A main frame (100) is described, comprising two temples (110) and a first front (120) suitable for housing at least one first lens (121) and comprising a first central element (122); the main frame (100) comprises one or more first magnets (130) positioned on the first central element (122); a secondary frame is further described, comprising a second front (210) suitable for housing at least one second lens (211) and a second central element (212) positioned on the second central element (212); the secondary frame (200) also comprises one or more second magnets (220); the main frame (100) is couplable to a secondary frame (200); said one or more first magnets (130) and said one or more second magnets (220) are positioned so as to be facing and magnetically coupled when said main frame (100) is coupled to said secondary frame (200). An assembly (1) main frame-secondary frame with clip-on coupling is further described, comprising such main frame (100) and such secondary frame (200).
GLASSES FRAME COMPRISING AT LEAST ONE PORTION OF AN ELECTRONIC DEVICE ENCAPSULATED INSIDE AT LEAST ONE ELEMENT THEREOF AND METHOD FOR ENCAPSULATING SAID AT LEAST ONE PORTION OF AN ELECTRONIC DEVICE INSIDE SAID AT LEAST ONE ELEMENT OF A GLASSES FRAME
Glasses frame including at least one portion of an electronic device encapsulated inside at least one element of the glasses frame, wherein at least one element of the glasses frame includes a plasticized cellulose acetate mixture, wherein the composition of the mixture provides that at least one portion of the at least one element inside which at least one portion of the electronic device is encapsulated, having at least a negligible mass percentage of at least one solvent.
A photochromic lens for glasses, including photochromic dyes, wherein the photochromic dyes are suitable for passing from a not activated state to an activated state. The activated state of the photochromic dyes provides that photochromic dyes change color when hit by an electromagnetic radiation. The photochromic lens includes at least a first portion and at least a second portion, wherein the first portion has a reflecting material coating reflecting the electromagnetic radiation, and the second portion is devoid of the coating. The photochromic lens has a first surface with at least a first portion and at least a second portion, wherein the first surface faces outward from the glasses, outward meaning a direction with respect to the photochromic lens mounted on a glasses frame.
Electronic eyeglasses, including a front and a pair of temples adapted to be connected to the front by respective hinges; at least one of the temples includes a capacitive sensor in order to allow to enter an input on the part of a user and a double capacitive sensor which is joined thereto and is adapted to detect the condition of the eyeglasses being worn or not by the user and a haptic feedback component in order to return to the user a notification regarding the input entered or other functionalities of the eyeglasses.
A case (1) for electronic devices, which comprises a case body (2) adapted to accommodate an electronic device (3), and is provided with at least one receptacle for the electronic device (3), and a raised portion (5) adapted to accommodate at least one charging means (7a, 7b, 7c), the raised portion (5) being shaped complementarily to a portion (6) of an electronic device (3) and being configured to be paired with at least one complementary charging means (8a, 8b, 8c) which is accommodated within the electronic device in the region of the electronic device that is adapted to make contact with the raised portion (5).
The invention relates to a hinge (1; 21) for spectacle frame (100; 200), said frame (100; 200) providing a frame front portion (11; 211) and a pair of temples (6; 26), laterally coupled to said frame front portion (11; 211), each coupling between frame front portion (11; 211) and temple providing a hinge (1; 21), said hinge (1; 21) being characterized by providing a female element (2; 22), substantially circular, with a circular central opening, (2'; 22' ), equipped with a seat (10; 210) on its side surface, a male element (3; 23), substantially circular, with a circular central opening (3'; 23' ), insertable into said seat (10; 210) of said female element (2; 22), and a coupling element (4; 24) between said female element (2; 22) and said male element (3; 23), substantially circular, equipped with at least three engaging portions (7; 27) and at least three vertical grooves (7'; 27' ), said male element (3; 23) being equipped with a number of protuberances (9; 29) corresponding to the number of said engaging portions (7; 27) and vertical grooves (7'; 27' ) provided on said coupling element (4; 24), said coupling element (4; 24) being insertable into said openings of said female (2; 22) and male (3; 23) elements, when the latter are reciprocally coupled by inserting said male element (3; 23) into said seat (10; 210) of said female element (2; 22), said coupling element (4; 24) being, once inserted into said female (2; 22) and male (4; 24) elements, rotatable so as to bring said vertical grooves (7'; 27' ) at said protuberances (9; 29), by forced rotation, thus obtaining a mechanical coupling between female element (2; 22) and male element (3; 23), such that said female element (2; 23) and male element (3; 23) can reciprocally rotate. The invention further relates to a method of assembling said hinge ( 1 ).
Parts (10) of eyeglass (1) or mask made of one-piece by a single injection molding or casting step, in biopolymer or plastic monomaterial equal for all the parts of the eyeglass (1) or mask, are described, said parts comprising the lenses (2), and/or the nose pads or nosepieces (3), the end pieces (4) for coupling the temples (8), the bridge (5), the front (6) of the eyeglass frame or mask, the hinges (7) and/or hinging elements, and wherein contiguous areas of different thickness are provided, sized so that the area with higher thickness differs from that with lower thickness by a maximum value of between 1.5 mm and 6 mm, said contiguous areas being joined by a junction having a radius of curvature between 0.5 and 5 mm. A method for making parts of eyeglass (1) or mask of one-piece is further described.
A nose pad (1) for eyeglasses, which comprises a first engagement means (2) adapted to engage in a cavity (3) defined in frame (4) of a pair of eyeglasses, the first engagement means (2) being provided with a lower end comprising at least one portion (5, 6) adapted to be inserted in the cavity (3) of the frame (4), and with a substantially spherical head (8) at the opposite end, which is adapted to engage in a corresponding cavity (9) defined in a second engagement means (10), so that the second engagement means can rotate about different axes around the substantially spherical head (8), a covering element (15) being adapted to be fitted over the second engagement means (10).
A nose pad for eyeglasses, comprising an internal frame-like structure or supporting structure provided with at least one coupling means adapted to allow a stable and nonremovable coupling to the frame of a pair of eyeglasses, the internal frame-like structure or supporting structure being adapted to be covered with a soft covering element.
A method for the creation of decorations and/or logos on materials made of metal, preferably but not exclusively for parts of eyeglasses and the like, which includes the steps of starting from a substrate made at least partly of a metallic material, performing a first galvanic deposition and a second galvanic deposition, depositing a first and a second layer of material on the substrate, wherein at least one material of the first and second galvanic depositions is a precious metal; and removing at least partially the surface layer that derives from the second galvanic deposition, leaving the underlying layer that derives from the first galvanic deposition substantially unchanged, so as to form a groove. The the groove has a substantially constant depth along its entire extension.
A case for electronic devices, which includes a case body that is adapted to accommodate an electronic device, and is provided with at least one receptacle for the electronic device; retention elements being arranged at the at least one receptacle of the electronic device. At least one of the retention elements is provided with charging elements, the retention elements being adapted to pass from an inactive position to an active position, in contrast with the action of elastic elements, in which the retention elements contact a charging area of the electronic device and at the same time lock the electronic device inside the case body when the electronic device is stored inside the case body.
Glasses (200) comprising a front (210) and two temples (220) rotatably coupled to the front (210) so as to be able to rotate between a first stable opening position and a second stable closing position, two hinge assemblies (100) by which the temples (220) are rotatably coupled to the front (210), each of the hinge assemblies (100) comprises at least four first magnets (110) applied on said front (210), the at least four first magnets (110) are spaced apart from each other and arranged so as to describe a circumference, the at least four first magnets (110) have free poles at alternating polarities according to any period, at least four second magnets (120) applied to the respective temple (220), opposed to the at least four first magnets (110), the at least four second magnets (120) are spaced apart from each other and arranged so as to describe a circumference, the at least four second magnets (120) have free poles at alternating polarities according to any period, wherein when the respective temple (220) is in the first stable opening position and/or in the second stable closing position the free poles of the at least four first magnets (110) and of the respective at least four opposed second magnets (120) have opposite polarities so as to attract each other.
The present invention relates to a method for manufacturing a laminated lens comprising the steps of: A) mixing a dye comprising at least one tetraazaporphyrin compound and at least one urethane-acrylate glue to form an adhesive dye dispersion, said dye being mixed with said glue without being previously dispersed in an organic solvent; B) laminating together a first glass cap and a second glass cap by means of at least one adhesive layer comprising said adhesive dye dispersion, said adhesive layer being interposed between said two caps.
B29D 11/00 - Producing optical elements, e.g. lenses or prisms
B32B 17/10 - Layered products essentially comprising sheet glass, or fibres of glass, slag or the like comprising glass as the main or only constituent of a layer, next to another layer of a specific substance of synthetic resin
C03C 27/10 - Joining glass to glass by processes other than fusing with the aid of adhesive specially adapted for that purpose
Hinge assembly for glasses (100) comprising: a support plate (110) which comprises a first cantilevered portion (113) and a second cantilevered portion (114), a support body (130) rotatably coupled to the support plate (110), at least one guide element (118, 119) interposed between the first cantilevered portion (113) and the second cantilevered portion (114), a guide end (134) of the support body (130) sliding on the at least one guide element (118, 119) in order to guide the reciprocal rotation of the support body (130) and the support plate (110) between a first stable opening position of the hinge assembly for glasses (100) and a third unstable extra-opening position of the hinge assembly for glasses (100), a first guide projection or first cam (120) and a second guide projection or second cam (121) made on the first cantilevered portion (113) and on the second cantilevered portion (114) respectively, at least one free abutment wall (135, 136) of the support body (130) shaped to slide on the first guide projection (120) and on the second guide projection (121) in order to guide the reciprocal rotation of the support body (130) and the support plate (110) between the first stable opening position and a second stable closing position of the hinge assembly for glasses (100).
A hinge assembly for glasses (100) comprising : a support plate (110) comprising a first cantilevered portion (113) and a second cantilevered portion (114) presenting a first through hole (115) and a second through hole (116) respectively; a support body (130) rotatably coupled to the support plate (110) and comprising a third hole (132) and a fourth hole (133) and a housing chamber (138); an arm element (150) which presents a first arm portion (160) and a second arm portion (170), the first arm portion (160) presents a first perforated end portion (161) arranged at the first through hole (115) and a second perforated end portion (162) arranged at the third hole (132), the second arm portion (170) presents a third perforated end portion (171) arranged at the second through hole (116) and a fourth perforated end portion (172) arranged at the fourth hole (133), the third hole (132), the second perforated end portion (162), the fourth perforated end portion (172) and the fourth hole (133) are crossed by at least one coupling pin (137); a torsion spring (139) housed in the housing chamber (138) and having at least one tubular portion (140) at least partially crossed by the at least one coupling pin (137).
A frame for eyeglasses with color gradation, including at least one first acetate sheet having a color gradation at least on part of the first acetate sheet and a transparency along at least one second part, and at least one second acetate sheet having a color gradation on at least one part of the second acetate sheet, the first and second acetate sheets being coupled together by superimposition.
B32B 7/03 - Layered products characterised by the relation between layers; Layered products characterised by the relative orientation of features between layers, or by the relative values of a measurable parameter between layers, i.e. products comprising layers having different physical, chemical or physicochemical propert; Layered products characterised by the interconnection of layers with respect to the orientation of features
B32B 23/04 - Layered products essentially comprising cellulosic plastic substances comprising such substance as the main or only constituent of a layer, next to another layer of a specific substance
B32B 37/12 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives
B32B 37/22 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the properties of the layers with all layers existing as coherent layers before laminating involving the assembly of both discrete and continuous layers
A lens (1) for spectacles and/or masks having an inner surface (3) apt to be directed toward at least an eye of a wearer and an outer surface (5) opposite to the inner surface (3) is described; a first inner central curve (30) and a second inner central curve (31) are defined on the inner surface (3); a first outer central curve (50) and a second outer central curve (51) are defined on the outer surface (5); the first inner central curve (30) and the first outer central curve (50) are defined by the intersection of the inner surface (3) and the outer surface (5), respectively, with a first plane (X_0) passing through the geometric center of the lens (1) and extending in a substantially vertical direction; the second inner central curve (31) and the second outer central curve (51) are defined by the intersection of the inner surface (3) and the outer surface (5), respectively, with a second plane (Y_0) passing through the geometric center of the lens (1); the second plane (Y_0) tilted with respect to a horizontal direction by an angle between 25° and 25°; the inner surface (3) is convex at least along the first inner central curve (30) and concave at least along the second inner central curve (31) toward the wearer' s eye; the outer surface (5) is convex at least along the first outer central curve (50) and concave at least along the second outer central curve (51) toward the wearer' s eye.
An eyeglass lens with a decorative element includes a decorative element and/or a functional element glued at the concave part of the lens, the lens being made of a plastic material, the decorative element being arranged between the concave part of the lens and a further layer of polymeric material.
The present invention relates to a lens (10) for selective mirroring glasses, said lens having a convex side (20) and a concave side (30) wherein said selective mirroring is realized both on the convex side (20) and on the concave side (30) of the lens (10), said realization of the selective mirroring both on the convex side (20) and on the concave side (30) of the lens (10) realizing an image (40) with three-dimensional or perspective effect on the lens (10) itself. The invention also relates to a method for obtaining a lens (10) for glasses with selective mirroring, said method envisaging the steps of: 1. preparation of the lens 10, 2. application of the pad printing on the convex side 20 of the lens, 3. drying of the paint applied in step 2, 4. application of the pad printing on the concave side 30 of the lens, 5. drying of the paint applied in step 4, 6. carrying out a physical vapour deposition or PVD treatment on the concave side 30 of the lens 10, 7. carrying out a physical vapour deposition or PVD treatment on the convex side 20 of the lens 10, 8. obtaining the final lens 10 subjected to the previous steps for the removal of the pad printing paint, said steps 2 and 4 being also able to be carried out in reverse, that is to say firstly step 4 and then, after step 3, step 2.
G02C 7/10 - Filters, e.g. for facilitating adaptation of the eyes to the dark; Sunglasses
B29D 11/00 - Producing optical elements, e.g. lenses or prisms
B44F 1/04 - Designs or pictures characterised by special or unusual light effects produced by reflected light, e.g. matt surfaces, lustrous surfaces after passage through surface layers, e.g. pictures with mirrors on the back
Glasses (200) comprising a front (210) and two temples (220) rotatably coupled to the front (210) so as to rotate between a first stable opening position and a second stable closing position, the front (210) comprises two first receiving seats (211), two hinge assemblies (100) each of which comprises a hinging body (110) coupled to a respective temple (210) so that it has an end portion (111) which protrudes overhanging with respect to the temple (220) and penetrates a respective one of such first receiving seats (211) in which it is rotatably coupled to the front (210), an elastic element (130) in abutment with a bottom wall of the respective first receiving seat (211) and the end portion (111), the elastic element (130) is preloaded in compression with a preloading force, the hinging body (110) and the elastic element (130) are configured in such a way that when the respective temple (220) is in the first stable opening position or in the second stable closing position, the elastic element (130) exerts a first thrust force that is equal and opposite to the preloading force on the end portion (111), and when the respective temple (220) passes from the first stable opening position to the second stable closing position, or vice versa, said elastic element (130) is compressed with a compressive force greater than said preloading force exerted by said end portion (111).
A frame (1) for eyeglasses, provided by means of at least one sheet of photoacetate (4) provided with areas which comprise photochromatic pigments and areas lacking photochromatic pigments, organized so as to form geometries, patterns, designs and images desired by the manufacturer.
A semi-finished ophthalmic lens for glasses and the like, including a lens body, within which the at least one tint is defined, a body being over-injected onto the lens body, lacquering layers being respectively arranged to cover the lens body and the over-injected body and in which the at least one tint is made on the convex side, opposite to that of the wearer's eye.
A nose pad (1) for eyeglasses, comprising an element (2) provided with at least one pair of arms (3, 4, 20) and configured to be fixed to a frame (7) of a pair of eyeglasses, each one of the arms (3, 4, 20) being provided with rotation means (8, 9), at least one pair of accommodation means (15, 16, 10, 11) being provided which are adapted to be engaged by said rotation means (8, 9) for an independent adjustment of each one of said accommodation means (15, 16, 10, 11) around said rotation means (8, 9).
Folding eyeglasses, include a front which supports a pair of lenses and a pair of temples hinged to the front, each one of the temples has a proximal portion and a distal portion which are mutually hinged by a hinge. The hinge includes a multi jointed central body configured to allow a first 90° rotation of the distal portion of the temple and a further 90° rotation of the multi jointed central body with respect to the proximal portion of the temple, in order to arrange the proximal portion of the temple and the distal portion of the temple so that they are mutually parallel and superimposed.
A frame for eyeglasses with nose pads, which comprises a frame adapted to accommodate a pair of lenses, each frame portion adapted to accommodate a respective lens being provided with a seat which is adapted to accommodate a nose pad.
A process is described for partially coating a component (1) of an eyeglass frame, such as a temple or a front; the process comprises the steps of providing a first sheet (2) of polymeric material (20) and a second sheet of polymeric material; making at least one seat in the first sheet (2) of polymeric material, wherein the seat is shaped to house the component (1); covering a first portion (11) of the component (1) with an insulating element (3); placing the component (1) in the seat; placing the second sheet on the first sheet (2) wherein the component (1) is placed in the seat; permanently joining the two sheets where they are in contact with each other; removing the polymeric material (20) from the first portion (11) covered with the insulating element (3) of the component (1). The invention also relates to a component of an eyeglass frame obtained by said process, and to a frame comprising at least one of such components.
Hinge assembly for glasses (100) comprising: a support plate (110) comprising a first cantilevered portion (113) and a second cantilevered portion (114) respectively having a first through hole (115) and a second through hole (116); a support body (130) rotatably coupled to the support plate (110), the support body (130) comprising a third through hole (132), a slotted through hole (133) and at least one housing chamber (138); a first arm element (140) and a second arm element (150) having respective first perforated end portions (141, 151) arranged respectively at the first through hole (115) and the second through hole (116), and respective second perforated end portions (142, 152) housed at the third through hole (132), a first coupling pin (136) crossing the third through hole (132); a third arm element (160) and a fourth arm element (170) having respective third perforated end portions (161, 171) rotatably coupled respectively to the first perforated end portions (141, 151) and respective fourth perforated end portions (162, 172) housed at the slotted through hole (133), a second coupling pin (137) crossing the slotted through hole (133); at least one elastic element (139) housed in the at least one housing chamber (138).
Hinge assembly for smart glasses (100) comprising : a support plate (110) which comprises a first cantilevered portion (113) and a second cantilevered portion (114), the support plate (110) comprising an opening (190) between said first cantilevered portion (113) and said second cantilevered portion (114), the support plate (110) comprising a first side wall (128) and a second side wall (129) connecting said first cantilevered portion (113) to said second cantilevered portion (114); a support body (130) rotatably coupled to the support plate (110); a masking and guide body (180) for an electrical cable (220) interposed between the cantilevered portions (113, 114), the masking and guide body (180) for the electrical cable (220) comprising a first rest portion (183) and a second rest portion (184) spaced from each other and at least one bridge element (185) connecting the rest portions (183, 184) to each other, the rest portions (183, 184) facing each other and defining a free gap between them, the distance between said side walls (128, 129) is such as to determine a first angular delay between the rotation of the support body (130) and the rotation of the masking and guide body (180) for the electrical cable (220) and a second angular delay between the rotation of the support body (130) and the rotation of the masking and guide body (180) for the electrical cable (220).
A hinge for electronic eyeglasses includes a first hinge body adapted to be connected to a temple of a pair of eyeglasses, a second hinge body adapted to be connected to a front of the eyeglasses, its particularity residing in that it has a power supply/data cable adapted to be inserted within the temple, in order to pass through the first hinge body and the second hinge body and be redirected toward the front. The first hinge body is constituted by mutually spaced rings, which are adapted to intersect additional rings of the second hinge body, in order to form a set of concentric rings, at least some of the concentric rings being adapted to be mutually connected by a retention pin.
Electronic eyeglasses include a front and a pair of temples respectively connected to the front by hinges. The electronic eyeglasses further include a flexible cable adapted to be incorporated within the front, in order to carry data signals and/or power supply to the temples.
Electronic eyeglasses (1), comprising a front (2) and a pair of temples (3) respectively connected to the front by means of hinges (5) and further comprising a flexible cable (6) adapted to be incorporated within the front (2), in order to carry data signals and/or power to the temples (3), the flexible cable extending at least to nose pads (2a, 2b) and/or to at least one rim region (2c) of the front (2), the flexible cable (6) forming at least one active region (6a, 6b, 6c) at the nose pads (2a, 2b) and/or the rim (2c) which is adapted to act as a capacitive sensor in order to detect gestures on the part of the user.
A temple for eyeglasses, including a temple body which is provided internally with a cavity for accommodating electronic components. The cavity is accessible via an opening formed at the lower surface of the temple body. The temple further includes a covering element adapted to close the cavity by insertion in the cavity.
An eyeglasses component (1), comprising at least one thermoformed polymeric film (2) adapted to act as a support for at least one electronic/electrical and/or magnetic component (3) and is adapted to be at least partially injection-overmolded in order to cover the eyeglasses component.
The present invention relates to a lens (1) tinted and/or shaded according to a particular and predefined shape having at least a first colour zone (A) and at least a second colour zone (B) and/or at least a third shaded zone according to a gradient (C) of transition from colour (A) to colour (B), said at least a second colour zone (B) and/ or said at least a third shaded zone according to a gradient (C) being obtainable by subjecting a lens of colour (A) to a process comprising the following steps: positioning a plurality of lenses (1) on at least one frame (2), arranging said at least one frame (2) above a colouring tank or bath (10), said at least one frame (1) being vertically movable along a first vertical axis z1 and a second vertical axis z2, the stroke of z1 being greater than the stroke of z2, said at least one frame (2) also being rotatable about an axis of rotation (R), perpendicular to said axes z1 and z2, and parallel to the free surface of the bath (10); the shape on the lens (1) being obtained by a combination of movement according to the axis z1 and/or according to the axis z2 and/or according to the rotary axis (r) or the rotation direction (R).
A polarized lens for eyeglasses and the like, which includes a polarizing wafer superimposed on a lens body made of polyamide material and at least one external layer of lacquering which coats externally the polarizing wafer and the lens body,
The polarizing wafer
includes an internal polarizing layer between a first external layer of polyamide and a second external layer of polyamide,
a first layer of glue interposed between the internal polarizing layer and the first external layer of polyamide, and
a second layer of glue interposed between the internal polarizing layer and the second external layer of polyamide, The at least one external layer of lacquering includes at least one polysiloxane or acrylic lacquer.
G02B 1/14 - Protective coatings, e.g. hard coatings
G02B 1/04 - Optical elements characterised by the material of which they are made; Optical coatings for optical elements made of organic materials, e.g. plastics
B29D 11/00 - Producing optical elements, e.g. lenses or prisms
50.
GLASSES FRAME COMPRISING AT LEAST ONE PORTION OF AN ELECTRONIC DEVICE ENCAPSULATED INSIDE AT LEAST ONE ELEMENT THEREOF AND METHOD FOR ENCAPSULATING SAID AT LEAST ONE PORTION OF AN ELECTRONIC DEVICE INSIDE SAID AT LEAST ONE ELEMENT OF A GLASSES FRAME
Glasses frame (10) comprising at least one portion of an electronic device (20) encapsulated inside at least one element (11) of said glasses frame (10), wherein said at least one element (11) of said glasses frame (10) is comprised of a plasticized cellulose acetate mixture, wherein said composition of said mixture provides that at least one portion (12) of said at least one element (11) inside which at least one portion of said electronic device (20) is encapsulated, comprises at least a negligible mass percentage of at least one solvent.
B32B 27/24 - Layered products essentially comprising synthetic resin characterised by the use of special additives using solvents or swelling agents
B29C 51/14 - Shaping by thermoforming, e.g. shaping sheets in matched moulds or by deep-drawing; Apparatus therefor using multilayered preforms or sheets
B29C 65/00 - Joining of preformed parts; Apparatus therefor
Electronic eyeglasses (1), comprising a front (2) and a pair of temples (3, 4) adapted to be connected to the front (2) by means of respective hinges (5, 6); at least one of the temples (3, 4) comprises a capacitive sensor (16a) in order to allow to enter an input on the part of a user and a double capacitive sensor (16b) which is joined thereto and is adapted to detect the condition of the eyeglasses being worn or not by the user and a haptic feedback component (13) in order to return to the user a notification regarding the input entered or other functionalities of the eyeglasses.
The invention relates to a method (100) for maintaining a glasses frame (10) comprising the steps of : performing a scanning (101, 102) of said glasses frame (10), wherein said scanning (101, 102) measures at least one characteristic of said glasses frame (10) comprised in a list comprising a front curve-face form angle, a pantoscopic angle, a curling of a temple curl, a maximum opening temple angle, a temple wrap; saving (103, 105) in a data file said at least one characteristic of the frame (10) as a first configuration if it is an optimal configuration of the frame (10), or as a second configuration if it is a modified configuration of the frame (10); comparing (106) the first configuration with the second configuration; analysing (107) the two configurations and determining the differences (107); indicating (108) problems detected between the two configurations providing indications on how to solve them.
A hinge of the flex type for eyeglasses, the hinge having an internally hollow central hinge body, adapted to be coupled to a second body, which is also internally hollow and is adapted to be coupled to an eyeglasses temple, and to a third body adapted to be coupled to the front of the eyeglasses. It is possible to assemble the central body and the second and third body in a pack, in order to define internally the passage of a data/power cable, the central body allowing an accumulation of the data/power cable and ensuring the passage of the cable between the temple and the front without stretching and/or torsion.
A device (1) for detecting the condition of eyeglasses being worn, which comprises a sensor (2) adapted to be accommodated inside a temple (3) of a pair of eyeglasses and comprising at least one first active area (4) and at least one second active area (5), the first active area (4) being adapted to be directed toward the head of the user, the second active area (5) being adapted to be directed outward.
A case (1) for electronic devices, which comprises a case body (2) that is adapted to accommodate an electronic device (3), and is provided with at least one receptacle (2a, 2b) for the electronic device (3); retention means (7) being arranged at the at least one receptacle (2a, 2b) of the electronic device, at least one of the retention means (7) being provided with charging means (10, 11), the retention means (7) being adapted to pass from an inactive position to an active position, in contrast with the action of elastic means (8), in which the retention means (7) contact a charging area of the electronic device and at the same time lock the electronic device inside the case body (2) when the electronic device is stored inside the case body.
Photochromic lens (10) for glasses, comprising photochromic dyes (15), wherein said photochromic dyes (15) are suitable for passing from a not activated state to an activated state, wherein said activated state of said photochromic dyes (15) provides that photochromic dyes (15) change colour when hit by an electromagnetic radiation, wherein said photochromic lens(10) comprises at least a first portion (21) and at least a second portion (22), wherein said at least a first portion (21) comprises a reflecting material coating (30) reflecting said electromagnetic radiation, wherein said at least a second portion (22) is devoid of said coating (30), wherein said photochromic lens (10) comprises a first surface (11) comprising said at least a first portion (21) and said at least a second portion (22), wherein said first surface (11) faces outward from the glasses, outward meaning a direction with respect to the photochromic lens (10) mounted on a glasses frame.
Eyeglasses with a simplified hinge, having a front of the eyeglasses and a pair of temples, with a cavity is defined in the front for accommodating a retention and locking element which is adapted to be engaged by a hook-shaped portion of one end of each one of the temples. The retention and locking element is adapted to be accommodated in the cavity of the front, when it is coupled to the hook-shaped end of the temple, in order to couple the temple to the front.
Eyeglasses with simplified hinge include a pair of lenses, a pair of temples and a hinge for connection between each one of the temples and the lenses. The hinge includes an element for connecting the lens and the temple, adapted to be connected to the lens at one end and provided, at an opposite end, with a portion adapted to engage a retention and locking element. The temple is provided with a cavity adapted to accommodate and lock the retention and locking element, the retention and locking element acting as a rotation fulcrum for the temple with respect to the connecting element.
A method for the creation of decorations and/or logos on materials made of metal, preferably but not exclusively for parts of eyeglasses and the like, which comprises the steps of: - starting from a substrate (1) made at least partly of a metallic material, performing a first galvanic deposition and a second galvanic deposition, depositing a first and a second layer of material (3, 4) on the substrate (1), wherein at least one material of the first and second galvanic depositions is a precious metal; - removing at least partially the surface layer (4) that derives from the second galvanic deposition, leaving the underlying layer (3) that derives from the first galvanic deposition substantially unchanged, so as to form a groove; - the groove having a substantially constant depth along its entire extension.
C25D 5/10 - Electroplating with more than one layer of the same or of different metals
B44C 1/22 - Removing surface-material, e.g. by engraving, by etching
C25D 5/12 - Electroplating with more than one layer of the same or of different metals at least one layer being of nickel or chromium
C25D 5/14 - Electroplating with more than one layer of the same or of different metals at least one layer being of nickel or chromium two or more layers being of nickel or chromium, e.g. duplex or triplex layers
C25D 5/48 - After-treatment of electroplated surfaces
The present invention relates to an eyeglass lens with decorative element, comprising a decorative and/or functional element (3) glued at the concave part of the lens (2), the lens being made of a plastic material, the decorative element (3) being arranged between the concave part of the lens (2) and a further layer of polymeric material (5).
Semi-finished ophthalmic lens for glasses and the like, the peculiarity of which is that it consists in comprising a lens body (2), within which the at least one tint (3, 4) is defined, a body (5) being over-injected onto the lens body (2), lacquering layers (6, 7) being respectively arranged to cover the lens body (2) and the over injected body (5) and in which the at least one tint (3, 4) is made on the convex side, opposite to that of the wearer's eye.
Folding eyeglasses (1), comprising a front (2) which supports a pair of lenses (3) and a pair of temples (4) hinged to the front (2), each one of the temples (4) comprises a proximal portion (4a) and a distal portion (4b) which are mutually hinged by means of a hinge (5); the hinge (5) comprises a multi-jointed central body (6) configured to allow a first 90° rotation of the distal portion (4b) of the temple (4) and a further 90° rotation of the multi-jointed central body (6) with respect to the proximal portion (4a) of the temple (4), in order to arrange the proximal portion (4a) of the temple (4) and the distal portion (4b) of the temple so that they are mutually parallel and superimposed.
Electronic eyeglasses include a front body adapted to retain at least one lens and two lateral ends to each of which a temple for fixing the eyeglasses to the head of the user is connected. The eyeglasses includes one or more electronic components including at least one electronic acquisition component. The electronic components are accommodated exclusively inside at least one of the two temples and in that the at least one temple that accommodates the electronic components has at least one optical element which provides optical communication between at least one electronic acquisition component and the outside environment.
Electronic eyeglasses (1), comprising a front (2) and a pair of temples (3) respectively connected to the front by means of hinges (5), and comprising a flexible cable (6) adapted to be incorporated within the front (2), in order to carry data signals and/or power supply to the temples (3).
Electronic eyeglasses (1), comprising a front (2) and a pair of temples (3) respectively connected to the front by means of hinges (5), and comprising a flexible cable (6) adapted to be incorporated within the front (2), in order to carry data signals and/or power supply to the temples (3).
A hinge for electronic eyeglasses, comprising a first hinge body adapted to be connected to a temple of a pair of eyeglasses, a second hinge body adapted to be connected to a front of the eyeglasses, its particularity residing in that it comprises a power supply/data cable adapted to be inserted within the temple, in order to pass through the first hinge body and the second hinge body and be redirected toward the front; the first hinge body (2) is constituted by a plurality of mutually spaced rings (4), which are adapted to intersect a plurality of rings (8) of the second hinge body (6), in order to form a plurality of concentric rings, at least some of the concentric rings being adapted to be mutually connected by means of a retention pin (5)·
A hinge for electronic eyeglasses, comprising a first hinge body adapted to be connected to a temple of a pair of eyeglasses, a second hinge body adapted to be connected to a front of the eyeglasses, its particularity residing in that it comprises a power supply/data cable adapted to be inserted within the temple, in order to pass through the first hinge body and the second hinge body and be redirected toward the front; the first hinge body (2) is constituted by a plurality of mutually spaced rings (4), which are adapted to intersect a plurality of rings (8) of the second hinge body (6), in order to form a plurality of concentric rings, at least some of the concentric rings being adapted to be mutually connected by means of a retention pin (5)·
Eyeglasses with audio playback function include a front body adapted to retain at least one lens and includes first and second lateral ends to which respectively a first temple and a second temple for fixing the eyeglasses to the head of the user are connected. The eyeglasses also include electronic components, which include at least one audio driver. The eyeglasses are configurable at least in an open condition, which allows the eyeglasses to be worn by the user and in which the first temple and the second temple are arranged substantially parallel to each other and at right angles to the front body. The electronic components are accommodated exclusively inside the two temples.
A temple (1) for eyeglasses, comprising a temple body (2) which is provided internally with a cavity (3) for accommodating electronic components; the cavity (3) is accessible via an opening (5) formed at the lower surface of the temple body (2), a covering element (6) being adapted to close the cavity (3) by insertion in the cavity (3).
A temple (1) for eyeglasses, comprising a temple body (2) which is provided internally with a cavity (3) for accommodating electronic components; the cavity (3) is accessible via an opening (5) formed at the lower surface of the temple body (2), a covering element (6) being adapted to close the cavity (3) by insertion in the cavity (3).
A polarized lens (1) for eyeglasses and the like, which comprises a polarizing wafer (20) superimposed on a lens body (30) made of polyamide material and at least one external layer of lacquering (51, 52) which coats externally the polarizing wafer (20) and the lens body (30), wherein the polarizing wafer (20) comprises: - an internal polarizing layer (23) comprised between a first external layer of polyamide (21) and a second external layer of polyamide (24), - a first layer of glue (22A) interposed between the internal polarizing layer (23) and the first external layer of polyamide (21), and - a second layer of glue (22B) interposed between the internal polarizing layer (23) and the second external layer of polyamide (24), and wherein the at least one external layer of lacquering (51, 52) comprises at least one polysiloxane or acrylic lacquer.
A polarized lens (1) for eyeglasses and the like, which comprises a polarizing wafer (20) superimposed on a lens body (30) made of polyamide material and at least one external layer of lacquering (51, 52) which coats externally the polarizing wafer (20) and the lens body (30), wherein the polarizing wafer (20) comprises: - an internal polarizing layer (23) comprised between a first external layer of polyamide (21) and a second external layer of polyamide (24), - a first layer of glue (22A) interposed between the internal polarizing layer (23) and the first external layer of polyamide (21), and - a second layer of glue (22B) interposed between the internal polarizing layer (23) and the second external layer of polyamide (24), and wherein the at least one external layer of lacquering (51, 52) comprises at least one polysiloxane or acrylic lacquer.
an insert, which is at least partially embedded within the nose pad and is visible from the outside through a transparent portion of the resting surface of the nose pad.
A flexible temple for eyeglasses has a temple body which has a fork-shaped end adapted to form a slot within which a slider can slide in contrast with the action of an elastic component. The elastic component is accommodated in a preloaded condition in the slider.
A hinge of the flex type (1) for eyeglasses, the peculiarity of which consists in that it comprises an internally hollow central hinge body (5), adapted to be coupled to a second body (6), which is also internally hollow and is adapted to be coupled to an eyeglasses temple (3), and to a third body (12) adapted to be coupled to the front of the eyeglasses, it being possible to assemble the central body and the second and third body in a pack, in order to define internally the passage of a data/power cable (20), the central body (5) allowing an accumulation of the data/power cable (20) and ensuring the passage of the cable (20) between the temple (3) and the front (4) without stretching and/or torsion.
A hinge of the flex type (1) for eyeglasses, the peculiarity of which consists in that it comprises an internally hollow central hinge body (5), adapted to be coupled to a second body (6), which is also internally hollow and is adapted to be coupled to an eyeglasses temple (3), and to a third body (12) adapted to be coupled to the front of the eyeglasses, it being possible to assemble the central body and the second and third body in a pack, in order to define internally the passage of a data/power cable (20), the central body (5) allowing an accumulation of the data/power cable (20) and ensuring the passage of the cable (20) between the temple (3) and the front (4) without stretching and/or torsion.
A multilayer lens for eyeglasses includes a substrate and at least one layer of precious metal. The layer of precious metal is arranged on the concave side of the substrate and is adapted to be directed toward the eye of the wearer of the lens. Eyeglasses may include one or more of these lenses.
A bistable hinge element for an eyeglasses frame, which includes a temple cage having a bottom extended laterally by two longitudinal side walls which define a housing that opens onto the proximal transverse face through an opening that is U-shaped in cross-section. The hinge element further includes a front cage which has a bottom extended laterally by two longitudinal side walls which define a housing that opens onto the proximal transverse face through an opening that is U-shaped in cross-section, and a solid body that is elastically deformable along the longitudinal axis, and which has a central portion, with a cross-section corresponding to the transverse cross-section of the U-shaped openings, which is extended at each end by a bulge of a cross-section that is complementary to the transverse cross-section of the housings of the temple and front cages.
Eyeglasses (1) with a simplified hinge, comprising a front (2) of the eyeglasses and a pair of temples (3), a cavity (4) is defined in the front for accommodating a retention and locking element (9) which is adapted to be engaged by a hook-shaped portion (6) of one end of each one of the temples, the retention and locking element (9) being adapted to be accommodated in the cavity (4) of the front, when it is coupled to the hook-shaped end (6) of the temple, in order to couple the temple (3) to the front (2).
Eyeglasses (1) with a simplified hinge, comprising a front (2) of the eyeglasses and a pair of temples (3), a cavity (4) is defined in the front for accommodating a retention and locking element (9) which is adapted to be engaged by a hook-shaped portion (6) of one end of each one of the temples, the retention and locking element (9) being adapted to be accommodated in the cavity (4) of the front, when it is coupled to the hook-shaped end (6) of the temple, in order to couple the temple (3) to the front (2).
Eyeglasses (1) with simplified hinge, comprising a pair of lenses (2), a pair of temples (3) and a hinge for connection between each one of the temples and the lenses; the hinge comprises an element (7) for connecting the lens (2) and the temple (3), adapted to be connected to the lens at one end and provided, at the opposite end, with a portion (6) adapted to engage a retention and locking element (9), the temple (3) being provided with a cavity (4) adapted to accommodate and lock the retention and locking element (9), the retention and locking element (9) acting as a rotation fulcrum for the temple (3) with respect to the connecting element (7).
Eyeglasses (1) with simplified hinge, comprising a pair of lenses (2), a pair of temples (3) and a hinge for connection between each one of the temples and the lenses; the hinge comprises an element (7) for connecting the lens (2) and the temple (3), adapted to be connected to the lens at one end and provided, at the opposite end, with a portion (6) adapted to engage a retention and locking element (9), the temple (3) being provided with a cavity (4) adapted to accommodate and lock the retention and locking element (9), the retention and locking element (9) acting as a rotation fulcrum for the temple (3) with respect to the connecting element (7).
Eyeglasses with audio playback function (10), comprising: a front body (20) adapted to retain at least one lens (30) and comprising a first lateral end (21a) and a second lateral end (21b) to which respectively a first temple (40a) and a second temple (40b) for fixing the eyeglasses (10) to the head of the user are connected; a plurality of electronic components (51a, 51b, 52a, 52b, 53a, 53b), which include at least one audio driver (53a, 53b); the eyeglasses (10) being configurable at least in an open condition, which allows the eyeglasses to be worn by the user and in which the first temple (40a) and the second temple (40b) are arranged substantially parallel to each other and at right angles to the front body (20), characterized in that the electronic components (51a, 51b, 52a, 52b, 53a, 53b) are accommodated exclusively inside the two temples (40a, 40b).
Electronic eyeglasses (10a, 10b, 10c, 10d) comprising: a front body (20) adapted to retain at least one lens (30) and comprising two lateral ends (21a, 21b) to each of which a temple (40, 40e) for fixing the eyeglasses (10a, 10b, 10c, 10d) to the head of the user is connected, and one or more electronic components (51, 52) including at least one electronic acquisition component (52), characterized in that the electronic components (51, 52) are accommodated exclusively inside at least one (40e) of the two temples and in that the at least one temple (40e) that accommodates the electronic components (51, 52) comprises at least one optical element (60) which provides optical communication between at least one electronic acquisition component (52) and the outside environment.
A nose pad (5) for the nosepiece of a pair of eyeglasses, which is made of material that is at least partially transparent and defines a resting surface (S) which can be rested directly on the nose of a user; a connecting portion (5b), which is fixed to the nose pad (5) and is provided with a through hole for connection to a supporting pin (2b) which is integral with the frame of the pair of eyeglasses; an insert (7), which is at least partially embedded within the nose pad (5) and is visible from the outside through a transparent portion of the resting surface (S) of the nose pad (5); the connecting portion (5b) of the nose pad (5) being made of a material that is deformable at least elastically, the insert (7) being provided with an identification device (15) that is adapted to be read by an external reading device.
A flexible temple (1) for eyeglasses, comprising a temple body (2) which has a fork-shaped end (2a, 2b) adapted to form a slot (4) within which a slider (6) can slide in contrast with the action of elastic means (7), the elastic means (7) being accommodated in a preloaded condition in the slider (6).
A flexible temple (1) for eyeglasses, comprising a temple body (2) which has a fork-shaped end (2a, 2b) adapted to form a slot (4) within which a slider (6) can slide in contrast with the action of elastic means (7), the elastic means (7) being accommodated in a preloaded condition in the slider (6).
A multilayer lens for eyeglasses, which comprises a substrate (2), and at least one layer (5) of precious metal; the layer (5) of precious metal is arranged on the concave side of the substrate (2) adapted to be directed toward the eye of the wearer of the lens.
A multilayer lens for eyeglasses, which comprises a substrate (2), and at least one layer (5) of precious metal; the layer (5) of precious metal is arranged on the concave side of the substrate (2) adapted to be directed toward the eye of the wearer of the lens.
Certain embodiments disclosed herein include lenses for eyewear with a molded wafer and a molded clear resin lens component integrated onto a surface of the molded wafer. The molded wafer can include an optical filter that enhances one or more properties of filtered light. The optical filter can be, for example, a contrast-enhancing, color-enhancing, and/or chroma-enhancing filter. The clear resin lens component can be shaped such that the lenses have optical power. In some embodiments, the molded wafer is integrated onto a surface of a polarizing wafer.
Certain embodiments disclosed herein include lenses for eyewear with a molded wafer and a molded clear resin lens component integrated onto a surface of the molded wafer. The molded wafer can include an optical filter that enhances one or more properties of filtered light. The optical filter can be, for example, a contrast-enhancing, color-enhancing, and/or chroma-enhancing filter. The clear resin lens component can be shaped such that the lenses have optical power. In some embodiments, the molded wafer is integrated onto a surface of a polarizing wafer.
Certain embodiments disclosed herein include lenses for eyewear with a molded wafer and a molded clear resin lens component integrated onto a surface of the molded wafer. The molded wafer can include an optical filter that enhances one or more properties of filtered light. The optical filter can be, for example, a contrast-enhancing, color-enhancing, and/or chroma-enhancing filter. The clear resin lens component can be shaped such that the lenses have optical power. In some embodiments, the molded wafer is integrated onto a surface of a polarizing wafer.
