子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | PRODUCT COMPRISING A FLEXIBLE OPHTALMIC LENS, AND METHOD FOR MOUNTING SUCH A FLEXIBLE OPHTALMIC LENS ON AN EYEGLASSES LENS | US13319416 | 2010-04-19 | US20120086908A1 | 2012-04-12 | Pierre Rouault de Coligny |
| A product (30) for optical use and a method of using the product, which includes at least two splittable superposed layers, namely a transparent and flexible optical layer (31) suitable for sticking onto a lens of an eyeglass frame, and a first packaging layer (35) for packaging the optical layer and presenting stiffness greater than the stiffness of the optical layer so as to enable the product to be machined via a conventional appliance for shaping eyeglass lenses. | ||||||
| 82 | System and method for protecting eye glass arms during hair dye process, and manufacturing apparatus and method | US12426925 | 2009-04-20 | US08092008B2 | 2012-01-10 | Philip J. Goldschmiedt |
| A system for protecting eye glass frames during a hair dye, coloring, or highlighting process is described. The system comprises a support layer, a pair of gloves laminated onto the support layer, and a pair of eyeglass arm protectors laminated onto the support layer. Each eyeglass arm protector is formed as a sleeve having an open end. An apparatus and method are also disclosed for manufacturing sections of a support layer material, each section having a pair of gloves and a pair of eyeglass arm protectors laminated thereto. | ||||||
| 83 | SYSTEM AND METHOD FOR PROTECTING EYE GLASS ARMS DURING HAIR DYE PROCESS, AND MANUFACTURING APPARATUS AND METHOD | US12426925 | 2009-04-20 | US20100265454A1 | 2010-10-21 | Philip J. GOLDSCHMIEDT |
| A system for protecting eye glass frames during a hair dye, coloring, or highlighting process is described. The system comprises a support layer, a pair of gloves laminated onto the support layer, and a pair of eyeglass arm protectors laminated onto the support layer. Each eyeglass arm protector is formed as a sleeve having an open end. An apparatus and method are also disclosed for manufacturing sections of a support layer material, each section having a pair of gloves and a pair of eyeglass arm protectors laminated thereto. | ||||||
| 84 | Protective temple covering | US12244072 | 2008-10-02 | US07708400B2 | 2010-05-04 | Marilyn Lee Coleman; William James Coleman |
| Disclosed are systems and methods for manufacturing sleeves, a sleeve dispenser, and a method of manufacturing inexpensive, throwaway sleeves that may be used to protect temples from chemicals, germs, bacteria, and the like. Sleeves may be inexpensively manufactured using a single inexpensive raw material as well as an inexpensive manufacturing process in which no waste material is produced. Furthermore, sleeves may be produced as a compact roll of sleeves to accommodate unobtrusive placement in areas with limited space, thereby facilitating distribution in space-limited facilities such as hair salons, spas, optometrist or ophthalmologist offices, sunglass shops, and the like. In some embodiments, the sleeves include latitudinal and longitudinal perforations that facilitate removal of pairs of sleeves from the sleeve roll and removal of each of the pair of sleeves from each other. After separation, a sleeve aperture is passed over the temple until it is fully covered and protected. | ||||||
| 85 | PROTECTIVE TEMPLE COVERING | US12244072 | 2008-10-02 | US20090027613A1 | 2009-01-29 | Marilyn Lee Coleman; William James Coleman |
| Disclosed are systems and methods for manufacturing sleeves, a sleeve dispenser, and a method of manufacturing inexpensive, throwaway sleeves that may be used to protect temples from chemicals, germs, bacteria, and the like. Sleeves may be inexpensively manufactured using a single inexpensive raw material as well as an inexpensive manufacturing process in which no waste material is produced. Furthermore, sleeves may be produced as a compact roll of sleeves to accommodate unobtrusive placement in areas with limited space, thereby facilitating distribution in space-limited facilities such as hair salons, spas, optometrist or ophthalmologist offices, sunglass shops, and the like. In some embodiments, the sleeves include latitudinal and longitudinal perforations that facilitate removal of pairs of sleeves from the sleeve roll and removal of each of the pair of sleeves from each other. After separation, a sleeve aperture is passed over the temple until it is fully covered and protected. | ||||||
| 86 | Comfortable ophthalmic device and methods of its production | US11351907 | 2006-02-10 | US20070010595A1 | 2007-01-11 | Kevin McCabe; Robert Steffen; Helene Aguilar; W. Martin; Susan Neadle; Ann-Marie Meyers; Douglas Vanderlaan; Dominic Gourd; Kristy Canavan; Gregory Hill |
| This invention relates to comfortable ophthalmic devices and methods of producing such devices. | ||||||
| 87 | Chamber for hydrating contact lenses | US510341 | 1990-04-17 | US5094609A | 1992-03-10 | Ture Kindt-Larsen |
| Male and female members for contact lenses where either member is able to hold the contact lens as it moves from station to station during the hydration process. The female member fits together with the male member forming a chamber. Each of the members contains a line centrally located so that both surfaces of the contact lens are flushed during the hydration process, and drainage takes place radially on the outside of the mated male and female chamber members. These members may be produced on a frame with a plurality of members, usually eight to a frame, to allow ease of processing. Full automation is possible, and complete and positive lens control during any step of the process through the packaging step is achieved. | ||||||
| 88 | Method and apparatus for heating eyeglass frames | US664534 | 1976-03-08 | US4054376A | 1977-10-18 | Richard C. Wareham |
| A method and apparatus for heating articles, such as eyeglass frames, includes a bed of heat retentive beads supported above a plenum chamber by a mesh or screen. Heated air is delivered to the plenum chamber at low velocity and high volume for flowing upwardly through the bed for heating the same. The air is directed through the phenum chamber by bodies which act as baffles as well as a heat sink. | ||||||
| 89 | Device for heating thermoplastic eyeglass frames | US743286 | 1976-11-19 | US4052592A | 1977-10-04 | Edward A. Ebert |
| A device for heating a thermoplastic eyeglass frame having a rim and bridge portion and a temple portion, includes a housing having a pair of spaced infrared heat radiating surfaces mounted therein. The surfaces form an open-ended channel therebetween for receiving one of the eyeglass frame portions while permitting the other of said frame portions to remain out of range of the heat radiating surfaces. The heat radiating surfaces comprise spaced external surfaces on a heating block having a heating element embedded therein. The front radiating surface is larger than the rim and bridge portion of the frames while the rear radiating surface is smaller than the rim and bridge portion, for allowing the temple portions of the frames to extend beyond the rear radiating surface without exposure to that radiation. The rear radiating surface is small enough to fit between the temples of the smallest eyeglass frames in use but have their ends formed to radiate infrared rays in a diverging conformation to reach out and meet with the radiation of the larger front radiator, to thus accommodate radiation of and heating of any size eyeglass frames from the largest to the smallest in use. | ||||||
| 90 | Clamp for eyeglass frames | US3588236D | 1969-11-20 | US3588236A | 1971-06-28 | MOLLER JOSEPH G |
| A SPRING CLAMP FOR TEMPORARY ATTACHMENT TO THE FRAME OF EYEGLASSES. THE JAWS OF THE CLAMP HAVE INWARDLY FACING PADS WHICH TEND TO BEND THE FRAME SO THAT THE ATTACHED TEMPLES MOVE TOWARD EACH OTHER.
|
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| 91 | Sizing device for eyeglass-rims | US28388819 | 1919-03-20 | US1327330A | 1920-01-06 | KLINE CLARENCE A |
| 92 | METHODS AND SYSTEMS FOR MEASURING HUMAN FACES AND EYEGLASS FRAMES | US15372676 | 2016-12-08 | US20180164609A1 | 2018-06-14 | Junzhong Liang |
| Methods and systems for making measurements for eyeglass frames worn by human subjects include capturing, using a first digital camera module, a plurality of images of a head of a tested subject wearing an eyeglass frame. The plurality of images comprises a front view image and a side view image of a face of the tested subject. A second camera module is used to monitor a top view of the head. A computer module is used to process the front view image and the side view image. The front view image is used to determine a pupillary distance and a segment height, and the side view image is used to determine a vertex distance and a pantoscopic tilt. | ||||||
| 93 | SPECTACLE LENS MANUFACTURING SYSTEM | US15856645 | 2017-12-28 | US20180133987A1 | 2018-05-17 | Hiroaki WATANABE; Atsushi NAGAO; Hisashi IKAWA; Shingo ONO; Hiroshi UENO |
| A spectacle lens manufacturing system includes resin material filling means which fills a lens mold with a lens material (heat-curable resin material), the lens mold includes a rear lens mold having a front surface that defines a rear surface of a spectacle lens, the rear lens mold has a rear lens mold base body, a three-dimensional printer which adds a aspherical surface addition portion to a front surface of the rear lens mold base body is provided, and a front surface of the rear lens mold is the front surface of the rear lens mold base body, to which the aspherical surface addition portion is added. | ||||||
| 94 | Simulation device | US14403701 | 2013-04-23 | US09967555B2 | 2018-05-08 | Hua Qi; Hidetoshi Nishimura |
| There is provided a simulation device for virtually displaying an image to be viewed through a spectacle lens by a wearer of a spectacle lens, including: an imaging camera configured to perform imaging in a visual field of the wearer; a depth sensor configured to acquire a depth image in the same view angle as an imaging result obtained by the imaging camera; a data acquisition unit configured to acquire lens data of the spectacle lens; an image creation unit configured to create a simulation image on which a view of an image to be viewed through the spectacle lens is reflected, by applying image processing to the imaging result obtained by the imaging camera, based on the depth image and the lens data; and an image displayer configured to display and output the simulation image as an image to be viewed through the spectacle lens. | ||||||
| 95 | SPECTACLE WEARING PARAMETER MEASUREMENT SYSTEM, MEASUREMENT PROGRAM, MEASUREMENT METHOD THEREOF, AND MANUFACTURING METHOD OF SPECTACLE LENS | US15547953 | 2016-03-10 | US20180031868A1 | 2018-02-01 | Nobuyuki TADOKORO; Naoya HIRONO; Masaaki MATSUSHIMA |
| To perform measurement in which a load on a subject is reduced. To provide a spectacle wearing parameter measurement system including: an information processing unit configured to associate a size of an appearance of at least a part of actual spectacles with a size of an appearance of at least a part of each of the spectacles in an imaging result of imaging a subject wearing the actual spectacles as an imaging target, and obtain a spectacle wearing parameter from the imaging result and the related art of the system. | ||||||
| 96 | Substitute Packaging to a Prep Pad in a Form of an Encapsulated Pellet in Such a Way That the Use of it Will Result in a Fast, Compact, Convenient and Efficient Alternate to the Use of a Prep Pad | US15728260 | 2017-10-09 | US20180028699A1 | 2018-02-01 | Hirouye Teshome |
| When using a Prep Pad that contains a solution soaked with alcohol, adhesive or patch remover, or any other kind of antibacterial agent, the act of operating it while trivial for one time use can quickly become inefficient, mundane and time consuming. The invention packs multiple, but single use encapsulated Pellets inside a cylindrical refill apparatus. The Pellet is made of soft material and it may be soaked or un-soaked. The refill apparatus is then inserted into a cylindrical pen like structure that automatically peels the Pellet when operated. The result is that in a few pen like clicks, an operator, using a single hand, can quickly get ready to cleanse or apply a Pellet onto a surface. An operator can easily store capacity for multiple applications in a pen pocket. The single hand use, quickness to readiness and compact easy storage makes the invention ideal alternative to a Prep Pad like use. | ||||||
| 97 | DEVIATION-PREVENTING COATING MATERIAL | US15314775 | 2015-05-27 | US20170198161A1 | 2017-07-13 | Atsushi KATO; Kaname HASE |
| [Problem to be Solved]A displacement prevention coating agent is provided which can prevent a displacement in lens processing, which is soluble in water and which exhibits a transparent appearance at least after being cured.[Solution] There is provided a displacement prevention coating agent with which the front and rear surfaces of a lens are coated so that when cutting processing is performed on an end surface of the lens where, for example, a water-repellent coat layer is formed as a membrane such that the end surface has a shape corresponding to a frame, a holding position of the front and rear surfaces of the lens held by a chuck device is prevented from being displaced, where the displacement prevention coating agent is formed of an aqueous solution whose main components are a hydrophilic resin, a surfactant having a perfluoro group and an emulsion and exhibits a transparent appearance at least after the formation of the membrane. Such a displacement prevention coating agent is used when the front and rear surfaces of a lens where for example, a water-repellent coating layer is formed as a membrane are chucked and held with a chuck device to which an adhesive tape is adhered, and thus when the lens is processed, a holding position held by the adhesive tape of the lens is unlikely to be displaced. | ||||||
| 98 | Comfortable ophthalmic device and methods of its production | US14196006 | 2014-03-04 | US09395559B2 | 2016-07-19 | Kevin P. McCabe; Robert B. Steffen; Hélène Aguilar; W. Anthony Martin; Susan W. Neadle; Ann-Marie Wong Meyers; Douglas G. Vanderlaan; Dominic P. Gourd; Kristy L. Canavan; Gregory A. Hill |
| This invention relates to comfortable ophthalmic devices and methods of producing such devices by treating said ophthalmic lens with a wetting agent and packaging solution. | ||||||
| 99 | Method For Providing A Head Mounted Optical System | US14786257 | 2014-05-02 | US20160062124A1 | 2016-03-03 | Benoit CALLIER; Loïc QUERE; Marc REIGNAULT; Sira UHALTE NOGUES; Mathieu MEYNEN; Denis COHEN TANNOUDJI |
| Method for providing a head mounted optical system, the method comprising: an optical system providing step (S1), during which an optical system with an active function is provided and, an encapsulating step (S8), during which the optical system is at least partly encapsulated in a transparent capsule by stacking in close contact the optical system with at least one substrate of the transparent capsule and made integral with an adhesive. | ||||||
| 100 | SWIMMING GOGGLES | US14285049 | 2014-05-22 | US20150335956A1 | 2015-11-26 | Carmine S. DiChiara; Deni Crescenzi |
| A pair of swimming goggles includes a frame having a first sub-frame and a second sub-frame. The first and the second sub-frames have a first opening and a second opening defined therein. A first lens is secured in the first sub-frame and a second lens is secured in the second sub-frame. A first eye-piece and a second eye-piece are arranged adjacent to the first sub-frame and the second sub-frame, respectively. A third lens is secured in the first eye-piece and a fourth lens is secured in the second eye-piece. A first connecting member and a second connecting member releasably secure the first eye-piece and the second eye-piece to the first and the second sub-frames, respectively. At least one of the third and the fourth lens may take the form of a corrective lens. | ||||||
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