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    • 3. 发明申请
    • METHOD FOR PRODUCING IMAGING LENS
    • 用于制作成像镜片的方法
    • US20130037054A1
    • 2013-02-14
    • US13643477
    • 2011-04-04
    • Nobuhiro Saruya
    • Nobuhiro Saruya
    • B08B7/00
    • G02B3/0062B24C1/003G02B3/0031G02B13/0085
    • Disclosed is a method for producing an imaging lens in which a plurality of layers including one or more wafer lenses each provided with a lens portion that is formed from a curable resin are laminated on at least one surface of a substrate. The method for producing an imaging lens comprises, before lamination of the plurality of layers including the wafer lenses, a first lens portion cleaning step wherein carbon dioxide cleaning of the lens portions is carried out by spouting carbon dioxide so as to form dry ice particles and by causing the dry ice particles to hit on the lens portions of the wafer lenses or the vicinities of the lens portions. Consequently, deterioration of optical performance, changes in optical performance due to moisture absorption, and separation of the resin from the substrate can be prevented.
    • 公开了一种制造成像透镜的方法,其中包括一个或多个晶片透镜的多个层,每个晶片透镜都具有由可固化树脂形成的透镜部分层压在基板的至少一个表面上。 制造成像透镜的方法包括:在包括晶片透镜的多个层的层压之前,第一透镜部分清洁步骤,其中通过喷射二氧化碳进行透镜部分的二氧化碳清洁以形成干冰颗粒和 通过使干冰颗粒撞击晶片透镜的透镜部分或透镜部分附近。 因此,可以防止光学性能的劣化,由于吸湿引起的光学性能的变化以及树脂与基板的分离。
    • 4. 发明申请
    • WAFER LENS MANUFACTURING METHOD
    • WAFER镜头制造方法
    • US20130221549A1
    • 2013-08-29
    • US13883707
    • 2011-11-09
    • Kouichi EguroNobuhiro Saruya
    • Kouichi EguroNobuhiro Saruya
    • B29D11/00
    • B29D11/0073B29C35/0888B29C39/10B29C2035/0827B29D11/00192B29D11/00307B29L2011/00G02B3/0031G02B3/0056
    • Since a second molding surface 103a is separated from the second mold 42 before a first molding surface 102a is completely separated from the first mold 41, in a state difficult to take the unbalanced force, the separating force is applied at the same time on the first and the second molding surfaces 102a and 103a of the substrate 101, it is possible to prevent damage to the substrate 101 at the time of mold release even if the substrate 101 is comparatively thin. Since the mold release is performed with unseparated portions remaining on each of the first and the second molding surfaces 102a and 103a, it is unnecessary to separately provide a step of protecting a first and a second optical surfaces 11d and 12d on the opposite side during the mold release, whereby a precise wafer lens 100 can be produced simply and efficiently.
    • 由于在第一模制表面102a与第一模具41完全分离之前第二模制表面103a与第二模具42分离,在难以获得不平衡力的状态下,分离力同时施加在第一模具 和基板101的第二成型面102a,103a,即使基板101较薄,也可以防止脱模时对基板101的损坏。 由于在第一和第二成型表面102a和103a中的每一个上残留有未分离部分进行脱模,所以不需要在第一和第二成型表面102a和103a中分别提供保护相对侧上的第一和第二光学表面11d和12d的步骤 脱模,从而可以简单有效地制造精确的晶片透镜100。
    • 5. 发明申请
    • Method for Producing Wafer Lens and Apparatus for Producing Wafer Lens
    • 用于制造晶片透镜的方法和用于生产晶片透镜的装置
    • US20110278750A1
    • 2011-11-17
    • US13146156
    • 2009-12-15
    • Yuiti FujiiNobuhiro Saruya
    • Yuiti FujiiNobuhiro Saruya
    • B29D11/00B28B13/02
    • B29C39/006B29C31/04B29C39/04B29C39/24B29D11/00307B29L2011/0016
    • Disclosed are a method for producing a wafer lens and an apparatus for producing the same, wherein a high precision wafer lens is obtained easily. Specifically disclosed is a method for producing a wafer lens in which at least one surface of a glass substrate is provided with a lens part that is formed of photocurable resin. The method comprises in order: a dispensing step wherein photocurable resin is dispensed to a mold having a surface of a negative shape corresponding to an optical surface shape of the lens part; an imprinting step wherein the resin and the glass plate are pressed against each other; an exposure step wherein the resin is irradiated with light; and a releasing step wherein the mold is separated from the glass substrate, wherein the pressure is reduced in at least a part of the dispensing step, imprinting step, exposure step and the releasing step.
    • 公开了一种晶片透镜的制造方法及其制造方法,其中容易获得高精度晶片透镜。 具体公开了一种制造晶片透镜的方法,其中玻璃基板的至少一个表面设置有由光固化树脂形成的透镜部分。 该方法包括以下步骤:将光固化树脂分配到具有与透镜部分的光学表面形状对应的负形状的表面的模具的分配步骤; 压印步骤,其中树脂和玻璃板彼此挤压; 曝光步骤,其中树脂被光照射; 以及释放步骤,其中模具与玻璃基板分离,其中在分配步骤的至少一部分,压印步骤,曝光步骤和释放步骤中压力降低。