121 |
Structure of eyeglass frame |
US14449114 |
2014-07-31 |
US09405129B2 |
2016-08-02 |
Jungwoo Kim |
Provided is an eyeglass frame with a symmetrical structure. The eyeglass frame includes an earpiece frame, a main body, a hinge, and a support frame. The earpiece frame has a bar-shaped structure in which a width and an angle thereof vary according to the length thereof to be placed on the ear of a user. The main body is connected to the earpiece frame through a hinge, serves as a pivot that pivots on the hinge, and has an inner circumference of a closed curve receiving a lens. The hinge allows the earpiece frame to be inwardly folded toward the main body through pivoting of a predetermined angle. The support frame is disposed under the main body along an outer circumference of the main body and is spaced from the main body by a predetermined interval. |
122 |
SHEET FOR MANUFACTURING ARTICLES, PARTICULARLY GLASSES AND THE LIKE, AND ASSOCIATED MANUFACTURING PROCESS |
US14910619 |
2014-07-29 |
US20160178928A1 |
2016-06-23 |
Federico Gianluigi BUFFA |
A sheet for manufacturing articles, particularly frames for glasses and the like, including at least one technical layer made of a thermoplastic material interposed between a first aesthetic layer and a second aesthetic layer, both made of a material such as fabric. A method for producing a sheet for manufacturing articles includes the steps of providing at least one technical layer made of a material such as thermoplastic polymers and at least two aesthetic layers made of a material such as fabric and associating the technical layer with the aesthetic layers. The layers are mutually compressed and then heated to obtain the sheet. |
123 |
Hinge mechanism for a fluid filled lens assembly |
US14531553 |
2014-11-03 |
US09354456B2 |
2016-05-31 |
Daniel Senatore; Matthew Wallace Peterson; Jonathan Downing; Amitava Gupta; William Egan; Lisa Nibauer; Frank Stangota; Bruce Decker; Thomas M. McGuire; Urban Schnell; Karim Haroud; Pascal Loser |
In an embodiment, a hinge for a fluid-filled lens assembly includes a base having a first end configured to connect to a temple arm of the lens assembly and a second end configured to connect to a frame of the lens assembly, wherein the base includes a gap that is shaped to allow for tubing to pass from the first end to the second end of the base. In an embodiment, the first end of the base includes a cammed surface configured to engage a surface of the temple arm. In an embodiment, the first and second ends of the base are configured to flex around a rotation axis of the hinge. |
124 |
Spectacle attachment that provides protection |
US14724625 |
2015-05-28 |
US09329409B2 |
2016-05-03 |
Victor Nodtvedt |
Systems and methods in accordance with embodiments of the invention implement spectacle attachments that can provide protection from radiation. In one embodiment, a spectacle attachment that provides protection from radiation includes: a body of material that is a barrier to at least some form of radiation; where the body of material is configured so that it can couple with either temple of a pair of glasses; and where the body of material is sized to protect the side of a wearer's face from at least approximately the wearer's temple to approximately below the wearer's cheek when the body of material is coupled to a temple of a pair of glasses and the pair of glasses is worn. |
125 |
GLASSES AND MANUFACTURING METHOD THEREOF |
US14403689 |
2014-03-25 |
US20150293373A1 |
2015-10-15 |
Wenbo Li; Li Zhou |
The present invention provides glasses and a manufacturing method thereof, and belongs to the field of display technology. The glasses of the present invention comprises lenses, and further comprises a first frame made of a paper material, the first frame comprises legs and a lens frame which are integrally formed, the lens frame is provided with lens holes for viewing, and the lenses are provided at the lens holes. |
126 |
Eyeglass frame and temple |
US13821205 |
2011-09-06 |
US09069190B2 |
2015-06-30 |
Kester John Carpenter; Thomas Bochmann |
The present invention relates to an eyeglass temple (1) and an eyeglass frame wherein the eyeglass temple (1) has at least two leaf springs (3; 4; 5). For preventing free sliding motion of the eyeglass temple means (15; 16; 17; 18; 20; 25) are provided which are realized such that they are able to inhibit said free sliding motion. |
127 |
Structure of diamond-embedded earpiece and eyeglass and diamond-embedding method thereof |
US14234399 |
2012-08-31 |
US09057890B2 |
2015-06-16 |
Shousong Chen |
A structure of a diamond-inlaid eyeglass temple includes an eyeglass temple body (1) and an elastomer (3) set thereon. The elastomer (3) has an elastic tendency to bend inwardly and the two external sides thereof are connected, respectively, to a first holding device (4) and a second holding device (5) with a cantilever structure. A first groove (41) and a second groove (51) are provided, respectively, on the corresponding end surfaces of the first holding device (4) and the second holding device (5). A diamond (2) is clamped under the elastic force of the elastomer (3). Also provided are eyeglasses with the structure of diamond-inlaid glass temple and a diamond-inlaying method. Eyeglasses with a structure of the diamond-inlaid eyeglass temple have a high production efficiency, and the diamonds are fixed firmly and are less prone to falling out. The diamond-inlaying method features a simple process and is easy to operate. |
128 |
Process of manufacturing of coated spectacle frames, and coated spectacle frames so obtained |
US14406270 |
2013-06-07 |
US20150131046A1 |
2015-05-14 |
Eric Balzan; Mirko Forti |
The process of manufacturing of a coated spectacle frames is characterized by the following three main manufacturing processes: A—Bonding of at least one outer layer of coating material (A, C) on at least an inner layer of material having a structural function (B). The result is a coated panel (D); B—Cutting of the spectacle frame (E) from that covered panel (D); C—Bending and shaping of the previously cut spectacle (F). The layers that form the particular coated panel (D) may origin from different combinations of different materials, as indicated in the description and claims. |
129 |
Mount for spectacles |
US14375491 |
2013-01-29 |
US09016854B2 |
2015-04-28 |
Paolo Guadagnin |
A mount for spectacles includes a first front frame made of plastic and having respective lens-holding rims with a closed contour, to receive and support lens, and a second frame made of metallic material inserted inside the first frame and solidly fixed thereto, the second frame including respective portions in a closed ring shape and extending respectively along the outline of the corresponding lens-holding rim, the mount being produced by stratification of the plastics material of the first frame on the second frame, by applying at least one sheet of plastic material of the first frame on each of the front and rear opposite surfaces of the second frame. At least one section of the second frame, at the location of each lens-holding rim, has a profile extending longitudinally in a sinuous shape, substantially of serpentine configuration, permitting assembly/disassembly of the lens in the lens-holding rim exclusively by resilient deformation. |
130 |
MANUFACTURING PROCESS OF A PRODUCT BASED ON CELLULOSE ACETATE WITH BLENDED COLOUR, AND PRODUCT, SUCH AS SPECTACLES, OBTAINED BY SUCH PROCESS |
US14495938 |
2014-09-25 |
US20150085242A1 |
2015-03-26 |
Davide Orsi Mazzucchelli; Elena Orsi Mazzucchelli |
A manufacturing process and the semi-finished product of thermoplastic material obtained therefrom, for obtaining products with aesthetic patterns which can be perceived in semitransparency also in depth is disclosed. The process includes: (i) producing at least two initial elements of thermoplastic material with even but different aesthetic patterns, having a different concentration of the dominating colouring, at least the dominating colouring being of the bleeding type in the specific thermoplastic material; (ii) shaping the two initial elements into strips or loaves being of a submultiple width, not below ⅕ of a characteristic dimension of the desired finished product; (iii) inserting at least two of the strips or loaves having different concentration of the dominating colouring, into a workform, arranging them side by side according to a direction of side-by-side arrangement; and (iv) undergoing pressure and heat to allow the melting and hardening of the thermoplastic material into a single body. |
131 |
STRUCTURE OF EYEGLASS FRAME |
US14449114 |
2014-07-31 |
US20150036098A1 |
2015-02-05 |
Jungwoo Kim |
Provided is an eyeglass frame with a symmetrical structure. The eyeglass frame includes an earpiece frame, a main body, a hinge, and a support frame. The earpiece frame has a bar-shaped structure in which a width and an angle thereof vary according to the length thereof to be placed on the ear of a user. The main body is connected to the earpiece frame through a hinge, serves as a pivot that pivots on the hinge, and has an inner circumference of a closed curve receiving a lens. The hinge allows the earpiece frame to be inwardly folded toward the main body through pivoting of a predetermined angle. The support frame is disposed under the main body along an outer circumference of the main body and is spaced from the main body by a predetermined interval. |
132 |
SPECTACLE ATTACHMENT THAT PROVIDES PROTECTION |
US13793134 |
2013-03-11 |
US20140253862A1 |
2014-09-11 |
Victor Nodtvedt |
Systems and methods in accordance with embodiments of the invention implement spectacle attachments that can provide protection from radiation. In one embodiment, a spectacle attachment that provides protection from radiation includes: a body of material that is a barrier to at least some form of radiation; where the body of material is configured so that it can couple with either temple of a pair of glasses; and where the body of material is sized to protect the side of a wearer's face from at least approximately the wearer's temple to approximately below the wearer's cheek when the body of material is coupled to a temple of a pair of glasses and the pair of glasses is worn. |
133 |
LOW-COST EYEGLASSES |
US14062606 |
2013-10-24 |
US20140049744A1 |
2014-02-20 |
Mark S. Margolis |
Low cost spectacles may include a paper or plastic frame and injection molded plastic lens or lenses, where the lens may be easily removed and changed within the frame. In one example, the lens may have a round shape, and securing the lens within the frame may be accomplished by inserting the lens into the aperture in the frame, and rotating the lens, for example, by ¼ of a turn. The lens may have a flange extending radially outward from an edge of the lens, wrapping substantially around a circumference of the lens. The lens may further have a key extending radially outward from an edge of the lens. The key is configured to fit the lens into the aperture of the frame. When the lens is rotated within the aperture, a portion of the frame enters a channel between the key and the flange to secure the lens to the frame. |
134 |
Stereoscopic glasses |
US13886601 |
2013-05-03 |
US08587735B2 |
2013-11-19 |
Hideki Arai |
A pair of stereoscopic glasses includes a pair of left and right stereoscopic rims connected to each other and respectively holding stereoscopic optical components used when observing a stereoscopic image, and a stereoscopic frame that includes stereoscopic temples extending rearward from the stereoscopic rims. The stereoscopic frame is provided with an engagement section that is brought into engagement with a rim or a bridge of a frame of glasses already worn by a user in a state where the stereoscopic optical components are positioned in front of lenses of the glasses so that the stereoscopic optical components are positionally maintained in front of the lenses of the glasses. |
135 |
COUPLING STRUCTURE OF GLASSES FRAMES AND GLASSES LEGS |
US13989591 |
2011-11-25 |
US20130239366A1 |
2013-09-19 |
Young Ho Kim |
The present invention relates to a coupling structure of glasses frames and glasses legs in which the frames and the legs can be easily coupled or uncoupled to/from each other, which enables lenses to be easily coupled to the frames, and which provides elasticity when the legs are folded or unfolded. The coupling structure of the present invention includes: a hinge piece tightly inserted between end pieces split at a distal end of the frames such that the hinge piece protrudes, wherein the hinge piece has a stopper groove; an elastic member having a slot for the insertion of the hinge piece; and legs having a rotation pin and an operating slot such that a front end of the legs can be fitted into the stopper groove while elastically pressing the elastic member. |
136 |
EYEGLASS FRAME, AN EYEGLASS HINGE, AND A METHOD OF ASSEMBLING A HINGE FOR AN EYEGLASS FRAME |
US13195971 |
2011-08-02 |
US20130033675A1 |
2013-02-07 |
LAK CHEONG |
An eyeglass frame is provided that includes a lens retaining part having an end piece, a temple piece, and a hinge connecting the end piece and the temple piece. The hinge includes a substantially cylindrical element having a slot, and a projection coupled to the temple piece and adapted to be received in the slot of the substantially cylindrical element. The hinge further includes a substantially cylindrical support member coupled to the end piece and adapted to accept the substantially cylindrical element and including retaining means adapted to maintain the projection in the slot of the substantially cylindrical element. A hinge for an eyeglass frame is provided. A method of assembling a hinge for an eyeglass frame is provided. |
137 |
Leaf spring hinges for eyeglasses |
US12868734 |
2010-08-26 |
US08308289B2 |
2012-11-13 |
Shouye Niu |
A leaf spring hinge comprising a leaf spring member that is integrally formed with or fixedly connected to a lug or a temple is provided. The leaf spring member is provided at least with a leaf spring suspended and bent from a base. The leaf spring is bent in the form of an R-letter or U-letter. The leaf spring hinge has simple structure and reliable resilience, and is solid, durable and easy to manufacture. |
138 |
Spectacles temple |
US29387999 |
2011-03-22 |
USD658707S1 |
2012-05-01 |
Ralph Anderl |
|
139 |
Spectacles |
US29387997 |
2011-03-22 |
USD658705S1 |
2012-05-01 |
Ralph Anderl |
|
140 |
LOW-COST EYEGLASSES |
US12969354 |
2010-12-15 |
US20110205483A1 |
2011-08-25 |
Mark Margolis |
Low cost spectacles may include a paper or plastic frame and injection molded plastic lens or lenses, where the lens may be easily removed and changed within the frame. In one example, the lens may have a round shape, and securing the lens within the frame may be accomplished by inserting the lens into the aperture in the frame, and rotating the lens, for example, by ¼ of a turn. The lens may have a flange extending radially outward from an edge of the lens, wrapping substantially around a circumference of the lens. The lens may further have a key extending radially outward from an edge of the lens. The key is configured to fit the lens into the aperture of the frame. When the lens is rotated within the aperture, a portion of the frame enters a channel between the key and the flange to secure the lens to the frame. |