| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | AUTOMATIC FALSE PUPIL CONTACT LENS | US15083765 | 2016-03-29 | US20170285370A1 | 2017-10-05 | Terrence P. Leip |
| In one example an automatic false pupil contact lens comprises a body formed from an optically translucent material and a coating on the body formed from at least one of a photochromatic material or an electrochromatic material that, in response to an input, is to change between a first state in which the coating is optically translucent and a second state in which the coating is optically opaque in response to an input. Other examples may be described. | ||||||
| 122 | OPHTHALMIC APPARATUS WITH CORRECTIVE MERIDIANS HAVING EXTENDED TOLERANCE BAND | US15467550 | 2017-03-23 | US20170276962A1 | 2017-09-28 | Huawei Zhao |
| 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 one or more refractive angularly-varying phase members, each varying depths of focus of the apparatus so as to provide an extended tolerance to misalignments of the apparatus. Each refractive angularly-varying phase member has a center at a first meridian (e.g., the intended correction meridian) that directs light to a first point of focus (e.g., at the retina of the eye). At angular positions nearby to the first meridian, the refractive angularly-varying phase member directs light to points of focus of varying depths and nearby to the first point of focus such that rotational offsets of the multi-zonal lens body from the center of the first meridian directs light from the nearby points of focus to the first point of focus. | ||||||
| 123 | SPECTACLE LENS SUPPLY SYSTEM, PROGRAM THEREFOR, PRISM AMOUNT DETERMINATION DEVICE, PRISM AMOUNT DETERMINATION METHOD, AND METHOD FOR PRODUCING SPECTACLE LENS | US15119511 | 2015-02-19 | US20170199393A1 | 2017-07-13 | Takashi HATANAKA |
| 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 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. | ||||||
| 124 | Sonic and Ultrasonic Methods and Apparatus for Treatment of Glaucoma | US15272970 | 2016-09-22 | US20170087014A1 | 2017-03-30 | Mark W. Potter, JR.; Christopher Teng |
| Disclosed are methods and apparatus, including eyewear and a contact lens, for delivering sound energy to an eye, comprising two or more sonic or ultrasonic transducers that emit sound energy, wherein each transducer is (i) operably linked to a power source and (b) capable of emitting sound energy at more than one frequency and for a variable time period; and a positioning mechanism to position the transducers at an exterior surface of an eye so as to deliver sound energy to an internal part of the eye, for example the Schlemm's canal or trabecular meshwork. | ||||||
| 125 | WAVEFRONT GENERATION FOR OPHTHALMIC APPLICATIONS | US15354962 | 2016-11-17 | US20170065162A1 | 2017-03-09 | Theophilus Bogaert |
| Embodiments of this invention relate to the generation of wavefronts for measurements, diagnostics, and treatment planning for ophthalmic applications. In some embodiments, a wavefront generator generates light having a uniform wavefront, which is focusable on the retina of an emmetropic eye by the normal function of the emmetropic eye. In some embodiments, the wavefront generator can generate light having a custom wavefront which is not focusable on the retina of the emmetropic eye. In some embodiments, the wavefront generator can receive information relating to an optical aberration of the eye, generate a custom wavefront, and project light having this custom wavefront, which in combination with the optical aberration of the eye is focusable on the retina. | ||||||
| 126 | SPECTACLE LENS SUPPLY SYSTEM, SPECTACLE LENS SUPPLY METHOD, SPECTACLE LENS SUPPLY PROGRAM, SPECTACLE LENS RECOMMENDED TYPE PRESENTATION DEVICE, AND SPECTACLE LENS PRODUCTION METHOD | US15119629 | 2015-02-19 | US20170052389A1 | 2017-02-23 | Takashi HATANAKA |
| Provided is a spectacle lens supply system to supply a progressive power lens including a determination section to determine a size of an area of clear vision in the progressive power lens according to a level of a prescribed fixation disparity amount. The determination section selects a type having an area of clear vision same as or narrower than that of a reference progressive power lens when the prescribed fixation disparity amount is larger than or equal to a reference fixation disparity amount and selects a type having an area of clear vision same as or wider than that of the reference progressive power lens when the prescribed fixation disparity amount is smaller than the reference fixation disparity amount. | ||||||
| 127 | Wavefront generation for ophthalmic applications | US14202738 | 2014-03-10 | US09510748B2 | 2016-12-06 | Theophilus Bogaert |
| Embodiments of this invention relate to the generation of wavefronts for measurements, diagnostics, and treatment planning for ophthalmic applications. In some embodiments, a wavefront generator generates light having a uniform wavefront, which is focusable on the retina of an emmetropic eye by the normal function of the emmetropic eye. In some embodiments, the wavefront generator can generate light having a custom wavefront which is not focusable on the retina of the emmetropic eye. In some embodiments, the wavefront generator can receive information relating to an optical aberration of the eye, generate a custom wavefront, and project light having this custom wavefront, which in combination with the optical aberration of the eye is focusable on the retina. | ||||||
| 128 | GLASSES WITH PRISMATIC LENSES | US15115181 | 2015-01-26 | US20160349533A1 | 2016-12-01 | Marco GRASSI |
| An eyeglass including a first prismatic lens (2), a second prismatic lens (3) and a frame (4) configured to house the first and the second prismatic lenses (2; 3). The first and the second prismatic lenses (2; 3) are low base yoked prisms having a dioptric power, measured in prism diopters, the same for the two lenses and less than 0.25. The first and the second prismatic lenses (2; 3) are oriented in the same direction. | ||||||
| 129 | Eye aperture enhancing prosthesis and method | US14018244 | 2013-09-04 | US09414906B2 | 2016-08-16 | Ronald Blum |
| A prosthesis capable of being worn on the eye of a wearer having a convex surface and a concave surface. The prosthesis has an aperture widening zone located on the convex surface. The prosthesis widens the natural palpebral fissure (aperture) of the wearer's eye by at least 1 mm. A method of widening the natural palpebral fissure of a wearer's eye by at least 1 mm is also provided. | ||||||
| 130 | OPTICAL DEVICE FOR RESTORING EYESIGHT | US14855398 | 2015-09-16 | US20160109727A1 | 2016-04-21 | WONJONG YANG |
| Disclosed herein is an optical device for restoring eyesight, which includes a first tube configured such that a first convex lens having a first focal length is installed to an inner peripheral surface of a fore-end thereof, a second tube inserted into the first tube so as to move forward and backward within the first tube while a first concave lens having a second focal length and a second concave lens having a third focal length are installed to an inner peripheral surface of a fore-end thereof, a third tube configured such that a third concave lens having a fourth focal length and a fourth concave lens having a fifth focal length are installed to an inner peripheral surface of a fore-end thereof, a fixing unit for fixing the second tube to the third tube, and a fourth tube fixed to the fixing unit to cover the second tube. | ||||||
| 131 | Eye aperture enhancing prosthesis and method | US14509878 | 2014-10-08 | US09132005B2 | 2015-09-15 | Ronald D. Blum |
| A prosthesis capable of being worn on the eye of a wearer having a convex surface and a concave surface. The prosthesis has an aperture widening zone for widening the natural palpebral fissure of the wearer's eye. The prosthesis widens the natural palpebral fissure (aperture) of the wearer's eye by at least 1 mm. A method of widening the natural palpebral fissure of a wearer's eye by at least 1 mm is also provided. | ||||||
| 132 | Method of making and prescribing tinted lenses | US13532252 | 2012-06-25 | US09028064B2 | 2015-05-12 | David Andrew Harris |
| Methods of fabricating and prescribing lenses suitable for color blindness and dyslexia correction are disclosed. The corrective lens may be formed of an optically transparent base material, which is tinted to a desired color for correction by immersion in a colorant dye. The color tinted lens is then tinted by a neutral tint dye to render the lens observable as a regular corrective lens. Prescription of such lenses may be based on a dynamically balanced, or haploscopic, fashion of prescription that comprises selecting a first visual filter from a set of sixteen filters and a second visual filter from the remaining set of fifteen filters, the first for the dominant eye and the second for non-dominant eye. | ||||||
| 133 | Adjustable spectral transmittance eyewear | US14197719 | 2014-03-05 | US08985765B2 | 2015-03-24 | Alan W. Reichow; Jonathan I. Brown; Umar Hanif; Herb Yoo |
| Embodiments of the present invention relate to eyewear having an electrically switchable spectral transmittance lens(es). The eyewear includes a lens driver that controls the variable spectral transmittance lens(es). The lens driver is functional to alter a duration of a spectral transmittance state based on a desired frequency and/or duty cycle of the spectral transmittance state. A user may provide an input indicating the desired level of difficulty provided by the eyewear, wherein the input may indicate that the frequency, the duty cycle, or a combination of the two should be changed. As a result of changing a perceived level of difficulty presented by the eyewear, a wearer of the eyewear may train his or her visual abilities to provide a competitive advantage. The input may be received at a receiving module as a remote signal from the user or a third party. | ||||||
| 134 | EYE APERTURE ENHANCING PROSTHESIS AND METHOD | US14509878 | 2014-10-08 | US20150025626A1 | 2015-01-22 | Ronald D. Blum |
| A prosthesis capable of being worn on the eye of a wearer having a convex surface and a concave surface. The prosthesis has an aperture widening zone for widening the natural palpebral fissure of the wearer's eye. The prosthesis widens the natural palpebral fissure (aperture) of the wearer's eye by at least 1 mm. A method of widening the natural palpebral fissure of a wearer's eye by at least 1 mm is also provided. | ||||||
| 135 | OPTICAL ELEMENT FOR CORRECTING COLOR BLINDNESS | US13753451 | 2013-01-29 | US20140211447A1 | 2014-07-31 | Brett T. Harding; Sheng Li; Amane Mochizuki; Hironaka Fujii |
| Described herein are devices, compositions, and methods for improving color discernment. | ||||||
| 136 | Adjustable Spectral Transmittance Eyewear | US14197719 | 2014-03-05 | US20140185004A1 | 2014-07-03 | Alan W. Reichow; Jonathan I. Brown; Umar Hanif; Herb Yoo |
| Embodiments of the present invention relate to eyewear having an electrically switchable spectral transmittance lens(es). The eyewear includes a lens driver that controls the variable spectral transmittance lens(es). The lens driver is functional to alter a duration of a spectral transmittance state based on a desired frequency and/or duty cycle of the spectral transmittance state. A user may provide an input indicating the desired level of difficulty provided by the eyewear, wherein the input may indicate that the frequency, the duty cycle, or a combination of the two should be changed. As a result of changing a perceived level of difficulty presented by the eyewear, a wearer of the eyewear may train his or her visual abilities to provide a competitive advantage. The input may be received at a receiving module as a remote signal from the user or a third party. | ||||||
| 137 | Eyewear for reducing symptoms of computer vision syndrome | US13179941 | 2011-07-11 | US08342681B2 | 2013-01-01 | Joseph Croft; Matthew Michelsen; Robert Joyce |
| Computer eyewear for reducing the effects of Computer Vision Syndrome (CVS). In one embodiment, the eyewear comprises a frame and two lenses. In some embodiments, the frame and lenses have a wrap-around design to reduce air flow in the vicinity of the eyes. The lenses can have optical power in the range of approximately +0.5 to +2.5 diopters for reducing accommodation demands on a user's eyes when using a computer. The lenses can also include prismatic power for reducing convergence demand on a user's eyes when sitting at a computer. The lenses can also include a partially transmissive mirror coating, tinting, and anti-reflective coatings. In one embodiment, a partially transmissive mirror coating or tinting spectrally filters light to remove spectral peaks in fluorescent or incandescent lighting. | ||||||
| 138 | Telescopic spectacles | US12811380 | 2009-02-12 | US08215768B2 | 2012-07-10 | Micha Oestereich; Adi Kremer |
| Optical apparatus (20, 60) includes a spectacle frame (30, 64) configured to be worn by a user (22). A telescope (26, 62) is fixed to the spectacle frame and includes an objective (44), an eyepiece (28), and multiple optical surfaces (48, 56, 58) defining a folded optical path for providing a magnified image to an eye (40) of the user while at least one of the optical surfaces is located at least partially posterior to a coronal plane (41) located at a rear surface of the eyepiece. | ||||||
| 139 | Method for correcting vision problems | US12801357 | 2010-06-04 | US08128221B2 | 2012-03-06 | Alan H. Grant |
| A method for causing visual images on the foveas of a patient to be differentially displaced from their default position by determining an optimal amount of displacement for each eye to maximize visual acuity while maintaining binocular vision, and fabricating lenses to achieve the determined differential displacements by use of two prisms of different dioptric strength. Optical devices, including eyeglasses and contact lenses, displace the images on the foveas of a patient by an amount sufficient to mitigate problems caused by non-fully functional foveas. | ||||||
| 140 | Method for correcting vision problems | US12801357 | 2010-06-04 | US20110299029A1 | 2011-12-08 | Alan H. Grant |
| A method for causing visual images on the foveas of a patient to be differentially displaced from their default position by determining an optimal amount of displacement for each eye to maximize visual acuity while maintaining binocular vision, and fabricating lenses to achieve the determined differential displacements by use of two prisms of different dioptric strength. Optical devices, including eyeglasses and contact lenses, displace the images on the foveas of a patient by an amount sufficient to mitigate problems caused by non-fully functional foveas. | ||||||
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