JP2011516927A - 電気活性回折レンズおよびそれを作るための方法 - Google Patents
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Abstract
【解決手段】本発明の一側面は、電気活性レンズと、改良液晶シール特徴を使用している固体透明光学材料を使用して液晶を封入する同一物を製造する方法を提供する。シール特徴は、組立電気活性レンズの液晶シール特徴の視認性を大幅に低減する。シール特徴はまた、液晶の封じ込めを邪魔することなく、また液晶の屈折率を変更するために使用されるレンズへの電気的連結性を狂わせることなく眼鏡フレームに適合するように電気活性レンズが処理されることが可能であり、これによって商業的に生存可能な電気活性レンズの製造を確実にするように構造的に頑丈である。
Description
本発明の一側面は、電気活性レンズと、改良液晶シール特徴を使用している固体透明光学材料を使用して液晶を封入する同一物を製造する方法を提供する。シール特徴は、組立電気活性レンズ中の液晶シール特徴の視認性を大幅に低減する。シール特徴はまた、液晶の封じ込めを邪魔することなく、また液晶の屈折率を変更するために使用されるレンズへの電気的接続性を狂わせることなく眼鏡フレームに適合するように電気活性レンズが処理されることが可能であり、これによって商業的に生存可能な電気活性レンズの製造を確実にするように構造的に頑丈である。
一例としては、基板は、周辺雰囲気下でほぼ15分間ほぼ50℃まで加熱されることが可能である。
EASFLB100の直径を低減することによって、導電性トレース106と107が露出されることが可能であり、EASFLB100の縁を介してアクセス可能にされることが可能である。さらに、EASFLB100の直径を低減することは、充てん口104と接着剤シール特徴105を除去することが可能ある。
引っかき傷および掘り、内部塗布層(たとえばITO)から過剰な染色、供給電気活性材料1802の電気活性シール特徴103の外からの不完全な除去、動的電気活性回折光学パワー領域102内の電気活性材料211の不十分な整列を含んでいる。
本発明のさまざまな実施形態が上に説明されたが、それらは例としてまた限定としてではなく示されていると理解されるべきである。形式と詳細の変更は発明の趣旨と要旨から逸脱することなく、形態と詳細のさまざまな変更がそれらに成されることが可能であることは関連技術の当業者には明白であろう。したがって、本発明は、続く請求の範囲とそれらの等価物にしたがってのみ規定されるべきである。
Claims (21)
- 第一の基板を形成することと、
表面浮彫回折構造と電気活性材料シール構造と接着剤シール構造を備えている第二の基板を形成することと、
前記第一の基板と前記第二の基板を位置決めして接着剤穴を形成するとともに前記表面浮彫回折構造を覆って電気活性材料を閉じ込めることと、
前記接着剤穴を接着剤で充てんすることと、
接着剤を硬化させて前記第一の基板を前記第二の基板に接着してレンズを形成することを備えている方法。 - 累進追加光学パワー領域を備えるように前記第一の基板を形成することをさらに備えている請求項1の方法。
- 前記第一の基板と前記第二の基板を位置決めする前に前記表面浮彫回折構造上に電気活性材料を供給することをさらに備えている請求項1の方法。
- 位置決めすることがさらに、前記前面基板と前記背面基板と前記電気活性材料シール構造と前記接着剤シール構造の間に前記接着剤穴を形成することを備えている請求項1の方法。
- 位置決めすることがさらに、前記表面浮彫回折構造と前記前面基板と前記電気活性材料シール構造の間に前記電気活性材料を閉じ込めることを備えている請求項1の方法。
- 前記第一の基板を形成することが、前記第二の基板の曲率半径よりも少なくとも2mm大きい曲率半径を有するように前記第一の基板を形成することを備えている請求項1の方法。
- 前記レンズの縁にある前記第一のおよび第二の基板の間に配置された一つ以上の電気的端子を露出させるために前記レンズを縁どりすることをさらに備えている請求項1の方法
- 第一の基板と、
表面浮彫回折構造と、前記表面浮彫回折構造の周りの電気活性材料シール構造と、その第二の基板の周囲の周りの接着剤材料シール構造を備えている第二の基板と、
前記表面浮彫回折構造と前記第一の基板と前記電気活性材料シール構造によって閉じ込められた電気活性材料と、
前記第一の基板と前記第二の基板と前記電気活性材料シール構造と前記接着剤材料シール構造によって閉じ込められた、前記第一の基板を前記第二の基板に接着する接着剤材料を備えているレンズ。 - 前記第一の基板が、累進追加光学パワー領域を備えている請求項8のレンズ。
- 前記第一の基板が、前記電気活性材料シール構造と前記接着剤材料シール構造においてのみ前記第二の基板と物理的接触状態にある請求項8のレンズ。
- 前記第一のおよび第二基板の一方が一つ以上の充てん口を備えている請求項8のレンズ。
- 前記第一の基板の曲率半径が、前記第二の基板の曲率半径よりも少なくとも2mm大きい請求項8のレンズ。
- 前記レンズが、前記第一と第二の基板の間に配置された前記レンズの縁にある一つ以上の電気的端子を備えている請求項8のレンズ。
- 第一の増大追加パワーを提供する電気活性素子と、
第二の増大追加パワー領域を提供する累進追加光学パワー領域を備えており、前記電気活性素子と前記累進追加光学的領域は光通信状態にあり、前記電気活性素子はほぼ250ミリ秒(ms)未満でオン状態からオフ状態に移行する電気活性レンズ。 - 前記オフ状態は、実質的に曇りがない請求項14の電気活性レンズ。
- 前記電気活性素子が、前記オフ状態で第一の光学パワーを、前記オン状態で第二の光学パワーを提供する請求項14の電気活性レンズ。
- 電気活性レンズが、
電気活性材料と、
一つ以上の透明電極と、
基板と、
一つ以上の配向層を備えている請求項14の電気活性レンズ。 - 前記基板が、表面浮彫回折構造と電気活性シール構造と接着剤シール構造を備えている請求項17の電気活性レンズ。
- 前記オフ状態での前記基板の回折効率がほぼ0%であり、前記オン状態での前記基板の回折効率がほぼ100%である請求項18の電気活性レンズ。
- 前記電気活性材料がコレステリック液晶である請求項17の電気活性レンズ。
- 前記電気活性素子が、ほぼ100ミリ秒(ms)未満でオフ状態からオフ状態に移行する請求項14の電気活性レンズ
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
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US4420508P | 2008-04-11 | 2008-04-11 | |
US61/044,205 | 2008-04-11 | ||
US15291309P | 2009-02-16 | 2009-02-16 | |
US61/152,913 | 2009-02-16 | ||
PCT/US2009/040300 WO2009126946A1 (en) | 2008-04-11 | 2009-04-13 | Electro-active diffractive lens and method for making the same |
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JP2014104116A Division JP2014194568A (ja) | 2008-04-11 | 2014-05-20 | 電気活性回折レンズおよびそれを作るための方法 |
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JP2011516927A true JP2011516927A (ja) | 2011-05-26 |
JP5587288B2 JP5587288B2 (ja) | 2014-09-10 |
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Also Published As
Publication number | Publication date |
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KR20100124841A (ko) | 2010-11-29 |
JP2014194568A (ja) | 2014-10-09 |
US20140347581A1 (en) | 2014-11-27 |
EP2269113A4 (en) | 2012-03-21 |
US8830408B2 (en) | 2014-09-09 |
US8523354B2 (en) | 2013-09-03 |
SG189744A1 (en) | 2013-05-31 |
WO2009126946A1 (en) | 2009-10-15 |
US20090256977A1 (en) | 2009-10-15 |
EP2269113A1 (en) | 2011-01-05 |
EP2431790A1 (en) | 2012-03-21 |
IL208577A0 (en) | 2010-12-30 |
US20140009700A1 (en) | 2014-01-09 |
MX2010011120A (es) | 2010-11-30 |
JP5587288B2 (ja) | 2014-09-10 |
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