面对 透镜的一部分用粘合剂彼此固定。 安装结构,其中位于光轴方向两端的透镜之外的所有透镜在通过粘合剂固化期间的收缩被夹持在位于光轴方向两端的透镜之间的状态下被固定。
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公开(公告)号:US20100142066A1
公开(公告)日:2010-06-10
申请号:US12598818
申请日:2009-01-22
IPC分类号: G02B7/04
摘要: A lens holding member (30) is molded by filling a molten synthetic resin from a gate of a mold into a product cavity, and a portion corresponding to the gate of the mold for molding remains thereon as a gate portion (72). By mounting a coil (52) on a rear cylindrical face (60), an adhesive filling recess (70) that opens in a direction parallel to an optical axis of an image pickup optical system (28) is defined by a center face (66), side faces (68) standing from both sides of the center face (66), an outer face (58), and an inner peripheral surface of the coil (52). The gate portion (72) is provided on the center face (66) of the adhesive filling recess (70). By filling the adhesive filling recess (74) with adhesive B, an outer peripheral portion of the lens holding member (30) and an inner peripheral portion of the coil (52) are bonded together, and the gate portion (72) is buried in the adhesive B. These provide a camera module that is advantageous in effectively preventing dust from being generated from the gate portion without necessitating any special treatment process.
摘要翻译: 通过将熔融的合成树脂从模具的浇口填充到产品空腔中而成型透镜保持构件(30),并且与模具的浇口相对应的部分保留在其上作为浇口部分(72)。 通过将线圈(52)安装在后圆柱面(60)上,沿着与摄像光学系统(28)的光轴平行的方向开口的粘合剂填充凹部(70)由中心面(66 ),从中心面(66)的两侧立起的侧面(68),外面(58)和线圈(52)的内周面。 门部分(72)设置在粘合剂填充凹口(70)的中心面(66)上。 通过用粘合剂B填充粘合剂填充凹部(74),将透镜保持部件(30)的外周部分和线圈(52)的内周部分接合在一起,并将栅极部分(72)埋入 这些提供了一种相机模块,其有利地有效地防止从栅极部分产生灰尘,而不需要任何特殊的处理过程。
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6.发明申请公开(公告)号:US20080186597A1
公开(公告)日:2008-08-07
申请号:US12018883
申请日:2008-01-24
申请人: Noritoshi Eguchi
发明人: Noritoshi Eguchi
IPC分类号: G02B7/02
CPC分类号: G02B7/021 , G02B7/023 , H04N5/2254 , H04N5/2257
摘要: An arrangement structure of lenses includes two adjacent lenses, a first engagement surface formed at a surface where one lens out of the two lenses faces another lens, and a second engagement surface capable of engaging with the first engagement surface, which is formed in a surface where the another lens of the two lenses faces the one lens.
摘要翻译: 透镜的布置结构包括两个相邻的透镜,形成在两个透镜中的一个透镜面对另一个透镜的表面处的第一接合表面和能够与第一接合表面接合的第二接合表面,该第二接合表面形成在表面 其中两个透镜的另一个透镜面对一个透镜。
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公开(公告)号:US07990635B2
公开(公告)日:2011-08-02
申请号:US12598818
申请日:2009-01-22
IPC分类号: G02B27/00
摘要: A lens holding member (30) is molded by filling a molten synthetic resin from a gate of a mold into a product cavity, and a portion corresponding to the gate of the mold for molding remains thereon as a gate portion (72). By mounting a coil (52) on a rear cylindrical face (60), an adhesive filling recess (70) that opens in a direction parallel to an optical axis of an image pickup optical system (28) is defined by a center face (66), side faces (68) standing from both sides of the center face (66), an outer face (58), and an inner peripheral surface of the coil (52). The gate portion (72) is provided on the center face (66) of the adhesive filling recess (70). By filling the adhesive filling recess (74) with adhesive B, an outer peripheral portion of the lens holding member (30) and an inner peripheral portion of the coil (52) are bonded together, and the gate portion (72) is buried in the adhesive B. These provide a camera module that is advantageous in effectively preventing dust from being generated from the gate portion without necessitating any special treatment process.
摘要翻译: 通过将熔融的合成树脂从模具的浇口填充到产品空腔中而成型透镜保持构件(30),并且与模具的浇口相对应的部分保留在其上作为浇口部分(72)。 通过将线圈(52)安装在后圆柱面(60)上,沿着与摄像光学系统(28)的光轴平行的方向开口的粘合剂填充凹部(70)由中心面 ),从中心面(66)的两侧立起的侧面(68),外面(58)和线圈(52)的内周面。 门部分(72)设置在粘合剂填充凹口(70)的中心面(66)上。 通过用粘合剂B填充粘合剂填充凹部(74),将透镜保持部件(30)的外周部分和线圈(52)的内周部分接合在一起,并将栅极部分(72)埋入 这些提供了一种相机模块,其有利地有效地防止从栅极部分产生灰尘,而不需要任何特殊的处理过程。
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公开(公告)号:US07813052B2
公开(公告)日:2010-10-12
申请号:US12453262
申请日:2009-05-05
申请人: Noritoshi Eguchi , Tomotsu Nakano
发明人: Noritoshi Eguchi , Tomotsu Nakano
CPC分类号: G02B15/14 , G02B7/08 , G02B17/0856
摘要: A variable power optical system composed of a first optical part, a second optical part, and a third optical part, with the first optical part being movable with respect to the second and third optical parts to change the focal length of the entire system. The first optical part is movably held between the second optical part and the third optical part. The first optical part moves in the direction perpendicular to the optical axis over a distance between the position on the optical system of the entire system and the position of retraction from the optical axis of the entire system.
摘要翻译: 一种由第一光学部件,第二光学部件和第三光学部件组成的可变光学系统,其中第一光学部件可相对于第二和第三光学部件移动,以改变整个系统的焦距。 第一光学部件可移动地保持在第二光学部件和第三光学部件之间。 第一光学部件在整个系统的光学系统上的位置与从整个系统的光轴退回的位置之间的距离上沿与光轴垂直的方向移动。
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9.发明申请MOUNTING STRUCTURE FOR PLURALITY OF LENSES, CAMERA MODULE, AND ELECTRONIC EQUIPMENT 有权镜片,相机模块和电子设备的安装结构公开(公告)号:US20090047011A1
公开(公告)日:2009-02-19
申请号:US12099939
申请日:2008-04-09
申请人: Hideo Okamoto , Nobuyuki Adachi , Noritoshi Eguchi
发明人: Hideo Okamoto , Nobuyuki Adachi , Noritoshi Eguchi
CPC分类号: H04N5/2254 , G02B7/021 , H04M1/0264
摘要: A mounting structure for a plurality of lenses, wherein at least three lenses are arranged with their optical axes set to coincide with each other, the lenses located at both ends in the optical axis direction are provided with parts facing each other, and the mutually facing parts of the lenses are fixed to each other with an adhesive. The mounting structure, wherein all the lenses except the lenses located at both ends in the optical axis direction are fixed in the state of being clamped between the lenses located at both ends in the optical axis direction by shrinkage during curing of the adhesive.
摘要翻译: 一种用于多个透镜的安装结构,其中至少三个透镜被设置成使它们的光轴彼此重合,位于光轴方向两端的透镜设置有彼此相对的部分,并且相互面对 透镜的一部分用粘合剂彼此固定。 安装结构,其中位于光轴方向两端的透镜之外的所有透镜在通过粘合剂固化期间的收缩被夹持在位于光轴方向两端的透镜之间的状态下被固定。
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