| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | 具有光焦度梯度的镜片 | CN97197910.3 | 1997-09-08 | CN1230261A | 1999-09-29 | A·古普塔; R·D·布鲁姆 |
| 一种渐变的镜片(10)具有光学预型件(30),其中通过在表面上形成离散的球面部分(20)改变光学预型件(30)表面的曲率半径。再把薄的中间层(40)涂敷在形成的光学预型件表面上,所述中间层的折叠率不同于光学预型件(30)的折射率。然后具有薄的中间层(40)的光学预型件(30)铸上恢复光学制品(10)的曲面的上层树脂层(60)。每一个球面部分(50)由球面部分(20)与上层树脂层(60)外表面的相应部分限定,每一个球面部分(20)改变相邻球面部分(50)的球面光焦度大约0.03至0.05D。 | ||||||
| 162 | 一种滤光装置 | CN95103352.2 | 1995-04-12 | CN1120170A | 1996-04-10 | 多门尼科·奥尔齐; E·菲龙 |
| 包括至少两个滤光器元件的滤光装置及其制作方法。滤光器元件包含一透明衬底和一通常包含至少两层叠合的光学薄膜的光学涂层。该涂层界定第一图样区和接界第一区的第二围绕区。第一区有与第二区基本相同的透光度特性并在至少一部分可见光谱范围内有不同的光反射比特性。当从该滤光装置一侧观看时,可明显看出第一区与第二区之间的区别而当从该滤光装置反面看时,根本看不出这种区别。因此,仅从滤光装置一侧可见到彩色图样或广告等标识。 | ||||||
| 163 | 多焦点双折射透镜系统 | CN88107271 | 1988-09-24 | CN1035564A | 1989-09-13 | 沃纳·J·菲阿拉 |
| 本发明叙述了一种多焦点双折射透镜系统,并同该透镜系统作为检眼透镜(包括眼内的、接触型和眼镜型),以及作为光学仪器和光学装置(其中包括摄影机,望远镜、显微镜、复印机、摄谱仪等)的应用结合在一起。 | ||||||
| 164 | 眼镜片 | CN201520324612.6 | 2015-05-20 | CN204790214U | 2015-11-18 | C·马克 |
| 一种眼镜片,该眼镜片包括一个基片和一个牢固地紧固到所述基片的弯曲面上的功能膜,所述功能膜被配置成在其初始扁平的状态下对预设波长带进行滤波。在该眼镜片中,在镜片的中心观察到最大滤波所在的波长与在镜片的有用区域的周边观察到最大滤波所在的波长相差小于5%。 | ||||||
| 165 | 眼镜片及防困光学器件 | CN201521108421.2 | 2015-12-28 | CN205787429U | 2016-12-07 | N·迈特尔; D·帕萨尔德; M·特希耶尔斯 |
| 本实用新型涉及一种眼镜片及防困光学器件。其中,该眼镜片包括具有背面和正面的基底,以及至少一个外部干涉涂层,该至少一个干涉涂层是这样使得它使能够选择性地反射到达该背面的光,其中对于在450nm与490nm之间范围内波长的局部最大反射值为至少10%。 | ||||||
| 166 | SELF-HEALING TRANSPARENT POLYMER COMPOSITIONS CONTAINING CONDUCTIVE COLLOIDS | PCT/IB2013002624 | 2013-09-03 | WO2015033182A8 | 2016-04-14 | ZHENG HAIPENG |
| Described is a thiol-ene composition that includes a resinous mixture of at least a first monomer and at least a second monomer, in which the first monomer is a polyfunctional allyl monomer and the second monomer is a polyfunctional thiol and the molar ratio of the first monomer to the second monomer is about 60:40 to about 80:20. Said composition further includes conductive colloidal particles in an amount between about 4 wt% and about 7 wt% of the total composition. When cured, a formed composition offers self-healing properties and resistance to abrasions and scratches that exceed the levels found in comparative thiol-enes that either lack the addition of the conductive colloidal particles and/or have a less effective ratio of first monomer to second monomer. | ||||||
| 167 | MULTIPLE ENERGIZATION ELEMENTS IN STACKED INTEGRATED COMPONENT DEVICES | PCT/US2013023097 | 2013-01-25 | WO2013112803A3 | 2013-10-10 | PUGH RANDALL B; FLITSCH FREDERICK A; OTTS DANIEL B; RIALL JAMES DANIEL; TONER ADAM |
| This invention provides a stacked integrated component device with multiple energization elements comprising: a first layer comprising a first surface, and a second layer comprising a second surface, wherein at least a portion of the first surface lays above at least a portion of the second surface; at least one electrical connection between an electrical contact on the first surface and an electrical contact on the second surface; at least one electrical transistor, wherein the electrical transistor(s) are comprised in the stacked integrated component device; at least a first and a second discrete energization elements, wherein the discrete energization elements are comprised in either or both of the first and second layers; and self-test circuitry comprising a sensing element configured to detect current flowing through the energization elements, the self-test circuitry being configured to determine if one of the energization elements is causing an excessive current draw condition. | ||||||
| 168 | MULTIFOCAL LENS HAVING A PROGRESSIVE OPTICAL POWER REGION AND A DISCONTINUITY | PCT/US2008058930 | 2008-03-31 | WO2008121975A4 | 2009-01-22 | BLUM RONALD D; KOKONASKI WILLIAM; IYER VENKATRAMANI S; HADDOCK JOSHUA N; SHUPNICK MARK-MATTISON |
| Embodiments of the present invention relate to a multifocal lens having a diffractive optical power region and a progressive optical power region. Embodiments of the present invention provide for the proper alignment and positioning of each of these regions, the amount of optical power provided by each of the regions, the optical design of the progressive optical power region, and the size and shape of each of the regions. The combination of these design parameters allows for an optical design having less unwanted astigmatism and distortion as well as both a wider channel width and a shorter channel length compared to conventional PALs. Embodiments of the present invention may also provide a new, inventive far-intermediate distance zone and may further provide for increased vertical stability of vision within a zone of the lens. | ||||||
| 169 | OPHTHALMIC SYSTEM COMBINING OPHTHALMIC COMPONENTS WITH BLUE LIGHT WAVELENGTH BLOCKING AND COLOR-BALANCING FUNCTIONALITIES | PCT/US2007006748 | 2007-03-19 | WO2007109202A3 | 2008-11-06 | ISHAK ANDREW; HADDOCK JOSHUA N; KOKONASKI WILLIAM; DUSTON DWIGHT; IYER VENKATRAMANI S; BLUM RONALD D |
| Embodiments of the present invention relate to an ophthalmic system that performs effective blue blocking for an ophthalmic lens while at the same time providing a cosmetically attractive product, normal or acceptable color perception for a user, and a high level of transmitted light for good visual acuity. | ||||||
| 170 | MULTI-LAYERED MULTIFOCAL LENS WITH BLENDED REFRACTIVE INDEX | PCT/US2007022574 | 2007-10-25 | WO2008051578A3 | 2008-06-26 | VOLK DONALD A |
| The lens of the present invention relates to multifocal spectacle lenses, including bifocal and trifocal lenses, with improved cosmetic appearance, optical performance and wide visual field. The lens comprises a plurality of axially layered and bonded lens sections of continuous curvature at least one of which has a changing refractive index incorporating a refractive index blend area oriented transverse to a meridian of the lens. The blend eliminates visibility of the joining area of adjacent portions of generally constant refractive index and the abrupt magnification shift and image jump typical of segmented multifocal lenses. The areas of generally constant refractive index provide the refractive powers for corresponding discrete vision portions of the lens. The other layer(s) of the lens incorporates a constant or similarly changing refractive index. | ||||||
| 171 | METHODS FOR IMPROVING THE HYDROPHILICITY OF CONTACT LENSES AND CONTACT LENSES HAVING THE SAME | PCT/US2006040610 | 2006-10-17 | WO2007053297A3 | 2007-10-04 | BENRASHID RAMEZAN; LEGERTON JEROME A; DAHI ALI |
| contact lenses manufactured using a gas permeable material with improved hydrophilicity. A method for improving the hydrophilicity of the contact lens includes providing a contact lens comprising a gas permeable contact lens material and exposing the material to a treatment solution comprising a chemical agent under conditions that are effective to significantly reduce the contact angle of the contact lens for a period of at least about two months. A contact lens manufactured using this method includes a substantially rigid portion comprising a polymeric material, the polymeric material comprising a hydrophilic surface having a contact angle of about 65 degrees or less. | ||||||
| 172 | PROTECTIVE EYEWEAR | PCT/US2004044041 | 2004-12-30 | WO2005065406A8 | 2007-07-05 | FISHBAUGH BRENDA B |
| An eye protector includes a UV protective film and has adhesive located at the ends of the major axis of the film. The film is sufficiently flexible that it can be shaped into a cane with an oblong base, whereby when the device is applied to a user's eye with its major axis aligned with the major axis of the eye, the adhesive is positioned such that it holds the device to the user's eye at opposite edges of the eye keeping the adhesive from interfering with the user's eyelid, which is particularly troublesome for women using eye-shadow. Methods for manufacturing and merchandising the eye protector are also disclosed. | ||||||
| 173 | TRANSPARENT OPTICAL COMPONENT WITH CELLS SEPARATED BY WALLS | PCT/IB2006003267 | 2006-07-13 | WO2007029117A3 | 2007-05-03 | BALLET JEROME; BOVET CHRISTIAN; CANO JEAN-PAUL; MATHIEU GILLES |
| A transparent optical component comprises a set of cells (15) juxtaposed on a surface of the component. Each cell encloses a determined substance so as to endow the component with particular optical characteristics, and two neighbouring cells are separated by a wall (18). Some walls are not straight at the surface of the component, so that the light diffracted by the walls does not form any luminous glint or any flashing. In particular, the walls can be curved or made up of straight segments disposed end-to-end. | ||||||
| 174 | MIRROR-COATED LENS | PCT/JP2015056855 | 2015-03-09 | WO2015137282A9 | 2015-12-30 | IWASAKI EISAKU; ADACHI MAKOTO |
| Provided is a mirror-coated lens having high transmissivity, the mirror-coated lens allowing flare and ghosting to be suppressed. A mirror-coated lens provided with: a lens base material; a functional layer (C1) providing a low-refractive-index layer, a high-refractive-index layer, and a metal layer on the front surface of the lens base material; and a functional layer (C2) providing a low-refractive-index layer and a high-refractive-index layer on the back surface of the lens material; wherein the luminous reflectance on the front-surface side is 3-30%, the transmissivity of the eyeglass lens is 55-80%, and the luminous reflectance on the back-surface side is 0.1-9%. | ||||||
| 175 | CURVED CORRECTIVE LENSES CONFIGURED TO DECODE THREE-DIMENSIONAL CONTENT | PCT/US2010035166 | 2010-05-17 | WO2010132897A3 | 2011-03-03 | JOHNSON DAVID A; PRITTS JAMES |
| Curved corrective lens configured to decode three dimensional content. The corrective lens may include a wafer formed of a high efficiency polarizer material layer over a lamination layer over an adhesion layer over a retardation layer, and a lens material to which the wafer is integrated and into which a prescription is ground. Photochromic materials may also be used to provide a self-darkening feature. | ||||||
| 176 | DUAL-FILTER OPHTHALMIC LENS TO REDUCE RISK OF MACULAR DEGENERATION | PCT/US2009002104 | 2009-04-03 | WO2009123754A3 | 2010-01-07 | ISHAK ANDREW |
| An improved dual-filter lens for protective eyewear that combines a first filter for blocking essentially 100% of UV light, and second filter for filtering blue light. The first filter may comprise a multi-layered dielectric mirror layer (14) or Rugate filter (50), and the second filter may comprise dye-impregnated lens layer(s) (16, 18) or Rugate filter (50). The first filter blocks essentially 100% of UV light, while the second filter establishes an increasing transmission profile that cuts on sharply at approximately 415 nm, and establishes an increasing transmission profile between approximately 415 nm to about 475 nm. The cut-on slope rises approximately 0.15% in transmissivity for every nanometer of increasing wavelength change, with a maximum filtering effect within the 440-465 nm range. These dual filters provide a balanced light transmission profile that reduces harmful light transmission and prevents macular degeneration, cataracts and other ocular injuries, while still preserving visual acuity. | ||||||
| 177 | MULTIPLE LAYER MULTIFOCAL COMPOSITE LENS | PCT/US2008086459 | 2008-12-11 | WO2009079341A8 | 2009-11-05 | BLUM RONALD D; KOKONASKI WILLIAM; HADDOCK JOSHUA N; IYER VENKATRAMANI S; MATTISON-SHUPNICK MARK |
| Aspects of the present invention provide multiple-layer (multi-layer) composite lenses comprising two or more materials and methods for making the same. A multi-layer composite lens of the present invention can use multiple surfaces (internal or external) to form optical elements that can contribute to a total desired add power. The multiple contributing optical elements can be aligned so as to be in optical communication to form multiple stable vision zones to enhance optical performance and the vision experience of the wearer. Distributing the total desired add power across multiple appropriately aligned optical elements that are in optical communication with one another can reduce the total distortion of the lens, minimize the number of optical discontinuities introduced, can reduce optical power jump as experienced by the wearer's eye when traversing any discontinuity, and can reduce the visibility of any introduced optical discontinuity as perceived by an observer looking at the wearer. | ||||||
| 178 | A METHOD AND A SYSTEM FOR PROTECTION OF RETINA FROM LIGHT- INDUCED DAMAGE | PCT/IL2008001002 | 2008-07-20 | WO2009013737A3 | 2009-07-16 | SHEHADEH NAIM; PERLMAN IDO |
| The present applications describes, inter alia, a retinal light management system that allows for removal of dangerous wavelengths of light while controlling the intensity of the remaining light that is allowed to pass to a user's eyes. In one embodiment, the system involves a pair of glasses that include filters that can be modified in the presence of light to reduce total light intensity reaching a diabetic's eyes. | ||||||
| 179 | MULTIFOCAL LENS HAVING A PROGRESSIVE OPTICAL POWER REGION AND A DISCONTINUITY | PCT/US2008058930 | 2008-03-31 | WO2008121975A3 | 2008-11-27 | BLUM RONALD D; KOKONASKI WILLIAM; IYER VENKATRAMANI S; HADDOCK JOSHUA N; SHUPNICK MARK-MATTISON |
| Embodiments of the present invention relate to a multifocal lens having a diffractive optical power region and a progressive optical power region. Embodiments of the present invention provide for the proper alignment and positioning of each of these regions, the amount of optical power provided by each of the regions, the optical design of the progressive optical power region, and the size and shape of each of the regions. The combination of these design parameters allows for an optical design having less unwanted astigmatism and distortion as well as both a wider channel width and a shorter channel length compared to conventional PALs. Embodiments of the present invention may also provide a new, inventive far-intermediate distance zone and may further provide for increased vertical stability of vision within a zone of the lens. | ||||||
| 180 | PROTECTIVE EYEWEAR | PCT/US2004044041 | 2004-12-30 | WO2005065406A3 | 2006-03-02 | FISHBAUGH BRENDA B |
| An eye protector includes a UV protective film and has adhesive located at the ends of the major axis of the film. The film is sufficiently flexible that it can be shaped into a cane with an oblong base, whereby when the device is applied to a user's eye with its major axis aligned with the major axis of the eye, the adhesive is positioned such that it holds the device to the user's eye at opposite edges of the eye keeping the adhesive from interfering with the user's eyelid, which is particularly troublesome for women using eye-shadow. Methods for manufacturing and merchandising the eye protector are also disclosed. | ||||||
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