子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Holography multifocal lens | JP2002554773 | 2001-12-28 | JP2004522992A | 2004-07-29 | イエ,ミン; ツァン,シャオシャオ; リ,ルオリン |
| 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. | ||||||
| 182 | Complex holographic multifocal lens | JP2000526842 | 1998-12-24 | JP2002500381A | 2002-01-08 | スウィーニー,ドナルド; ツァン,シャオシャオ; チャールズ バンヤイ,ウィリアム; フォークト,ユルゲン |
| The invention provides an optical lens having a combination volume holographic optical element that provides a diffractive optical power. The optical lens has a programmed activating angle in which the holographic optical element provides a diffractive optical power. The invention also provides a method for producing a multilayer holographic element suitable for the optical lens. | ||||||
| 183 | Holographic ophthalmic lens | JP2000526354 | 1998-12-24 | JP2001526980A | 2001-12-25 | ツァン,シャオシャオ |
| (57)【要約】 本発明は、光学矯正レンズを製造する方法を提供する。 該方法は、重合可能な光学材料を眼科用レンズの成形型又はホログラフィック記録媒体に導入する工程と、該成形型又は記録媒体中の重合可能な材料を電磁波に暴露する工程とを有し、電磁波が、重合可能な材料を重合させる間又は記録媒体を露光させる間に干渉縞パターンを形成し、それによって該パターンをレンズに記録して体積回折格子構造を形成し、それによって体積ホログラフィック素子を形成し、該パターンが、眼の上、中又は前面に配置されたとき、該前面カーブに進入する光を回折させて非正視状態を矯正する。 | ||||||
| 184 | Spectacles for vdt operation | JP3088390 | 1990-02-09 | JPH03233511A | 1991-10-17 | AKASHI YUKIO; TAKEUCHI TETSUJI |
| PURPOSE: To shut off the incident light on operator's eyes from a front illuminating appliance and to prevent uncomfortable glares by providing shielding materials which shield the visual field of ≥25° elevation angle in the standard operating position of the VDT operator on the operator's spectacles. CONSTITUTION: The function to shut off the incident light on the operator's eyes from the front illuminating appliance in the range of ≥25° elevation angle of the operator is added to the spectacles. Namely, the brightness and ease of viewing which are as equally good as heretofore are assured with a VDT screen, original and keyboard and the uncomfortable glares are prevented by using the shielding material 1 which shut off only the visual field of ≥25° elevation angle in the standard operating position. The influence of the uncomfortable glares is entirely eliminated at all in this way and further, there are no things to shut off the visual field of the range smaller than 25° elevation angle; therefore, the spectacles 3 to allow the good conduction of the VDT operation are obtd. COPYRIGHT: (C)1991,JPO&Japio | ||||||
| 185 | Shutter spectacles | JP3851788 | 1988-02-23 | JPH01213618A | 1989-08-28 | KIMURA MASANOBU; MARUYAMA EIICHI |
| PURPOSE:To observe a stereoscopic image with correct colors by arranging correcting means such as magnesium group color filters having reverse spectral characteristics against the spectral characteristics of twist nematic TN liquid crystal shutters adjacently to the shutters. CONSTITUTION:A pair of right and left magnesium group color filters 8a, 8b for correcting spectral characteristics are arranged in front of a pair of right and left TN liquid crystal shutters 7a, 7b fitted to a shutter spectacles body 6. Since the spectral characteristics of the shutters 7 is deflected to a green group in the approximate characteristics of a CRT of a color TV, the shutters 7 and the filters 8, but the filters 8 have characteristics for absorbing colors in a green range, colors in respective wavelengths can be almost uniformed in the spectral characteristics obtained by synthesizing respective spectral characteristics. Consequently, colors reproduced on the CRT are almost equal to the colors of the original image. | ||||||
| 186 | JPS6145201B2 - | JP20953982 | 1982-11-30 | JPS6145201B2 | 1986-10-07 | KUBOTA SATOSHI; SANO YOSHIO; KAWASHIMA JUNJI; MOGAMI TAKAO |
| 187 | Fashion spectacles for vdt work | JP17928984 | 1984-08-30 | JPS6157923A | 1986-03-25 | SUGIMOTO HARUE |
| PURPOSE:To reduce the fatigue of eyes in VDT work and to make spectacles fashionable by holding a couple of polarizing lenses at longer distance from a face than that of normal spectacles, and fitting one of the polarizing lenses attachably and detachably and linking it with a spectacle body through a chain or cord, etc. CONSTITUTION:The 1st polarizing lens 1 and the 2nd polarizing lens 2 are supported on frames 3 and 5 at longer distance from the face than that of normal spectacles. The 2nd polarizing lens 2 is disengaged from magnets 9 and 10, etc., when not necessary and suspended from beside the frame 3 through a chain, or cord 8, etc., and pads are higher than those of normal spectacles. The 2nd polarizing lenses 2 are put on the 1st polarizing lenses 1 during VDT work, and intense light emitted from a fluorescent body is relieved through the polarizing operation of those two polarizing lenses; when the eyes are directed downward for keyboard operation, natural light which is not passed through the spectacles enter the eyes because the polarizing lenses 1 and 2 are supported at distance from the face, so the operation is easily performed. The 2nd polarizing lenses while disengaged and suspended through the chain 8 serve as accessories. | ||||||
| 188 | Ritsutaishashinnohohooyobisochi | JP18580483 | 1983-10-04 | JPS59204023A | 1984-11-19 | TERII DEII BEAADO; ERITSUKU AARU GIYAREN |
| 189 | Spectacle lens | JP2038583 | 1983-02-09 | JPS59146001A | 1984-08-21 | KUBOTA SATOSHI; MOGAMI TAKAO; KAWASHIMA JIYUNJI; SANO YOSHIO |
| PURPOSE:To improve water resistance and to provide substantial resistance to scratching after processing for preventing reflection by providing an inorg. reflection preventive layer via a hardened coating layer composed of a partially hydrolyzed substance and a multifunctional epoxy compd. on a specific plastic lens. CONSTITUTION:The coating layer formed by using total 100pts.wt. consisting of the partially hydrolyzed substance of a mixture composed of 42-67pts.wt. the compd. expressed by SiX4 (X is alkoxy of <=C4) and 13-44pts.wt. the compd. expressed by the formula (R; is an org. group having epoxy, gamma-methacyloxypropyl; R<2> is H, an org. group of 1-4C, Y is halogen except fluorine or alkoxy, l, m are such a number of >=0 at which l+m is 1, 2) and 14-32pts.wt. a multifunctional epoxy compd. as an essential component and curing thermally the same with 0.01-0.0pts.wt. ammonium perchlorate as a curing catalyst is applied on the surface of a lens formed of diethylene glycol bis-allylcarbonate and further a single or multilayered reflection preventive layer consisting of an inorg. material is provided thereon. | ||||||
| 190 | Fashioned spectacles | JP11025382 | 1982-06-25 | JPS59130A | 1984-01-05 | TAJIMA KENJI |
| PURPOSE:To realize a pair of fashioned spectacles which makes the eyes look as beautiful as possible and is not necessary to be exchanged with ordinary spectacles when driving a car at night, by giving the same effect as a veil by decorating the lens of the spectacles with a pattern. CONSTITUTION:A pattern 3 of a veil, etc., is given to the lens 2 of a pair of fashioned spectacles 1 with lines of several microns wide and when the fashioned spectacles are worn, the same effect as a veil is displayed to a person wearing the spectacles and his or her eyes are made to look very beautiful. Even when a person drives a car at night while wearing the fashioned spectacles, he or she can drive the car with no danger in traffic safety and, therefore, it is not necessary to exchange the fashion spectacles with ordinary spectacles. | ||||||
| 191 | Spectacle lens | JP3436782 | 1982-03-04 | JPS58150901A | 1983-09-07 | TAKAYAMA HIDETAKA |
| PURPOSE:To obtain a spectacle lens having an excellent vapor-deposited film as a protective film by laminating a vapor-deposited film of a molybdenum-contg. mixture of titanium dioxide with silicon dioxide on a lens substrate. CONSTITUTION:A vapor-deposited film of an Mo-contg. mixture of SiO2 with TiO2 is formed on a lens substrate of plastics or the like directly or with other layer in-between using a material consisting essentially of 10-90wt% SiO2 with a lower refractive index, 10-80wt% TiO2 with a higher refractive index and 0.5-50wt% Mo as a vapor depositing source. The vapor-deposited film is formed as a protective film or an antireflection film. Mo incorporated in the material as the vapor depositing source prevents the material from sputtering fine granules during the vapor deposition, and a spectacle lens having an excellent vapor- deposited film as a protective film is obtd. | ||||||
| 192 | Stereoscopic spectacles for viewing motion picture or the like | JP15787779 | 1979-12-05 | JPS5680015A | 1981-07-01 | HIRANO KICHINOSUKE |
| PURPOSE: To enable the flat video projected by normal means to be stereoscopically viewed by the simple constitution holding in angle changeable state a pair of right and left refracting lenses to a spectacle frame. CONSTITUTION: Pins 4a, 4b are respectively provided to the top and bottom of lens frames 3a, 3b holding refracting lenses 2a, 2b. The refracting lenses 2a, 2b are held to a spectacle frame 1 angle changeably by way of these pins 4a, 4b. When the user operates the control head 8 of a sector gear shape pivotally fitted to near the end part of the frame 1, the interclocking arms 5a, 5b coupled to the lens frames 3a, 3b via the pins 4a, 4b move cooperatively by way of interclocking gears 7a, 7b, and since this causes the right and left refracting lenses 2a, 2b to tilt symmetrically on the right and left, the light past the refracting lenses 2a, 2b enters the right and left eyes, respectively. COPYRIGHT: (C)1981,JPO&Japio | ||||||
| 193 | METHOD FOR PRODUCING LENSES AND FRAMES WITH PERSONALISED DESIGN AND REMOTE BEVELLING OF CORRECTIVE LENSES, AND OPTICAL DEVICE FOR MORPHOLOGICAL MEASUREMENT FOR PERFORMING SAID METHOD | EP17743770.4 | 2017-01-09 | EP3410397A1 | 2018-12-05 | PÉREZ ORTEGA, Antonio Javier; CANTÓ VAÑÓ, Javier; GONZÁLEZ MERINO, Ramón |
The invention relates to a method for producing lenses and frames, with personalised design and remote bevelling of corrective lenses, and to an optical device for morphological measurement for performing said method. The method comprises the steps of: obtaining 3D morphological data; generating a 3D virtual model of a frame in a photographic image; capturing data, viewing and modifying frames; adjusting size and design; generating a data file for the frame in a compatible format for production by means of a 3D printer; obtaining a 3D image of an existing frame; capturing measurement data of the frame; and generating a file compatible with an edger. The device comprises: a 3D scanner (2); a photographic camera (3); a CPU (4); a tactile screen (11) and/or keyboard on a fixed structure (5) such as a column or a fixed structure secured to a wall (52) and having an L-shaped arm (91) with a rotary part (92) that rotates 360° and a longitudinal guide (93) for vertical movement. |
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| 194 | DEVICE AND PRODUCTION METHOD FOR SAME | EP17756539.7 | 2017-02-22 | EP3395375A1 | 2018-10-31 | KITAGAWA, Rumiko; NAKAMURA, Masataka |
Disclosed is a device including a substrate and a gel layer made of a hydrophilic polymer having a hydroxyl group, wherein the gel layer is fixed to at least a part on a surface of the substrate in a thickness of 1 nm to 3,000 nm and an elastic modulus of a device surface is 6.00 × 103 Pa or less. The present invention provides a device in which a surface of a substrate is hydrophilized by a simple treatment in a cost-effective manner. |
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| 195 | ARTICLE D OPTIQUE REVÊTU D'UN REVÊTEMENT ANTIREFLET OU RÉFLÉCHISSANT COMPRENANT UNE COUCHE ÉLECTRIQUEMENT CONDUCTRICE À BASE D OXYDE D ÉTAIN ET PROCÉDÉ DE FABRICATION | EP17150894.8 | 2010-03-26 | EP3190436B1 | 2018-09-12 | CONTE, Dominique; PASSARD, Delphine; SCHERER, Karin; SIRJEAN, Jean-Louis |
| 196 | EPISULFIDE COMPOUND AND OPTICAL MATERIAL COMPOSITION INCLUDING THE SAME | EP16772040.8 | 2016-03-01 | EP3228652B1 | 2018-08-29 | KARIYAZONO Kazuki; AOKI Takashi |
| A preferred embodiment of the present invention can provide an optical material composition that includes an episulfide compound that is represented by formula (1) and a polymerizable compound that is different from the episulfide compound that is represented by formula (1). The optical material composition makes it possible to stably and inexpensively store the polymerizable compound and to achieve an optical material that has a favorable hue and that has favorable lightfastness and transparency. (In the formula, m is an integer from 0 to 4, and n is an integer from 0 to 2.) | ||||||
| 197 | CHANNEL FORMATION | EP15838305 | 2015-09-03 | EP3169217A4 | 2018-02-14 | BARROWS DANIEL PATRICK; ETZKORN JAMES |
| A body-mountable device may be formed of a polymeric material. A molding form can define a cavity and polymeric material can be formed using the mold to create a device shaped in accordance with the cavity. Electronics disposed on a substrate can be encapsulated within the polymeric material by forming a first layer of polymeric material, positioning the substrate on the first layer, and then forming a second layer of polymeric material over the substrate. A channel can expose a sensor disposed on the substrate. The channel may be formed while molding the second layer of polymeric material over the substrate. The molding form can include a protrusion that extends toward the sensor. A sacrificial sealant material can be applied to the sensor or the protrusion to create a seal between the protrusion and the sensor. The polymeric material forms around the sealed protrusion to create the channel. | ||||||
| 198 | METHOD FOR PRODUCING CURED PRODUCT OF EPISULFIDE-BASED RESIN | EP15782270 | 2015-04-20 | EP3135710A4 | 2017-12-06 | NAMIKI KOUSUKE; FUSE SAWAKO; KOSHIISHI EIJI; FURUKAWA KIKUO; HORIKOSHI HIROSHI |
| The present invention can provide a method for producing a cured product of an episulfide-based resin, the method having: (A) a step for obtaining a composition for a resin by mixing compound (a), compound (b) and a polymerization catalyst; (B) a step for pouring the composition for a resin into a mold; and (C) a step in which, by increasing the temperature of a heating medium, the composition for a resin is polymerized in the heating medium that contains a liquid having a thermal conductivity of 0.2 W/m·K or higher, or in a shower of the heating medium. The maximum temperature of the heating medium in step (C) is 55 to 110°C. (a) A compound which has two episulfide groups per molecule and which is represented by formula (1): wherein m represents an integer from 0 to 4 and n represents an integer from 0 to 2 (b) A compound having one or more thiol groups per molecule. | ||||||
| 199 | NOVEL EPISULFIDE COMPOUND AND OPTICAL MATERIAL COMPOSITION CONTAINING SAME | EP16772041.6 | 2016-03-01 | EP3208268A1 | 2017-08-23 | NISHIMORI, Yoshihiko; KAMURA, Teruo; HORIKOSHI, Hiroshi |
According to the present invention, it is possible to provide an optical material composition that contains an episulfide compound represented by formula (1) and an episulfide compound represented by formula (2). According to this optical material composition, it is possible to suppress a reduction in the yield rate caused by molding defects, and possible to obtain an optical material having excellent dyeability.
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| 200 | A METAL OXIDE DISPERSION AND USES THEREOF | EP14802791.5 | 2014-11-12 | EP3074213A1 | 2016-10-05 | BREITKOPF, Richard Charles; PANICKER, Rahul |
| The present invention provides a metal oxide dispersion comprises a metal oxide, a millbase and a dispersant. The dispersant in the metal oxide is selected from a group consisting of a phosphoric acid polyester copolymer, a trimethoxysilane compound, a triethoxysilanes compound, dimethylamino ethyl methacrylate (DMAEMA) and a combination thereof, and the dispersion is substantially free of water. The metal oxide dispersion of the invention is useful for manufacturing an inkjet ink to provide a high-quality color image on a contact lens or a mold so as to produce a colored contact lens. | ||||||
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