| 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 | VERFAHREN ZUM MARKIEREN ODER BOHREN VON LÖCHERN IN BRILLENGLÄSERN UND VORRICHTUNG ZUR DURCHFÜHRUNG DES VERFAHRENS | EP99934195.1 | 1999-01-27 | EP1053075B2 | 2005-09-28 | Gottschald, Lutz |
| The present invention relates to a method for marking or drilling holes in glass lenses and to device for realising the same. According to this method, the position of the holes in a glass lens, in a model disc or in a support disc is measured with or without any contact. The data obtained on the position of the holes is transmitted to a computer in the shape of rectangular or polar co-ordinates. In order to control the marking or drilling, a marking or drilling system with computerised numerical control is also provided. | ||||||
| 122 | VERFAHREN, VORRICHTUNG UND SCHABLONE ZUM BEFESTIGEN VON NASEN- UND BACKENBÜGELN MIT BRILLENGLÄSERN | EP02762239.8 | 2002-08-10 | EP1440343B1 | 2005-06-01 | WIED, Günther, sen. |
| The attachment of sidepieces and bridges to spectacle lenses of rimless spectacles requires connections that are incorporated, in part, laterally and, in part, vertically in the spectacle lens. The aim of the invention is to make it possible to adjust the inclination of the spectacle lenses with regard to the spectacle frame and to individually adapt the inclination to the spectacles wearer. To this end, laterally rounded notches are produced in the spectacle lens in the form of partially cylindrical borings. The invention provides templates or hole gauges for perfectly making these borings in the spectacle lens. | ||||||
| 123 | PROCEDE DE PERCAGE DE VERRES OPTIQUES ET SYSTEME POUR LA MISE EN OEUVRE D'UN TEL PROCEDE | EP00969643.6 | 2000-10-18 | EP1222491B1 | 2003-05-28 | SERENNE, Franck |
| The invention relates to a method for drilling cut-out optical glasses in order to produce rimless spectacles whose arms and bridge are fixed directly on the lenses. The inventive method is characterised in that it comprises the following steps: defining at least one isostatic drilling plane for the arms on a computer; defining at least one isostatic drilling plane for the bridge on a computer; combining said drilling planes with a virtual lens template on the computer; saving the information relating to the drilling planes and the combination of the these and the virtual lens template; and transmitting this information to at least one drilling device for drilling the cut-out lenses according to said information. | ||||||
| 124 | HOLE DRILLING JIG FOR SPECTACLE LENS AND PRODUCTION JIG THEREFOR AND HOLE DRILLING METHOD FOR SPECTACLE LENS AND SPECTACLE LENS | EP99901155 | 1999-01-25 | EP0970786A4 | 2003-05-07 | WATANABE SHIGERU |
| A hole drilling jig for a spectacle lens used when a non-through hole extending toward the inside of the lens is drilled in the edge face of a spectacle lens and a production jig therefor and hole drilling method for a spectacle lens and a spectacle lens. The hole drilling jig comprises a jig body and a plurality of support members attached to the jig body, wherein a spectacle lens is inserted into the opening of the jig body to be held there by clamping and is supported by the support members. A bit of a drilling machine on which the hole drilling jig is set is applied to the edge face of the spectacle glass while being guided by a guide formed on the support members, whereby a non-through hole is made in the edge face. | ||||||
| 125 | VERFAHREN ZUM MARKIEREN ODER BOHREN VON LÖCHERN IN BRILLENGLÄSERN UND VORRICHTUNG ZUR DURCHFÜHRUNG DES VERFAHRENS | EP99934195.1 | 1999-01-27 | EP1053075A1 | 2000-11-22 | Gottschald, Lutz |
| The present invention relates to a method for marking or drilling holes in glass lenses and to device for realising the same. According to this method, the position of the holes in a glass lens, in a model disc or in a support disc is measured with or without any contact. The data obtained on the position of the holes is transmitted to a computer in the shape of rectangular or polar co-ordinates. In order to control the marking or drilling, a marking or drilling system with computerised numerical control is also provided. | ||||||
| 126 | METHOD OF MAKING EYEGLASSES WITH A FLEXIBLE WIRE AND EYEGLASSES | EP99904741.8 | 1999-01-07 | EP1046076A1 | 2000-10-25 | Coletti, Enrico |
| In an improved eyeglasses-making method, in a first cycle of operations, a bridge (10) is equipped permanently with a middle (2) of a flexible smooth wire (1). Endpieces (20, 21) of the eyeglasses' temples are put on the ends (3', 4') of said wire (1). Said ends (3', 4') are slipped through the sides of said bridge (10) in order to form a couple of coils or rings (3, 4). In a second cycle of operations, lenses (30, 40) are interposed in said coils or rings (3, 4) and fixed therein. | ||||||
| 127 | EYE GLASS REPAIR TOOL | EP94920345.0 | 1994-07-11 | EP0710371A1 | 1996-05-08 | Ferland, Serge |
| There is provided a multi purpose tool to assist in the repair and adjustment of eye glasses, the tool having a body portion and clamping member moveable into and out of a clamping relationship with the body, the clamping member being a wire like member. The tool is particularly useful for mounting the flexible type of temple having a spring member onto the main body of the eyeglass. | ||||||
| 128 | Vorrichtung zum Halten und Wenden von Linsen, insbesondere für in einer Hochvakuum-Aufdampfanlage oder -Sputteranlage zu beschichtende Brillenglaslinsen | EP89122628.4 | 1989-12-08 | EP0406483A2 | 1991-01-09 | Kunkel, Georg; Klingenstein, Dieter; Mahr, Heinz; Fliedner, Michael |
Bei einer Vorrichtung zum Halten und Wenden von Linsen, insbesondere für in einer Hochvakuum-Aufdampfanlage oder -Sputteranlage zu beschichtende Brillenglaslinsen (25), mit einem die zu haltende Linse (25) tragenden Ringpaar (14, 15), das seinerseits auf einem Substrathalter (4) in der Prozeßkammer der Hochvakuumanlage gelagert ist, ist das halbschalenartig ausgeformte Blechteil, das den um eine vertikale Achse (33, 33′) drehbaren Substrathalter (4) bildet, teilweise von einem sichelförmigen, einen Rechen (9) bildenden Blechzuschnitt übergriffen, der seinerseits von einer in Richtung der Rotationsachse (33, 33′) verschiebbaren Buchse (40) und vom Hubglied (41) eines an der Wand des Rezipienten (3) befestigten Hubmotors (10) gehalten und geführt ist, wobei die dem Substratträger (4) zugewandte Unterkante der einzelnen Zinken (43, 43′, ...) des Rechens (9) in Eingriff mit den Ritzeln oder Zahnrädern (35, 35′, ...) der auf Zapfen (18, 19 bzw. 18′, 19′, ...) gelagerten Ringpaare (14, 14′, ...) gelangen und diese um etwa 180° schwenken, wenn sich dabei der Substrathalter (4) seinerseits gleichzeitig um die Rotationsachse (33, 33′) dreht. |
||||||
| 129 | Table de soutien, en particulier pour monture de lunettes | EP89403557.5 | 1989-12-19 | EP0376803A1 | 1990-07-04 | Brule, François; Cuvilly, Jean-Pierre |
Il s'agit d'une table de soutien du genre comportant, disposés sur une platine (16), une pluralité de moyens de maintien (18), en l'espèce (18A, 18B, 18C, 18D, ou 18′A, 18′B, 18′D), propres à soutenir un quelconque article au-dessus d'un évidement (19) de cette platine (16). Suivant l'invention, une partie au moins de ces moyens de maintien (18) est portée par un volet (20, 20′) monté pivotant et réglable en inclinaison sur la platine (16). Application, notamment, au soutien d'une monture de lunettes (10) en vue d'une lecture de contour de l'un et/ou de l'autre de ses cercles ou entourages (11, 11′). |
||||||
| 130 | Vorrichtung zum Herstellen von Schablonen nach Brillenglasfassungen | EP81106451.8 | 1981-08-19 | EP0051118B1 | 1985-04-10 | Kötting, Friedrich |
| 131 | Apparatus for producing templates after lens fittings | EP81106451 | 1981-08-19 | EP0051118A3 | 1982-09-15 | Kötting, Friedrich |
| 132 | Spectacle or sunglass lens mounting | EP81300662 | 1981-02-18 | EP0034501A3 | 1982-01-20 | Murakami, Mamoru |
A method of fixing a spectacle lens to a spectacle frame is carried out such that an internally threaded hole (3) in a support member (2) for holding the spectace lens (4), which support member (2) is provided on the spectacle frame, is aligned in axial line with a hole (5) in the spectacle lens (4). A fastener (6) made of an elastomeric or other yieldable material, being conical (15) and tapered towards its tip (7), is threaded into the internally threaded hole (3) with an intermediate portion (11) extending through the hole (5) in the spectacle lens (4), so that the fastener (6) is threadably coupled to the internally threaded hole (3) to fix the spectacle lens to the spectacle frame. |
||||||
| 133 | A holder for supporting spectacle frames during manufacturing thereof | EP81830069.1 | 1981-05-05 | EP0039664A2 | 1981-11-11 | Bellani, Emanuele |
Holders for supporting spectacle frames during polishing and finishing operations comprise elongated members or rods extending from a clamp to elastically engage the rims and the legs of the frame. The rods are suitably shaped to provide for elastic return force after engagement and partially covered with plastic materials to avoid damaging the frames. Weldable metal sleeves crimped to the rods or plate arrangements ensure the joint between the rods and the clamp. |
||||||
| 134 | Spectacle or sunglass lens mounting | EP81300662.4 | 1981-02-18 | EP0034501A2 | 1981-08-26 | Murakami, Mamoru |
A method of fixing a spectacle lens to a spectacle frame is carried out such that an internally threaded hole (3) in a support member (2) for holding the spectace lens (4), which support member (2) is provided on the spectacle frame, is aligned in axial line with a hole (5) in the spectacle lens (4). A fastener (6) made of an elastomeric or other yieldable material, being conical (15) and tapered towards its tip (7), is threaded into the internally threaded hole (3) with an intermediate portion (11) extending through the hole (5) in the spectacle lens (4), so that the fastener (6) is threadably coupled to the internally threaded hole (3) to fix the spectacle lens to the spectacle frame. |
||||||
| 135 | WEARABLE HEADS-UP DISPLAYS EMPLOYING A CORE WIRE COMMUNICATIVELY COUPLED TO A RADIO AS AN ANTENNA | US16231273 | 2018-12-21 | US20190196227A1 | 2019-06-27 | Joshua Moore; Kai Zhang; George Shaker |
| Systems, devices and methods for eyeglasses frames and eyeglasses frames assemblies for wearable electronic devices, and particularly systems, devices, and methods that employ an antenna in eyeglasses frames and eyeglasses frames assemblies for wearable heads-up displays, the systems, devices and methods including a pair of eyeglasses having a first arm housing a radio and a core wire, wherein the core wire is communicatively coupled to the radio as an antenna by an electrically conductive path including a hinge in the first arm or an electrically conductive path that is electrically isolated from the hinge and a power source coupled to the first arm or a second arm and electrically coupled to the radio via a second electrically conductive path. | ||||||
| 136 | GLASSES FRAME COMPRISING AT LEAST ONE FUNCTIONAL MEMBER | US15578964 | 2016-05-31 | US20180136485A1 | 2018-05-17 | Pierre-Franck Linossier |
| The invention relates to a glasses frame having a main frame provided with two openings for respectively receiving two lenses, at least one opening having an inner peripheral edge for cooperating with an outer peripheral edge of a lens, the glasses frame having at least one functional member. According to the invention, the peripheral inner edge of said opening of said frame has at least one recess in which said functional member is mounted, said functional member being designed so as to be locked in position by said lens when it is mounted in said opening. | ||||||
| 137 | Biocompatibility of biomedical energization elements | US14827589 | 2015-08-17 | US09923177B2 | 2018-03-20 | Frederick A. Flitsch; Daniel B. Otts; Randall B. Pugh; James Daniel Riall; Adam Toner |
| Designs, strategies and methods to improve biocompatibility of energization elements are described. In some examples, the biocompatible energization elements may be used in a biomedical device. In some further examples, the biocompatible energization elements may be used in a contact lens. | ||||||
| 138 | PROCESS FOR ASSEMBLING AN ELASTIC HINGE FOR EYEGLASS FRAMES, AND ELASTIC HINGE FOR EYEGLASS FRAMES | US15644783 | 2017-07-09 | US20180011345A1 | 2018-01-11 | Rinaldo MONTALBAN |
| Process for assembling an elastic hinge for eyeglass frames comprising a first articulation provided with a head with a first hole, a second articulation having two shoulders provided with second holes, and a pin having a stem provided with a thinned final portion. The process provides for inserting the head of the first articulation between the two shoulders of the second articulation with the first hole of the first articulation non-aligned with respect to the second holes of the second articulation, an opening thus remaining between such holes. A step for inserting the pin is provided, during which the thinned portion of the pin is wedged in the aforesaid opening between the holes and is screwed into one of the second holes of the shoulders of the second articulation. | ||||||
| 139 | A METHOD FOR ORDERING AN OPTICAL EQUIPMENT | US15517315 | 2015-10-08 | US20170299899A1 | 2017-10-19 | Eric LEONARD |
| A method, implemented by computer means, for ordering an optical equipment comprising at least a spectacle frame suitable for a wearer, the method comprising: a wearer data providing step during which wearer data relative to a wearer parameter are provided, a optical equipment data providing step during which optical equipment data relative to at least the spectacle frame of an optical equipment selected by the wearer are provided, a mounting data determining step during which mounting data representative of the spectacle frame being mounted on the wearer's head are determined by taking into account at least said wearer's data and said optical equipment data, a display step during which the mounting data are displayed in a visually understandable mode. | ||||||
| 140 | Eyeglass frame system where lenses can move from one frame to another | US15019858 | 2016-02-09 | US20170227786A1 | 2017-08-10 | Sean McGinley; Matt Proffitt; Michael Broz |
| The current invention is a detachable eyeglass frame system that will provide consumers a way to take their single pair of prescription lenses out of their manufacturers frames and place them into another set of the same manufacturer's frames but, of different color and/or style. The eyeglass frame system comprises an eyeglass frame including a front section removably secured to a horizontal bar. The horizontal bar is removably secured along the upper end of the front section by one or more fasteners, such as magnets. By lifting the Removable Horizontal Bar from Frame Rear, lenses easily slide out of their current frames and easily slide into their other frames. | ||||||
