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    • 1. 发明申请
    • Method for Producing Wafer Lens Assembly and Method for Producing Wafer Lens
    • 制造晶圆镜头组件的方法和生产晶片透镜的方法
    • US20100208354A1
    • 2010-08-19
    • US12682460
    • 2009-04-08
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • G02B27/12B29D11/00
    • G02B3/0012B29C31/006B29D11/00365G02B3/0062
    • There is provided a method for producing a wafer lens assembly capable of adhering a wafer lens and a spacer surely. The wafer lens assembly includes a first substrate including plural optical members formed of a curable resin on at least one surface, a second substrate joined to the first substrate, and a stop member arranged between the first and second substrates. The first and second substrates are adhered with an adhesive made of a photo-curable resin. The method includes an adhesive applying step of applying the adhesive made of a photo-curable resin on a joining area, a stop-member forming step, and a photo-curing step of irradiating and hardening the adhesive applied in the adhesive applying step with light after the stop-member forming step. The stop member is formed so as not to prevent the light irradiated in the photo-curing step from reaching the adhesive.
    • 提供了一种用于制造能够确实地粘附晶片透镜和间隔件的晶片透镜组件的方法。 晶片透镜组件包括:第一基板,包括在至少一个表面上由可固化树脂形成的多个光学部件;与第一基板接合的第二基板;以及设置在第一和第二基板之间的止动部件。 用由光固化树脂制成的粘合剂粘合第一和第二基片。 该方法包括将由光固化树脂制成的粘合剂施加到接合区域上的粘合剂施加步骤,停止构件形成步骤和光固化步骤,用光照射和硬化涂布在粘合剂施加步骤中的粘合剂 在停止部件形成步骤之后。 止挡构件形成为不防止光固化步骤中照射的光到达粘合剂。
    • 2. 发明授权
    • Method for producing molded body or wafer lens
    • 成型体或晶片透镜的制造方法
    • US08679379B2
    • 2014-03-25
    • US12933082
    • 2009-03-12
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • B29D11/00
    • B29D11/00365B29C35/02B29C35/0805B29C2035/0827B29C2035/0833B29D11/00307B29D11/00442G02B3/0031
    • The present invention aims to improve shape precision of a molded body when a plurality of molded bodies, which are projections or recesses made of a curable resin, are formed on both sides of a glass substrate. Disclosed is a method for producing a molded body, which comprises a step of preparing a first mold having a plurality of negative molding surfaces having shapes corresponding to a plurality of molding parts; a step of applying a curable resin onto a surface of the first mold on which the molding surfaces are formed; and a curing step of curing the applied curable resin. The curing step includes a photocuring step wherein curing of the curable resin is carried out by irradiating the resin with light, and a heat curing step wherein the curable resin partly cured by the photocuring step is further cured by being subjected to a heat treatment.
    • 本发明旨在提高在玻璃基板的两面形成作为固化树脂制的突起或凹部的多个成型体的成形体的形状精度。 公开了一种成型体的制造方法,其特征在于,包括具有多个成形面的多个成形面的多个成型部的形状的第一模具的制造工序。 将可固化树脂施加到其上形成有模制表面的第一模具的表面上的步骤; 以及固化所施加的可固化树脂的固化步骤。 固化步骤包括光固化步骤,其中通过用光照射树脂来进行固化树脂的固化,以及热固化步骤,其中通过光固化步骤部分固化的可固化树脂通过进行热处理进一步固化。
    • 3. 发明申请
    • Method for Producing Molded Body or Wafer Lens
    • 生产成型体或晶圆透镜的方法
    • US20110042840A1
    • 2011-02-24
    • US12933082
    • 2009-03-12
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • B29D11/00B29C33/38
    • B29D11/00365B29C35/02B29C35/0805B29C2035/0827B29C2035/0833B29D11/00307B29D11/00442G02B3/0031
    • The present invention aims to improve shape precision of a molded body when a plurality of molded bodies, which are projections or recesses made of a curable resin, are formed on both sides of a glass substrate. Disclosed is a method for producing a molded body, which comprises a step of preparing a first mold having a plurality of negative molding surfaces having shapes corresponding to a plurality of molding parts; a step of applying a curable resin onto a surface of the first mold on which the molding surfaces are formed; and a curing step of curing the applied curable resin. The curing step includes a photocuring step wherein curing of the curable resin is carried out by irradiating the resin with light, and a heat curing step wherein the curable resin partly cured by the photocuring step is further cured by being subjected to a heat treatment
    • 本发明旨在提高在玻璃基板的两面形成作为固化树脂制的突起或凹部的多个成型体的成形体的形状精度。 公开了一种成型体的制造方法,其特征在于,包括具有多个成形面的多个成形面的多个成型部的形状的第一模具的制造工序。 将可固化树脂施加到其上形成有模制表面的第一模具的表面上的步骤; 以及固化所施加的可固化树脂的固化步骤。 固化步骤包括光固化步骤,其中通过用光照射树脂来进行固化树脂的固化,以及热固化步骤,其中通过光固化步骤部分固化的可固化树脂通过进行热处理进一步固化
    • 4. 发明授权
    • Method for producing wafer lens assembly and method for producing wafer lens
    • 晶片透镜组件的制造方法及晶片透镜的制造方法
    • US08194323B2
    • 2012-06-05
    • US12682460
    • 2009-04-08
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • G02B27/10
    • G02B3/0012B29C31/006B29D11/00365G02B3/0062
    • There is provided a method for producing a wafer lens assembly capable of adhering a wafer lens and a spacer surely. The wafer lens assembly includes a first substrate including plural optical members formed of a curable resin on at least one surface, a second substrate joined to the first substrate, and a stop member arranged between the first and second substrates. The first and second substrates are adhered with an adhesive made of a photo-curable resin. The method includes an adhesive applying step of applying the adhesive made of a photo-curable resin on a joining area, a stop-member forming step, and a photo-curing step of irradiating and hardening the adhesive applied in the adhesive applying step with light after the stop-member forming step. The stop member is formed so as not to prevent the light irradiated in the photo-curing step from reaching the adhesive.
    • 提供了一种用于制造能够确实地粘附晶片透镜和间隔件的晶片透镜组件的方法。 晶片透镜组件包括:第一基板,包括在至少一个表面上由可固化树脂形成的多个光学部件;与第一基板接合的第二基板;以及设置在第一和第二基板之间的止动部件。 用由光固化树脂制成的粘合剂粘合第一和第二基片。 该方法包括将由光固化树脂制成的粘合剂施加到接合区域上的粘合剂施加步骤,停止构件形成步骤和光固化步骤,用光照射和硬化涂布在粘合剂施加步骤中的粘合剂 在停止部件形成步骤之后。 止挡构件形成为不防止光固化步骤中照射的光到达粘合剂。
    • 5. 发明授权
    • Method for producing wafer lens assembly and method for producing wafer lens
    • 晶片透镜组件的制造方法及晶片透镜的制造方法
    • US08456743B2
    • 2013-06-04
    • US13462069
    • 2012-05-02
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • Naoko OkazakiShigeru HosoeMasashi Saito
    • G02B27/10
    • G02B3/0012B29C31/006B29D11/00365G02B3/0062
    • There is provided a method for producing a wafer lens assembly capable of adhering a wafer lens and a spacer surely. The wafer lens assembly includes a first substrate including plural optical members formed of a curable resin on at least one surface, a second substrate joined to the first substrate, and a stop member arranged between the first and second substrates. The first and second substrates are adhered with an adhesive made of a photo-curable resin. The method includes an adhesive applying step of applying the adhesive made of a photo-curable resin on a joining area, a stop-member forming step, and a photo-curing step of irradiating and hardening the adhesive applied in the adhesive applying step with light after the stop-member forming step. The stop member is formed so as not to prevent the light irradiated in the photo-curing step from reaching the adhesive.
    • 提供了一种用于制造能够确实地粘附晶片透镜和间隔件的晶片透镜组件的方法。 晶片透镜组件包括:第一基板,包括在至少一个表面上由可固化树脂形成的多个光学部件;与第一基板接合的第二基板;以及设置在第一和第二基板之间的止动部件。 用由光固化树脂制成的粘合剂粘合第一和第二基片。 该方法包括将由光固化树脂制成的粘合剂施加到接合区域上的粘合剂施加步骤,停止构件形成步骤和光固化步骤,用光照射和硬化涂布在粘合剂施加步骤中的粘合剂 在停止部件形成步骤之后。 止挡构件形成为不防止光固化步骤中照射的光到达粘合剂。
    • 6. 发明申请
    • Method for Producing Wafer Lens Assembly and Method for Producing Wafer Lens
    • 制造晶圆镜头组件的方法和生产晶片透镜的方法
    • US20120212829A1
    • 2012-08-23
    • US13462069
    • 2012-05-02
    • Naoko OKAZAKIShigeru HosoeMasashi Saito
    • Naoko OKAZAKIShigeru HosoeMasashi Saito
    • G02B27/12B32B37/14B32B37/12
    • G02B3/0012B29C31/006B29D11/00365G02B3/0062
    • There is provided a method for producing a wafer lens assembly capable of adhering a wafer lens and a spacer surely. The wafer lens assembly includes a first substrate including plural optical members formed of a curable resin on at least one surface, a second substrate joined to the first substrate, and a stop member arranged between the first and second substrates. The first and second substrates are adhered with an adhesive made of a photo-curable resin. The method includes an adhesive applying step of applying the adhesive made of a photo-curable resin on a joining area, a stop-member forming step, and a photo-curing step of irradiating and hardening the adhesive applied in the adhesive applying step with light after the stop-member forming step. The stop member is formed so as not to prevent the light irradiated in the photo-curing step from reaching the adhesive.
    • 提供了一种用于制造能够确实地粘附晶片透镜和间隔件的晶片透镜组件的方法。 晶片透镜组件包括:第一基板,包括在至少一个表面上由可固化树脂形成的多个光学部件;与第一基板接合的第二基板;以及设置在第一和第二基板之间的止动部件。 用由光固化树脂制成的粘合剂粘合第一和第二基片。 该方法包括将由光固化树脂制成的粘合剂施加到接合区域上的粘合剂施加步骤,停止构件形成步骤和光固化步骤,用光照射和硬化涂布在粘合剂施加步骤中的粘合剂 在停止部件形成步骤之后。 止挡构件形成为不防止光固化步骤中照射的光到达粘合剂。
    • 7. 发明申请
    • Production Method of Wafer Lens
    • 晶圆透镜的制作方法
    • US20120153516A1
    • 2012-06-21
    • US13392817
    • 2010-08-23
    • Yuiti FujiShigeru HosoeToshiya TakitaniAkihiro Fujimoto
    • Yuiti FujiShigeru HosoeToshiya TakitaniAkihiro Fujimoto
    • B29D11/00
    • B29C39/006B29C39/10B29C39/24B29C43/04B29C43/14B29C43/58B29C2043/141B29C2043/5875B29L2011/0016
    • The aim is to regulate thickness on the optical axis in the production of wafer lenses. Disclosed is a wafer lens production method that is equipped with a dispensing process for dropping resin onto a molding die (64), an imprinting process for pressing either the molding die (64) or a glass substrate (2) toward the other, and a releasing process for releasing the glass substrate (2) from the molding die (64), and that repeats the processing from the dispensing process to the releasing process as a single cycle and successively forms resin lenses (4) on the glass substrate 2); wherein the height (A) of the non-lens area (6) surrounding the lenses (4) and the heights (B and C) of the glass substrate (2) are measured between the releasing process of a first cycle and the dispensing process of a second cycle, and the position of the molding die (64) is corrected for imprinting processes of the second cycle, on the basis of the heights (A-C).
    • 目的是在晶圆透镜的生产中调节光轴上的厚度。 公开了一种晶片透镜制造方法,其具有将树脂滴落到成型模具(64)上的分注工序,将成形模具(64)或玻璃基板(2)朝向另一方挤压的印刷工序,以及 从成型模具(64)释放玻璃基​​板(2)的放出工序,将从分注处理到剥离处理的处理重复为单个循环,并在玻璃基板2上依次形成树脂透镜(4); 其中在第一循环的释放过程和所述分配过程之间测量围绕所述透镜(4)的所述非透镜区域(6)的高度(A)和所述玻璃基板(2)的高度(B和C) 基于高度(AC)对成型模具(64)的位置进行第二循环的压印处理的校正。
    • 8. 发明授权
    • Injection nozzle and molding apparatus
    • 注射喷嘴和成型装置
    • US08052416B2
    • 2011-11-08
    • US12663830
    • 2008-05-13
    • Takemi MiyazakiShigeru HosoeYuiti Fujii
    • Takemi MiyazakiShigeru HosoeYuiti Fujii
    • B29C45/17
    • B29C45/20B29C2045/2787Y10S425/042Y10S425/047
    • Provided is an injection nozzle and a molding apparatus which ensure injection pressure by suppressing resin leakage even when a resin material having a low viscosity is used. In injection molding, it is especially important that the injection nozzle and a fixed die are excellently kept in contact with each other and that the resin is not leaked. Resin leakage from between the injection nozzle and the fixed die lowers molding pressure, increases molding shrinkage of the resin, and directly affects the qualities of a molded product resulting in generation of a sink, transfer failure and the like. Since an O-ring in a circumferential groove of the nozzle closely comes in contact with a concave spherical surface while elastically transforming on the entire circumference, leakage is effectively suppressed even the resin is a heat-curable resin having a low viscosity.
    • 提供一种注射喷嘴和成型装置,即使使用具有低粘度的树脂材料也能够通过抑制树脂泄漏来确保注射压力。 在注射成型中,特别重要的是注射喷嘴和固定模具彼此良好地保持接触,并且树脂不会泄漏。 注射喷嘴和固定模具之间的树脂泄漏降低了成型压力,增加了树脂的成型收缩率,并且直接影响了模制产品的质量,导致产生槽,转印失效等。 由于在喷嘴的周向槽中的O形环与凹球面紧密接触,同时在整个圆周上弹性变形,所以即使树脂是具有低粘度的热固性树脂,也能有效地抑制泄漏。
    • 10. 发明授权
    • Metallic mold for optical element and optical element
    • 金属模具用于光学元件和光学元件
    • US07488170B2
    • 2009-02-10
    • US11098204
    • 2005-04-04
    • Seiji YuasaShigeru HosoeYuichi Atarashi
    • Seiji YuasaShigeru HosoeYuichi Atarashi
    • B29C33/00B29C43/32
    • B29D11/00413
    • A molding die for forming an optical element, comprises a base body; a film layer formed on the base body and having a thickness of 0.01 to 500 μm; and a transferring surface formed on a surface of the film layer by a predetermined process and having a surface roughness Ra of 0.1 to 50 nm. The film layer is formed by an amorphous alloy having a supercooled liquid state containing 20 mol % or more of at least one atom of Pt, Ir, Au, Pd, Ru, Rh, Fe, Co, Ni, Zr, Al, Ti, Cu, W, Mo, Cr, B, and P and the transferring surface maintains the surface roughness after the transferring surface is heated to a temperature which is higher 50° C. higher than the glass transition temperature (Tg) of the optical element formed by the transferring surface and lower than the glass transition temperature of the amorphous alloy.
    • 一种用于形成光学元件的成形模具,包括基体; 薄膜层,形成在基体上,厚度为0.01〜500μm; 以及通过预定工艺在膜层的表面上形成的表面粗糙度Ra为0.1〜50nm的转印面。 该薄膜层由具有含有20mol%以上的Pt,Ir,Au,Pd,Ru,Rh,Fe,Co,Ni,Zr,Al,Ti等至少一个原子的过冷液态的非晶态合金形成, Cu,W,Mo,Cr,B和P,并且转印表面在转印表面被加热到比所形成的光学元件的玻璃化转变温度(Tg)高50℃以上的温度下保持表面粗糙度 通过转印表面并低于非晶合金的玻璃化转变温度。