| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 261 | Method for manufacturing an opthalmic lens using a photoactive material | EP07301632.1 | 2007-12-06 | EP2067612A1 | 2009-06-10 | Rouault de Coligny, Pierre; Bonnin, Thierry |
Method for manufacturing an ophthalmic lens (101, 102, 103, 104) comprising: |
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| 262 | METHOD OF OPTICAL TREATMENT | EP05792006 | 2005-09-29 | EP1799166A4 | 2008-01-23 | TO CHI HO; LAM SIU YIN; TSE YAN YIN |
| A method for treating progression of a refractive disorder in a human eye. The method includes the steps of producing a first image on a retina of the human eye and producing a second image to generate a defocus. | ||||||
| 263 | APPARATUS AND METHOD OF CORRECTING HIGHER-ORDER ABERRATIONS OF THE HUMAN EYE | EP03784878.5 | 2003-07-30 | EP1535104A1 | 2005-06-01 | DREHER, Andreas, W.; LAI, Shui, T.; BRUNS, Donald, G. |
| The wavefront aberrator is applicable to correct aberrations of the human eye. In one embodiment, the aberrator device comprises a pair of transparent lenses separated by a layer of curable resin comprising monomers and polymerization initiators. By controlling the extent of its curing, this monomer layer provides an adjustable index of refraction profile across the layer. Curing of the resin may be made by exposure to light, such as ultraviolet light. By controlling the extent of light exposure across the surface of the curable resin, for example, a particular and unique refractive index profile can be produced. | ||||||
| 264 | EYEGLASS MANUFACTURING METHOD USING VARIABLE INDEX LAYER | EP02778641.7 | 2002-10-23 | EP1439946A2 | 2004-07-28 | DREHER, Andreas, W. |
| An Eyeglass Manufacturing Method Using Epoxy Aberrator includes two lenses (102, 104) with a variable index material (103), such as epoxy, sandwiched in between. The epoxy is then cured to different indexes of refraction that provide precise corrections for the patient's wavefront aberrations. The present invention further provides a method to produce an eyeglass that corrects higher order aberrations, such as those that occur when retinal tissue is damaged due to glaucoma or macular degeneration. The manufacturing method allows for many different applications including, but not limited to, supervision and transition lenses. | ||||||
| 265 | EYEWEAR FOR RELIEF OF COMPUTER VISION SYNDROME | EP02731240.4 | 2002-04-03 | EP1377872A1 | 2004-01-07 | KHULUSI, Basimah |
| Eyewear directed to relieving eye-related problems caused by glare and reflections from light sources interfering with images on a computer screen generally characterized as CVS. The eyewear including a housing surrounding a person's face having a forehead portion, an opaque interior surface and an exterior surface. The housing formed to exhibit a spaced relation to the person's face defining an interior space to accommodate a pair of prescription lenses and a prescription lens frame. The housing further including a horizontal slot and a centrally disposed nose bridge portion, and integral left and right temple arm respectively extending from the housing formed to exhibit a spaced relation to the person's head and defining an interior space to accommodate a right and left temple arm of a pair of prescription glasses. | ||||||
| 266 | IMPROVING COLOUR DISCRIMINATION | EP97945957.5 | 1997-11-27 | EP0943117B1 | 2003-03-26 | Harris, David Andrew |
| Colour discrimination may be improved by fitting to a patient's eye a plastics contact lens having a tinted central circular section. The optimum tint is determined by testing the effects of a sequence of differently tinted lens on a patient. | ||||||
| 267 | METHOD OF TRAINING AND REHABILITATING BRAIN FUNCTION USING HEMI-LENSES | EP98964294 | 1998-12-17 | EP1087692A4 | 2001-09-19 | COMPREHENSIVE NEUROPSYCHOLOGIC |
| A method of rehabilitation or training of targeted portions of the brain in which hemi-lenses (50) having semi-opaque (51, 53) radial segments selectively blind portions of the visual processing areas of the brain to force visual processing to a particular portion of the brain which is thereby stimulated. Such rehabilitation consists of having the patient perform visual and non-visual tasks constructed to activate processing in the targeted portion of the brain. The hemi-lenses (50) may be employed in a series of gradually increased translucency to allow the patient's visual system to adapt in stages to the rehabilitated balance between intact visual processing and relearned visual processing. | ||||||
| 268 | A SHURKIN-BERSHANSKY DEVICE FOR THE OPTICAL CORRECTION AND EXERCISE OF VISION | EP97953018 | 1997-12-03 | EP1011598A4 | 2000-06-28 | BERSHANSKY MIKHAIL IOSIFOVICH; SHURKIN VIKTOR IVANOVICH |
| A device for the optical correction and exercise of vision comprises a frame (1) securely fastened with respect to the human eyes, and optical elements (2 and 3). Said optical elements have transparent zones with different optical characteristics which are interconnected by transition lines and mounted to ensure transition of the visual axis of a corresponding eye at any level from one zone to another on the horizontal. The difference in values of corresponding optical characteristics of the zones lies within the limits between objective sensitivity of the eye and the human's subjective sensitivity to the change in a given optical characteristic. A number of embodiments of the device is proposed in accordance with the invention. A preferred embodiment of the device provides its accomplishment in the form of spectacles. In all cases, image sharpness and fusion are achieved at the expense of a "trimming" of the eye muscles, which in a multiple repetition has an exercising effect on ocular muscles and the eyes as a whole. As a result of using this device with optical elements of a proposed structure, a continuous process of exercising the accommodation-convergent apparatus is carried out, which favors an efficient prophylaxis and treatment of functional visual disorders and makes it possible to use the proposed device as a highly effective means in everyday life of humans having both disturbed and normal vision, irrespective of the type of their activities. | ||||||
| 269 | IMPROVING COLOUR DISCRIMINATION | EP97945957.0 | 1997-11-27 | EP0943117A1 | 1999-09-22 | Harris, David Andrew |
| Colour discrimination may be improved by fitting to a patient's eye a plastics contact lens having a tinted central circular section. The optimum tint is determined by testing the effects of a sequence of differently tinted lens on a patient. | ||||||
| 270 | HIGH-MAGNIFICATION TELEPHOTO SPECTACLES FOR AGE-RELATED MACULAR DEGENERATION | EP92915412.8 | 1992-07-09 | EP0598749B1 | 1998-09-09 | PORTNEY, Valdemar; KOZIOL, Jeffrey, E. |
| A ophthalmic lens system comprising an intraocular lens (13a) adapted for implantation in the eye (15a) and spectacles (11a). The intraocular lens (13a) has a negative IOL portion. The spectacles (11a) include a positive lens system for directing light toward the negative lens portion of the intraocular lens (13a). The positive lens system includes a positive lens (29) and a negative lens (31), with the negative lens (31) being located posteriorly of the positive lens (29). | ||||||
| 271 | Low vision eye glasses | EP88308217.4 | 1988-09-05 | EP0357848B1 | 1994-08-03 | Parker, William Seal |
| 272 | PARTIALLY OCCLUDED CONTACT LENS FOR TREATING VISUAL AND/OR BRAIN DISORDER | EP92922429.0 | 1992-11-09 | EP0565678A1 | 1993-10-20 | LOFGREN NISSER, Gunilla |
| Dispositif auxiliaire destiné au traitement des troubles visuels et/ou cérébraux. Il comporte un élément optique adapté pour être porté par une personne humaine et muni d'une partie occluse, ledit élément optique comportant au moins un verre de contact (10) pourvu d'un dispositif d'orientation (18) lui conférant une orientation sensiblement stable par rapport à l'oeil, et ladite partie occluse (12) étant dimensionnée de telle manière qu'elle occlue au moins 50 % du champ visuel. | ||||||
| 273 | Dispositif pour le dépistage et le traitement des troubles de la vision binoculaire | EP86401955.9 | 1986-09-05 | EP0216686A1 | 1987-04-01 | Grandière, Brigitte; BRIOT INTERNATIONAL |
Une monture (1) à moyens (3) de maintien devant les yeux est pourvue d'un moyen (6) de support et de guidage en déplacement d'un élément opaque (7) tel qu'un volet déplaçable entre une position centrale laissant libre la vision binoculaire et deux positions latérales empêchant la vision par l'un ou l'autre oeil selon l'inclinaison de la tête. |
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| 274 | OPHTHALMIC APPARATUS WITH CORRECTIVE MERIDIANS HAVING EXTENDED TOLERANCE BAND BY MODIFYING REFRACTIVE POWERS IN UNIFORM MERIDIAN DISTRIBUTION | EP17715875.5 | 2017-03-23 | EP3432829A1 | 2019-01-30 | ZHAO, Huawei |
| The embodiments disclosed herein include improved toric lenses and other ophthalmic apparatuses (including, for example, contact lens, intraocular lenses (IOLs), and the like) that includes a freeform-polynomial surface area that establishes a band of operational meridian for the apparatus to an intended correction meridian. The freeform-polynomial surface area is defined by a mathematical expression comprising a combination of one or more polynomial expressions (e.g., Chebyshev-based polynomial expression, Zernike-based polynomial expression, etc.) each having a distinct complex orders. | ||||||
| 275 | METHODS AND DEVICES FOR OPTICAL ABERRATION CORRECTION | EP16782410 | 2016-04-22 | EP3286599A1 | 2018-02-28 | JONES FRANK; ERSHADI MEHDI AREZOOMAND; BACQUE JAMES BENSON |
| Near-to-eye displays within head mounted devices offer both users with and without visual impairments enhanced visual experiences either by improving or augmenting their visual perception. Unless the user directly views the display without intermediate optical elements then the designer must consider chromatic as well as other aberrations. Within the prior art the optical train is either complex through additional corrective elements adding to weight, cost, and size or through image processing. However, real time applications with mobile users require low latency to avoid physical side effects. Accordingly, it would be beneficial to provide near-to-eye displays mitigating these distortions and chromatic aberrations through pre-distortion based electronic processing techniques in conjunction with design optimization of the optical train with low weight, low volume, low complexity, and low cost. Further, it would be beneficial to exploit consumer grade low cost graphics processing units rather than application specific circuits. | ||||||
| 276 | FOCAL POINT ADJUSTMENT AUXILIARY LENS | EP16746639.0 | 2016-02-02 | EP3255477A1 | 2017-12-13 | SHIOYA, Shunsuke; ITOU, Kazuyoshi; NOMURA, Takanori |
An accommodation assisting lens comprises a lens main body, and dots that are isotropically and uniformly disposed in the lens main body, and in a visible light region, a difference in average transmittance between a dot portion based on the dots, and a non-dot portion other than the dot portion is 2% to 50% inclusive. |
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| 277 | SYSTEM, METHOD AND COMPUTER PROGRAM FOR IMPROVING THE VISION OF PEOPLE WITH A MACULAR DISORDER | EP16382211.7 | 2016-05-12 | EP3244252A1 | 2017-11-15 | OÑATE GUTIERREZ, Roberto; MABE ALVAREZ, Jon; PALOMINO MUÑOZ, Antonio |
A system of assistance for a person with a macular disorder in one eye, wherein the system is integrated in or coupled to a pair of spectacles (5), comprising: a camera (1) to capture an image (13) situated in the field of view (12) of said person and to measure the amount of ambient light; some processing means (6) to process said image (13), wherein said processing means (6) comprise software means for implementing image-processing algorithms so as to obtain a retouched virtual image (22) from said image (13); a display (3) in front of the eye affected by a macular disorder; a projection system (2) to receive said retouched virtual image (22) and to project (32) the retouched image (22) onto said display (3), so that said individual sees said retouched image projected (32) instead of the real image (12) present in the person's field of view; and a sheet (4) of variable opacity disposed next to the display (3), the display (3) being situated between the sheet (4) and the eye (13), the sheet (4) being configured so as to modulate its opacity in accordance with the ambient light and thus improve the contrast of the image projected (32) on the display (3).
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| 278 | SPECTACLE LENS SUPPLY SYSTEM, PROGRAM THEREFOR, PRISM AMOUNT DETERMINATION DEVICE, PRISM AMOUNT DETERMINATION METHOD, AND METHOD FOR PRODUCING SPECTACLE LENS | EP15751955 | 2015-02-19 | EP3109692A4 | 2017-10-11 | HATANAKA TAKASHI |
| An aligning prism amount determination device to determine an aligning prism amount for correcting fixation disparity of a spectacle wearer, having the fixation disparity, includes a determiner (11) to determine an aligning prism amount to be uniformly included in the spectacle lens for correcting the fixation disparity, based on a first aligning prism amount obtained by measuring an aligning prism amount of the spectacle wearer at an eye examination distance corresponding to a first distance, a second aligning prism amount obtained by measurement at an eye examination distance corresponding to a second distance shorter than the first distance, and information used for allocation of the first aligning prism amount and the second aligning prism amount, within a prism prescription range between the first aligning prism amount and the second aligning prism amount. | ||||||
| 279 | AN OPTICAL DEVICE | EP15860040.3 | 2015-09-02 | EP3195027A2 | 2017-07-26 | BARRAU, Coralie; VILLETTE, Thierry |
| An optical device including an optical substrate providing with an optical filter configured to inhibit transmission of harmful UV and/or blue light wherein the optical device is further configured to allow retinal exposure of an eye to at least one selected range of wavelengths of light in the visible spectrum of 460 nm to 560 nm, preferably of 480 nm to 520 nm. | ||||||
| 280 | OPTICAL FILTER | EP15306022.3 | 2015-06-29 | EP3112910A1 | 2017-01-04 | MARCK, Christelle; POPHILLAT, Olivier; ZHANG, Xiaohong |
Ophthalmic lens comprising a substrate and at least one organic multilayer optical filter having a first reflection band with a FWHM W 1 comprised in the range of [780nm-2000nm], a second reflection band with a FWHM Wn comprised in the range of [260nm-460nm], and Wn/W1 ratio is smaller than or equal to 0.5.
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