序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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201 | METHOD OF EVALUATING THE EFFICIENCY OF A MYOPIA CONTROL PRODUCT | EP14712216.2 | 2014-02-26 | EP2962154A1 | 2016-01-06 | DROBE, Björn |
A method of evaluating the efficiency of a myopia control product for a wearer, the method comprising: an initial myopia indicator providing step S1, during which the initial value of a myopia indicator of the wearer is provided, a myopia condition step S2, during which the wearer using the myopia control product is placed in myopia inducing conditions, a resulting myopia indicator determining step S3, during which the resulting value of the myopia indicator of the wearer is determined after the wearer has been placed in the myopia inducing conditions, an efficiency evaluation step S4, during which the efficiency of the myopia control product is evaluated by comparing the initial value of the myopia indicator and the resulting value of the myopia indicator. | ||||||
202 | OPTICAL ELEMENT AND OPTICAL ELEMENT MANUFACTURING METHOD | EP13758313 | 2013-02-13 | EP2824485A4 | 2015-11-18 | HOSHINO YUTA; IMAI YUKO |
To provide an optical member, formed without generating cracks in a hard coat layer of desired film thickness, and a method of manufacturing an optical member that permits the manufacturing of the above optical member. The optical member of the present invention is characterized by comprising a lens substrate having a curved surface, a porous intermediate layer formed so as to cover an edge portion of the lens substrate in a planar view along an optical axis of the optical member, and a hard coat layer formed so as to cover the lens substrate and the intermediate layer in the planar view; as well as characterized in that the hard coat layer comprises a thick film portion, formed on the edge portion of the hard coat layer and thicker than a center portion of the hard coat layer in the planar view, and when a maximum film thickness of the intermediate layer is denoted as A (µm) and a maximum film thickness of the thick film portion is denoted as B (µm), a relation of A/B being equal to or greater than 3% but equal to or less than 20% is satisfied. | ||||||
203 | OPTICAL ELEMENT AND OPTICAL ELEMENT MANUFACTURING METHOD | EP13758313.4 | 2013-02-13 | EP2824485A1 | 2015-01-14 | HOSHINO, Yuta; IMAI, Yuko |
To provide an optical member, formed without generating cracks in a hard coat layer of desired film thickness, and a method of manufacturing an optical member that permits the manufacturing of the above optical member. The optical member of the present invention is characterized by comprising a lens substrate having a curved surface, a porous intermediate layer formed so as to cover an edge portion of the lens substrate in a planar view along an optical axis of the optical member, and a hard coat layer formed so as to cover the lens substrate and the intermediate layer in the planar view; as well as characterized in that the hard coat layer comprises a thick film portion, formed on the edge portion of the hard coat layer and thicker than a center portion of the hard coat layer in the planar view, and when a maximum film thickness of the intermediate layer is denoted as A (µm) and a maximum film thickness of the thick film portion is denoted as B (µm), a relation of A/B being equal to or greater than 3% but equal to or less than 20% is satisfied. |
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204 | FORMING SPECTRAL FILTERS FOR ANAGLYPH GLASSES | EP07760079.9 | 2007-04-04 | EP2008473B1 | 2013-01-16 | LIPPEY, Barret; BARKER, Charles R. |
A lens bears a plurality of roll-coated layers to pass, to one eye of a viewer, a first image, in a first band of wavelengths, that is appropriate for 3D viewing of a stereoscopic image. | ||||||
205 | LENTILLE OPHTALMIQUE RECOUVERTE D'UN FILM ELECTROSTATIQUE ET PROCEDE DE DEBORDAGE D'UNE TELLE LENTILLE | EP04787450.8 | 2004-09-24 | EP1664906B1 | 2011-09-21 | LACAN, Pascale; CONTE, Dominique |
The invention relates to an optical lens having a temporary protective coating comprising at least one outer layer which can be degraded mechanically by means of friction or contact and which is covered with a strippable film that binds electrostatically to the outer layer. The invention is suitable for ophthalmic lenses. | ||||||
206 | HOLOGRAPHIC MULTIFOCAL LENS | EP01272674.1 | 2001-12-28 | EP1348145B1 | 2006-09-27 | ZHANG, Xiaoxiao; YE, Ming; LI, Ruolin |
The invention provides a multifocal optical lens having a holographic optical element that selectively redirects light to provide the wearer with a single image formed from a single focal power. The invention also provides a method for producing a multifocal optical lens having a holographic optical element. | ||||||
207 | HOLOGRAPHIC MULTIFOCAL LENS | EP01272674.1 | 2001-12-28 | EP1348145A2 | 2003-10-01 | ZHANG, Xiaoxiao; YE, Ming; LI, Ruolin |
The invention provides a multifocal optical lens having a holographic optical element that selectively redirects light to provide the wearer with a single image formed from a single focal power. The invention also provides a method for producing a multifocal optical lens having a holographic optical element. | ||||||
208 | DISPOSITIF DE CALES VISUELLES | EP00964300.8 | 2000-09-15 | EP1212651A1 | 2002-06-12 | Jeannin, Hubert |
The invention concerns a sight locking device for preventing motion sickness, characterised in that it consists of an impermeable, transparent or translucent tubular container (2) closed on itself, wherein are enclosed at least two substances (3; 5, 7, 8) having different states and/or masses, whereof at least one visible interface (4, 4') physically represents sight markers, when said device is positioned in the peripheral visual field of one eye or both eyes of the user. The invention is particularly and advantageously useful for producing spectacles inhibiting motion sickness. | ||||||
209 | LENSES FOR HOLOGRAPHIC GLASSES AND VARIANTS | EP99917270 | 1999-04-14 | EP1081530A4 | 2001-10-24 | GULANYAN EMIN KHACHIKOVICH |
The present invention relates to lenses for holographic glasses, wherein said lenses include a transparent base (1) that comprises, on its inner surface directed towards the user, a layer (2) of a photo-recording material containing at least one three-dimensional hologram. Behind the layer (2), a compensation layer (3) is applied on a substrate made of a transparent material (4). The compensation layer (3) selectively reflects the radiation impinging thereon at a given three-dimensional angle and within one or more spectral ranges, including at wavelengths where the diffraction efficiency of the corresponding three-dimensional hologram is maximal. The compensation layer is simultaneously permissive to the radiation which is not within the above-mentioned spectral ranges. In a particular case, the compensation layer (3) consists of a layer of a photo-recording material which is analogue to the layer (2) in which one or more reflective holograms of mirror objects are printed for said spectral ranges. | ||||||
210 | LENSES FOR HOLOGRAPHIC GLASSES AND VARIANTS | EP99917270.3 | 1999-04-14 | EP1081530A1 | 2001-03-07 | GULANYAN, Emin Khachikovich |
The present invention relates to lenses for holographic glasses wherein said lenses comprise a transparent base (1) having its inner surface, facing the user (wearer), provided with a layer (2) of recording material wherein at least one three-dimensional hologram is recorded. Disposed behind the layer (2) (as viewed from the outside of the glasses towards the wearer) is a compensation layer (3) applied to a substrate made of transparent material (4). The compensation layer (3) is made to selectively reflect radiation impinging thereon from a specified spatial angle and having wavelengths within one or more spectral ranges, including those wavelengths at which a relating three-dimensional hologram has maximum diffraction efficiency, and to transmit radiation outside said one or more spectral ranges. In a particular case, the compensation layer (3) is made as a layer of recording material, which is similar to the layer (2), in which layer (3) one or more holograms of mirror(s) is recorded. Said holographic mirrors are made to be reflective in said one or more spectral ranges. |
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211 | LUNETTES A HORIZON ARTIFICIEL | EP96901665.0 | 1996-02-08 | EP0809817A1 | 1997-12-03 | Tassier, Philippe |
A spectacles frame optionally including lenses and comprising an artificial horizon which is held in a horizontal position at all times regardless of the movement of the frame or the wearer's head. | ||||||
212 | METHOD AND OPTICAL MEANS FOR IMPROVING OR MODIFYING COLOUR VISION AND METHOD FOR MAKING SAID OPTICAL MEANS | EP93919542.0 | 1993-08-18 | EP0716758A1 | 1996-06-19 | Abraham, György; Wenzel, Gottfriedné; Szappanos, Janos |
Method and optical means for improving or modifying human colour vision by applying a colour filter with a spectral transmission τ(μ) so that it compensates, in three wavelength ranges around maximum values of spectral sensitivity curves of protos, deuteros and tritos receptors of a human eye with normal colour vision, differences between spectral sensitivity P*(μ), D*(μ), T*(μ), as determined, of corresponding receptors of the eye with colour vision to be modified and spectral sensitivity P(μ), D(μ), T(μ) of corresponding receptors of a human eye with normal or desired colour vision. The optical means may be realized as an eyeglass, a contact lens or an intraocular lens, or by any other optical implement placed between the eye and the object to be viewed. | ||||||
213 | COMPOSITE HOLOGRAPHIC ELEMENTS | EP87905250.4 | 1987-08-17 | EP0277981B1 | 1991-10-23 | HEWITT, Brian |
A composite holographic element (10) comprises a substrate (11) having on one surface (12) a relief pattern providing a holographic image when viewed in reflection, a partially reflective layer (14) facing the said surface, and a thin optically absorbent layer (13) adjacent the substrate. | ||||||
214 | Artificial eye lenses | EP82301793.4 | 1982-04-05 | EP0064812B1 | 1985-08-14 | Freeman, Michael Harold |
215 | 光学材料用重合性組成物、当該組成物から得られる光学材料およびプラスチックレンズ | JP2018528816 | 2018-02-21 | JP6408751B1 | 2018-10-17 | 小川 達矢; 古屋 政幸; 伊藤 伸介 |
本発明の光学材料用重合性組成物は、(A)下記一般式(a)で表される、2以上のアリルオキシカルボニル基を含む化合物と、(B)パーオキシケタール系ラジカル重合開始剤、パーオキシモノカーボネート系ラジカル重合開始剤およびパーオキシエステル系ラジカル重合開始剤よりなる群から選択される少なくとも1種のラジカル重合開始剤と、(C)下記一般式(c1)で表されるポリエーテル変性シロキサン化合物または下記一般式(c2)で表されるポリオール化合物から選択される改質剤と、を含む。 |
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216 | パーフルオロ(ポリ)エーテル基含有化合物を含む表面処理剤 | JP2018002594 | 2018-01-11 | JP6388086B2 | 2018-09-12 | 三橋 尚志; 能勢 雅聡; 小澤 香織; 山下 恒雄 |
217 | パーフルオロ(ポリ)エーテル基含有化合物を含む表面処理剤 | JP2018002594 | 2018-01-11 | JP2018111816A | 2018-07-19 | 三橋 尚志; 能勢 雅聡; 小澤 香織; 山下 恒雄 |
【課題】本発明は、高い光安定性、特に高い紫外線耐性を有する層を形成することのできる新規な表面処理剤を提供する。 【解決手段】パーフルオロ(ポリ)エーテル基含有シラン化合物およびパーフルオロ(ポリ)エーテル基含有化合物を含有する表面処理剤。このパーフルオロ(ポリ)エーテル基含有化合物は、ラジカル捕捉基または紫外線吸収基を分子内に有する。 【選択図】なし |
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218 | モジュール化されたヘッドマウントディスプレイデバイス及び着脱モジュール | JP2017550743 | 2015-03-27 | JP2018517316A | 2018-06-28 | チョン ソンヤ; ヤン ソンリン; リュウ ズホン |
本発明は、モジュール化されたヘッドマウントディスプレイデバイス及び着脱モジュールを提供する。該ヘッドマウントディスプレイデバイスは、マルチメディア信号を出力して表示するためのディスプレイデバイス(6)と、音声信号を出力するためのイヤーピースデバイス(7)と、ディスプレイデバイス(6)とイヤーピースデバイス(7)の接続に用いられる接続機構(8)と、を含み、接続機構はディスプレイデバイス(6)及び/又はイヤーピースデバイス(7)が接続機構(8)に取り外し可能に接続されるように構成される着脱モジュールをさらに含む。このようなヘッドマウントディスプレイデバイスの接続機構は着脱モジュールを含むので、デバイスのモジュール化を実現し、異なる使用需要に応じて都合よく分解かつ組み立てることができるため、デバイスの使用状態が多様に広がり、モジュール化を実現した速く着脱する着脱モジュールを提供する。 【選択図】図1 |
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219 | 眼鏡レンズの製造方法、眼鏡レンズ製造システム、及び眼鏡レンズ | JP2016161609 | 2016-08-22 | JP2018031802A | 2018-03-01 | 阿部 修; 小幡 三津雄 |
【課題】眼鏡レンズにおける隠しマークを眼鏡枠内にバランスよく配置し、且つ、隠しマークが欠損または脱落する可能性を著しく軽減すること。 【解決手段】眼鏡レンズの製造方法は、隠しマークMHを備える眼鏡レンズの製造方法であって、隠しマークMHの形成位置を所定位置に設定し、且つ、眼鏡レンズ製品に関する情報を示す眼鏡レンズ製品関連情報、眼鏡フレームに関する情報を示す眼鏡フレーム関連情報、装用者の処方に関する情報を示す処方関連情報及び装用者のフィッティングに関する情報を示すフィッティング関連情報から得られる少なくとも1つのパラメータに基づいて、隠しマークの形成位置の変更及び隠しマークMHの形成形態の変更うち少なくとも1つを行って、隠しマークMHを形成すること、を含む。 【選択図】図5 |
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220 | 新規なエピスルフィド化合物およびそれを含む光学材料用組成物 | JP2017509421 | 2016-03-01 | JP6245408B2 | 2017-12-13 | 西森 慶彦; 嘉村 輝雄; 堀越 裕 |