| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 241 | JPS4998647A - | JP435374 | 1973-12-28 | JPS4998647A | 1974-09-18 | |
| 242 | GLASSES FOR AMBLYOPIA TREATMENT | PCT/US2013067371 | 2013-10-30 | WO2014070814A3 | 2014-09-25 | URBAJS NEJC; OMRY BEN-EZRA; TOMELJAK ANDREJ; VRHOVNIK TJAŠA; JAVH UROS; REPE JURE; MEKINDA MATIC; PLEGER MARJAN; GAZVODA DOMEN; STEPAN LUKA; FUCHS VILIJEM; DROR AMI; MATTINGLY TODD |
| A system for treating Lazy Eye that includes shutter glasses. During treatment, one of the shutters of the glasses are controllably cycled between and open and closed state. | ||||||
| 243 | ADDITIONAL EYEGLASS LENSES, SET OF ADDITIONAL EYEGLASS LENSES, EYEGLASSES AND METHOD FOR MANUFACTURING AND TRANSPORTING ADDITIONAL EYEGLASS LENSES | PCT/DE2008000612 | 2008-04-11 | WO2008128509A2 | 2008-10-30 | LEISTRITZ CHRISTIAN |
| The invention relates to additional eyeglass lenses, a set of additional eyeglass lenses, a method for manufacturing additional eyeglass lenses and a method for transporting additional eyeglass lenses. According to the invention, the lenses are planar and flexible such that they can be deformed parallel to a curved surface of an eyeglass lens. During attachment, the lenses thus cling in a more or less perfect manner to the eyeglass frame and eyeglass lenses. The additional eyeglass lenses are attached to the eyeglasses by means of attachment means such as adhesive tapes, clips or clamping jaws. | ||||||
| 244 | ADJUSTABLE FOCUS LENSES | PCT/US2006010315 | 2006-03-21 | WO2006102365A3 | 2006-11-23 | SPIVEY BRETT |
| A lens unit with two lens elements each having special surfaces such that an adjustment of the position of one of the two lens elements relative to the other in a direction generally perpendicular to a viewing direction changes the focusing power of the lens unit. In preferred embodiments two lens units are mounted in a frame to provide eyeglasses with adjustable focus. Several frame designs are described. In preferred embodiments two lens units, each lens unit having two lens elements are mounted in a frame to provide eyeglasses with adjustable focus. Several designs are described. Some designs provide for movement side to side movement of the lens elements relative to each other. In other designs the relative motion is up and down. A simple technique is a thumbscrew adjustment that is operated by the wearer. Another design is based on finger force against a friction force. In some preferred embodiments separate frames holding the lens elements pivot about pivot points on the earpiece of a support frame. In other designs two rear lens elements are mounted in a support frame and the front lens elements are mounted in a separate frame that pivots about a point on the earpiece of the support frame. Another design includes a torsion bar assures that the movements of each lens element in one of the lens units is the same as the movements of the lens elements in the other lens unit. Techniques for automatic focusing of the lenses are also disclosed. Techniques for automatic focusing of the lenses are also disclosed. | ||||||
| 245 | MAGNETICALLY ATTACHED AUXILIARY LENS FOR SPECTACLES | PCT/US2005001460 | 2005-01-14 | WO2005081747A2 | 2005-09-09 | KURTIN STEPHEN |
| A magnetically affixed attachment for spectacles, including a preferably non-magnetic eyewire having front and rear regions. An auxiliary lens is held in the front region, and the rear region contains a plurality of micromagnets. Each micromagnet, preferably of the rare earth type, is located on the inner per'iphery of the rear region, and is thereby protected from physical abuse. The inner periphery of said eyewire has the saure shape, but preferably is slightly larger than the outer periphery of the spectacle rim to which it is intended to attach, hence allowïng maximum contact between each micromagnet and the spectacle rim, which rim is fabricated of, or includes, magnetic material. | ||||||
| 246 | SUNGLASSES ATTACHED TO EYEGLASSES USING REPELLING MAGNETIC FORCE | PCT/US0324801 | 2003-08-27 | WO2004021070A2 | 2004-03-11 | SPIEGEL JAY H |
| Sunglasses are designed to be removably attached to existing eyeglasses using magnetic repelling force. The existing eyeglasses (10) may have lenses (12, 14) to which are attached side extensions (21, 23) to which are attached ear pieces (29, 31). On the inboard side of the lenses, a bridge (15) interconnects them. The sunglasses (40) have a bridge (45) to which is attached sunglass lense's (42, 44). The attachment means consists of a rearwardly facing arm (46, 47) on the sunglasses to which a magnet (49, 51) is affixed and magnets (26, 28) affixed on the eyeglasses in alignment with the magnets on the sunglasses. At each side of the eyeglasses, brackets (22, 24) are provided. The magnets are arranged, on each side of the eyeglasses and sunglasses, respectively, so that when the sunglasses are placed into adjacency with the eyeglasses, like poles of the adjacent magnets face one another to create a repelling force that forces the magnets on the sunglasses rearwardly away from the magnets on the eyeglass frames, and into a recess formed by the cross-section of the brackets. The repelling force between the magnet pairs retains the magnets carried by the sunglasses within the recesses in the L-shaped brackets to maintain the sunglasses mounted on the eyeglasses. | ||||||
| 247 | A REMOVABLE LENS FRAME MOUNTED TO AN EYEWEAR PLATFORM | PCT/US0235947 | 2002-11-08 | WO03040809A2 | 2003-05-15 | ZELMAN GARY M |
| Eyeglasses having a lens frame removably attached to an eyewear platform using different attachment devices such as magnets, clips, snap connections or other attachment devices that provide effective resistance from said lens frame from becoming involuntarily detached from said eyewear platform. This eyewear allows the user to quickly and easily change lenses or sunglasses. | ||||||
| 248 | VERRE DE LUNETTES COMPRENANT UN VERRE DE BASE ET UNE STRUCTURE MINCE | EP11801792.0 | 2011-11-29 | EP2652545B1 | 2018-09-12 | BOVET, Christian; CANO, Jean-Paul; FAYOLLE, Romain; SAUGEY, Antony |
| 249 | VIRTUAL IMAGE DISPLAY WITH CURVED LIGHT PATH | EP15825900.2 | 2015-12-31 | EP3243097A1 | 2017-11-15 | TRAVIS, Adrian; KOLLIN, Joel S.; GEORGIOU, Andreas |
| A display includes a projector (46) configured to provide light of a virtual image, a waveguide (42) into which the light of the virtual image is injected at an injection angle by the projector, and a combiner (50) disposed along the waveguide and configured to redirect the light of the virtual image. The waveguide is configured to emit the light at a point established by the injection angle. The combiner is further configured to allow ambient light from beyond the waveguide to pass through the combiner. The waveguide constrains the light of the virtual image through total internal reflection along a curved path (52) for the light between the projector and the combiner. | ||||||
| 250 | MYOPIC SUNGLASSES | EP17161409.2 | 2017-03-16 | EP3220189A1 | 2017-09-20 | Wang, Daomin |
A pair of sunglasses comprises, a glasses underframe 1 having myopic lenses 4, and a sunglasses face frame 2 having tinted lenses7. The myopic glasses underframe 1 is provided with a first groove 8 in which a first magnet 11 is mounted. The sunglasses face frame 2 is provided with a second groove in which a second magnet 12 is mounted. In use, the sunglasses face frame 2 is mountable to the myopic glasses underframe 1 by the attractive force between the first magnet 11 and the second magnet 12. The myopic sunglasses provided by the present application are convenient to wear, firm in structure and not easily damaged or scratched.
|
||||||
| 251 | HEADS UP DISPLAY SYSTEMS FOR GLASSES | EP17164274.7 | 2013-06-10 | EP3206076A1 | 2017-08-16 | ABDOLLAHI, Hamid; LEUNG, Raymond C. M. |
A Heads-Up Display (HUD) system for mounting on a pair of glasses comprises a power module for providing electrical power removably mountable to one side of a lens assembly of the glasses, an electronics module connectable to receive electrical power from the power module, the electronics module removably mountable to an opposite side of the lens assembly of the glasses; and a display housing mounted on a display arm extending from the electronics module to a position within a field of vision of a user wearing the glasses. A pair of glasses adapted to receive a HUD system comprises a lens assembly providing one or more electrically conductive paths from a first side thereof to a second side thereof.
|
||||||
| 252 | AUDIO HEADSET | EP14756225.0 | 2014-08-19 | EP3039884B1 | 2017-05-31 | WALLACE, Eric M. |
| 253 | ATTACHABLE MAGNETIC EYEGLASSES AND METHOD OF MAKING SAME | EP16196652.8 | 2006-07-18 | EP3151057A1 | 2017-04-05 | ZELAZOWSKI, Dennis G. |
A supplemental lens unit is used on or in combination with a pair of eyeglasses. Lens unit comprises a bridge having at least one prong on each of two ends. Two supplemental lenses are connected by holes positioned near a nasal portion thereof through which prongs protrude. At least one magnet is positioned in peripheral cavities drilled into primary and supplemental lenses. Magnets in each supplemental lens and the corresponding primary lens are of opposite polarity such that lenses are magnetically and removably attached. An example of a method of manufacturing the supplemental lens unit is also disclosed.
|
||||||
| 254 | ADHESIVE OPTICAL FILM TO CONVERT AN EYEGLASS LENS TO A PROGRESSIVE LENS | EP15793232.8 | 2015-05-07 | EP3143459A1 | 2017-03-22 | Arieli, Yoel; Engler, Haim; Erlichman, Amir |
| The present invention describes an apparatus for converting a single-focal lens to become a multifocal or progressive lens. The conversion process comprises adhering a prescribed corrective optical film to a single-focal lens, whereby the corrective optical film converts the single-focal lens to become a multifocal or progressive lens. | ||||||
| 255 | ATTACHABLE MAGNETIC EYEGLASSES AND ITS MANUFACTURING | EP06787446.1 | 2006-07-18 | EP1971896B1 | 2016-11-02 | ZELAZOWSKI, Dennis G. |
| 256 | SCHUTZBRILLE MIT OPTISCH KORRIGIERENDEN GLÄSERN | EP14830789.5 | 2014-10-31 | EP3066520A1 | 2016-09-14 | Bergner, Walter |
| The problem addressed by the invention is that of creating safety glasses that can be equipped with optically corrective lenses in a simple and economical manner. This problem is solved by means of safety glasses having integrated correction lenses, wherein connecting means in the style of retaining frames are arranged in or on the safety glasses in order to accommodate the correction lenses, comprising adapter rings (1) as compensating bodies between the curvature of the outer contour of the safety glasses and the curvature of the inserted correction lenses, wherein the correction lenses of different power are matched to the adapter rings (1) in a uniformly accurately fitting manner at the periphery of the correction lenses in the curvature and shape of the correction lenses and different powers of correction lenses can be inserted into the adapter rings (1) in the space between the safety glasses and the inner curvature (2) of the adapter rings (1), wherein the adapter rings (1) are thicker in the nasal region and taper temporally, approximately in a wedge shape. | ||||||
| 257 | APPARATUS AND METHOD FOR FITTING HEAD MOUNTED VISION AUGMENTATION SYSTEMS | EP13866694 | 2013-12-30 | EP2939065A4 | 2016-08-10 | HILKES ROBERT G; JONES FRANK; RANKIN KEVIN |
| A head worn display can be designed with an integrated camera for obtaining an image of a scene, transmitting the obtained image to a processor, modification of the image in substantially real time by the processor, and displaying the modified image on a display device worn by the individual. According to embodiments of the invention various methods are provided for adjusting the position of the displayed video in the horizontal left/right, vertical up/down, and horizontal in/out, and angular up/down dimensions relative to the individual's eyes. | ||||||
| 258 | EYEGLASS SYSTEM AND METHOD OF ENGAGEMENT | EP14846598.2 | 2014-09-16 | EP3047330A1 | 2016-07-27 | Rattelade, Benoit M. |
| An eyeglass system including primary glasses and detachably engageable auxiliary glasses. The auxiliary glasses include a first and second auxiliary lens connected together by a bridge. Each lens has an exterior surface, an interior surface, and a peripheral edge extending between the interior and exterior surfaces. An aperture is defined in each of the lenses and this aperture extends between the interior and exterior surfaces, and originates in the peripheral edge and extends for a distance into the lens. A connector is engaged in the aperture in each of the lenses and this connector detachably engages the primary glasses. Preferably, the aperture is keyhole-shaped and the connector includes a boss that is a complementary keyhole shape. The connector may be provided with a magnet that is attracted to a magnet embedded in a lens of the primary glasses. | ||||||
| 259 | VARIABLE-POWER LENS | EP13724611.2 | 2013-05-24 | EP2956818A1 | 2015-12-23 | NISPER, Jon; STEVENS, Robert, Edward |
| A variable-power lens comprises first and second lens elements one behind the other along an optical axis of the lens. Each element has opposed planar and curved surfaces such that the thickness of each element in a direction parallel to the optical axis varies in a direction transverse to the optical axis. The elements are relatively moveable in the transverse direction, whereby the power of the lens may be varied. The elements are arranged such that the curved surface of the first element is adjacent the second element and the planar surface of the first element bears a diffractive pattern. | ||||||
| 260 | DISPLAY DEVICE | EP13751475 | 2013-02-12 | EP2819401A4 | 2015-10-07 | MIYAGAWA MAKOTO |
| There is provided a doing apparatus including a display device which is mounted for use on a face of a user, the display device including a display panel which is disposed in front of eyes of the user and on which an image to be visually recognized by the user is projected, a connecting portion to which a plate-like member disposed between the eyes of the user and the display panel is connected, and a slide portion configured to fix the plate-like member between the eyes of the user and the display panel by being disposed in a predetermined initial position and to be slidable in a predetermined direction from the initial position, the plate-like member being connected to the connecting portion. | ||||||
QQ群二维码
意见反馈
意见反馈