| 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 | Eyeglass manufacturing method using variable index layer | EP07008046.0 | 2002-10-23 | EP1808287A3 | 2007-08-08 | 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.
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| 182 | EYEGLASS MANUFACTURING METHOD USING VARIABLE INDEX LAYER AND A LENS | EP02778641.7 | 2002-10-23 | EP1439946B1 | 2007-04-25 | 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. | ||||||
| 183 | Magnifying glass as well as a spectacle frame provided with one or more magnifying glasses | EP05077386.0 | 2005-10-17 | EP1647853A1 | 2006-04-19 | Oosterhof, Franciscus Leonardus |
The invention relates to a magnifying glass for a person having limited vision in one or both eyes, said magnifying glass comprising a lens body having a front curve for focussing light rays incident upon the lens body onto the eye. The invention further relates to a spectacle frame provided with one or two magnifying glasses according to the invention. The object of the invention is to provide a magnifying glass specifically intended for use by, among others, the group of people who suffer from the above disorders and according to the invention the lens body is arranged for focussing light rays incident on the lens body onto the parafoveal part of the fovea of the eye. In this way the affected portion of the central part of the retina (the fovea) Is spared and the patient's vision is obtained by using the outer region of the central part of the retina.
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| 184 | A SHURKIN-BERSHANSKY DEVICE FOR THE OPTICAL CORRECTION AND EXERCISE OF VISION | EP97953018.5 | 1997-12-03 | EP1011598A2 | 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. | ||||||
| 185 | Eye patch attachable to eyeglasses | US15246860 | 2016-08-25 | US10101596B1 | 2018-10-16 | Stephen M. Loner |
| An eye patch formed of a flexible, opaque material is attached to a pair of eyeglasses. The patch has an asymmetric conical shape when in repose. The patch extends from an eyeglass nose bridge around a ninety degree (90°) bend to an eyeglass temple piece and overlies a lens of the eyeglasses. At least one slit is formed in an outboard end of the patch to slidingly receive the eyeglass temple piece. An elastic strap is secured to a peripheral boundary of the patch at the inboard end of the patch. The elastic strap underlies the nose bridge so that the elastic strap captures the nose bridge. The peripheral boundary of the patch abuts a user's face in encircling relation to an eye when the patch is secured to the eyeglasses so that light is prevented from reaching the eye. | ||||||
| 186 | Method for improving visual comfort to a wearer and associated active system of vision | US14433340 | 2013-10-07 | US10042184B2 | 2018-08-07 | Thierry Bonnin; Guillaume Giraudet |
| Active vision system comprising: first and second customizable ophthalmic lenses (22) having an electrically variable occultation between substantially transparent and substantially obscured states; identification device (32) adapted for identifying whether the wearer's viewing state is in a near vision viewing state when wearing the customizable ophthalmic lenses; and processor (40) configured to: switch the electrically variable occultation of one of the customizable ophthalmic lenses (22) from the first to the second light occultation states when a near vision viewing state (NVVS) is identified by the identification device while at the same time the other lens is in the transparent state; and control the electrically variable occultation of the customizable ophthalmic lenses (22) such that they are in the first light occultation state when the wearer's viewing state is identified as being different from a near vision viewing state (NVVS) by identification device (32). | ||||||
| 187 | Altered Vision Via Streamed Optical Remapping | US15506104 | 2015-09-02 | US20180218642A1 | 2018-08-02 | Muhammad Saad SHAMIM; Suhas Surya Pilibail RAO; Ido MACHOL; Erez Lieberman AIDEN |
| Devices and methods for personalized real time optical remapping of streamed content are provided. The personalized optical remapping can correct for a wide variety of visual deficiencies or preferences by manipulating visual and spatial elements of streamed content. A device for presenting a personalized visual feed to a user includes a sensor module for detecting a visual input and providing a visual feed, a transformation module performing a computational transformation, selected according to a visual deficit or personal preference of the user, on at least a portion of the visual feed producing a personalized visual feed, and a visual display presenting the personalized visual feed to the user. | ||||||
| 188 | Functional dyed spectacle lens | US15153094 | 2014-10-30 | US10025117B2 | 2018-07-17 | Yuka Takedomi; Yuko Kawamura |
| A functional dyed lens for spectacles is obtained by dyeing at least one of the surfaces of an undyed plastic lens, and in the functional dyed lens, a dyeing density defined as a difference in luminous transmittance from the undyed plastic lens is 2% or more but 4% or less, and a difference in average transmittance from the undyed plastic lens in a wavelength region of 530 nm to 570 nm is 3% or more but 5% or less. | ||||||
| 189 | METHOD AND APPARATUS FOR MANAGING PHOTOPHOBIA AND MIGRAINE PHOTOPHOBIA | US15736555 | 2016-06-17 | US20180177976A1 | 2018-06-28 | Rami Burstein |
| Apparatus and methods for producing narrow-band radiation in the green region of the visible spectrum are described. The narrow-band radiation may be used to aid subjects experiencing photophobia. In some cases, subjects may experience a reduction in pain (e.g., migraine photophobia) when using the narrow-band radiation. | ||||||
| 190 | OPTICAL DEVICE FOR OFF-AXIS VIEWING | US15577060 | 2016-05-26 | US20180173009A1 | 2018-06-21 | Wayne H. Knox; Leonard A. Zheleznyak |
| An optical device for off-axis viewing includes a contact lens adapted for human eye wear. The contact lens includes a diffraction grating written into or on the contact lens. A peripheral light from a peripheral light source is diffracted by the diffraction grating so as to appear at about a same location as light from an ambient scene substantially in a direction of a central field of view. A wearer of the optical device for off-axis viewing sees simultaneously the peripheral light and the light from an ambient scene as superimposed at least in part over each other. A device-less method for correcting light direction from an ambient light source to a retina of a diseased or injured eye, and a remedial contact lens method for correcting light direction from an ambient light source to a retina of a diseased or injured eye are also described. | ||||||
| 191 | Wavefront generation for ophthalmic applications | US15354962 | 2016-11-17 | US09986906B2 | 2018-06-05 | 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. | ||||||
| 192 | METHODS AND DEVICES FOR OPTICAL ABERRATION CORRECTION | US15799075 | 2017-10-31 | US20180053285A1 | 2018-02-22 | FRANK JONES; MEHDI AREZOOMAND ERSHADI; JAMES BENSON BACQUE |
| 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. | ||||||
| 193 | ACCOMMODATION ASSISTING LENS | US15544740 | 2016-02-02 | US20180039096A1 | 2018-02-08 | Shunsuke Shioya; Kazuyoshi Itou; Takanori Nomura |
| 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. | ||||||
| 194 | EYEWEAR FOR TREATMENT OF VESTIBULAR MALADIES | US15181705 | 2016-06-14 | US20170357109A1 | 2017-12-14 | Patrick Slater |
| A method for treating a patient having a vestibular malady is provided. The method comprises (a) diagnosing the patient as having a vestibular malady; and (b) prescribing eyewear to the patient as a treatment of the vestibular malady, either alone or in conjunction with undertaking vestibular rehabilitation while wearing the eyewear. The eyewear (201) has a first lens (205) which extends over the field of vision of a first eye, wherein the first lens has first (207) and second (209) distinct optical regions. The eyewear imparts vision to the first eye which is characterized by a central vision having a first optical quality and a peripheral vision having a second optical quality. | ||||||
| 195 | OPHTHALMIC DEVICES, SYSTEM AND METHODS THAT IMPROVE PERIPHERAL VISION | US15491843 | 2017-04-19 | US20170296330A1 | 2017-10-19 | Robert Rosén; Theophilus Bogaert |
| The present disclosure relates to devices, systems, and methods for improving or optimizing peripheral vision. In particular, various IOL designs, as well as IOL implantation locations, are disclosed which improve or optimize peripheral vision. | ||||||
| 196 | OPHTHALMIC APPARATUS WITH CORRECTIVE MERIDIANS HAVING EXTENDED TOLERANCE BAND | US15467963 | 2017-03-23 | US20170273781A1 | 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) and associated method for their design and use. In an embodiment, an ophthalmic apparatus (e.g., a toric lens) includes one or more angularly-varying phase members comprising a diffractive or refractive structure, each varying the depths of focus of the apparatus so as to provide an extended tolerance to misalignment of the apparatus when implanted in an eye. That is, the ophthalmic apparatus establishes an extended band of operational meridian over the intended correction meridian. | ||||||
| 197 | POWER CALCULATOR FOR AN OPHTHALMIC APPARATUS WITH CORRECTIVE MERIDIANS HAVING EXTENDED TOLERANCE OR OPERATION BAND | US15467372 | 2017-03-23 | US20170273779A1 | 2017-09-28 | Huawei Zhao |
| An IOL calculator is disclosed to determine the spherical equivalent (SE) and cylinder power for toric lenses and ophthalmic apparatuses having the extended band of operational meridian, such as the rotational extended tolerant toric intraocular lens. The IOL calculator may also be used for an extended rotational tolerant toric intraocular lens, an extended depth of field intraocular lens, an extended depth of field toric intraocular lens, an extended range of vision intraocular lens, and an extended range of vision toric intraocular lens. | ||||||
| 198 | OPHTHALMIC APPARATUS WITH CORRECTIVE MERIDIANS HAVING EXTENDED TOLERANCE BAND WITH FREEFORM REFRACTIVE SURFACES | US15467786 | 2017-03-23 | US20170273778A1 | 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 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. | ||||||
| 199 | Optical device for restoring eyesight | US14855398 | 2015-09-16 | US09726908B2 | 2017-08-08 | 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. | ||||||
| 200 | EYEWEAR FOR REDUCING SYMPTOMS OF COMPUTER VISION SYNDROME | US15210731 | 2016-07-14 | US20170160564A1 | 2017-06-08 | 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. | ||||||
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