巴西专利BR112013005366B1 glasses and respective nasal part

专利PDF首页>>巴西专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
SUNGLASSES AND THEIR NASAL PIECE The present description generally refers to spectacles and more particularly, and a nasal piece for a spectacle frame configured to prevent entanglement or interference with external objects while raising or lowering spectacles to or from a viewing position.
公开号:BR112013005366B1
申请号:R112013005366-6
申请日:2011-08-31
公开日:2020-10-27
发明作者:Steven Ogren
申请人:Oakley, Inc；
IPC主号:

专利说明:

DESCRIPTIVE REPORT RELATED REQUESTS
[001] This Order claims the benefit of Provisional Order US 61 / 381,036, filed on September 8, 2010, entitled “Nosepad Connector for Eyeweare”, the total content of which is thereby incorporated by reference and has become a part of this Descriptive Report. BACKGROUND OF THE INVENTION Field of the Invention
[002] The present invention generally relates to glasses and more particularly, nasal parts for glasses. Description of the Related Art
[003] Glasses usually include a front part with a pair of optical lenses or optical zones on opposite sides of a nasal bridge. A pair of ear buds typically extends in a posterior direction (for example, rear) from the front. A nasal piece may comprise a pair of bilaterally symmetrical nasal plugs that typically extend medially (for example, internally) and / or in a posterior direction from opposite medial sides of the nasal bridge to help support glasses over a user's nose. Each nasal piece can include a support structure connected between the tag and orbital to provide additional adjustment and comfort to the user. SUMMARY
[004] The present description generally refers to glasses and, more particularly, to the nasal parts for an eyeglass structure configured to prevent entanglement or other interference with external objects at the same time as increasing or reducing or otherwise moving the eyeglass to or from a viewing position. BRIEF DESCRIPTION OF THE DRAWINGS
[005] The attached drawings, which are intended to illustrate and not to limit the invention, provide examples, in which:
[006] FIG. 1 is a left and right side perspective view of a spectacle modality with a nasal piece;
[007] FIG. 2 is a front elevation view of the glasses in Figure 1;
[008] FIG. 3 is a rear elevation view of the glasses in Figure 1;
[009] FIG. 4 is a bottom plan view of the glasses in Figure 1;
[0010] FIG. 5 is a top plan view of the glasses in Figure 1;
[0011] FIG. 6 is a perspective view from the left and close up, partial view of a pair of nasal plugs for the glasses in Figure 1;
[0012] FIG. 7 is a partial profile view taken along line 7-7 of Figure 6;
[0013] FIG. 8 is a partial profile view taken along line 8-8 of Figure 6;
[0014] FIG. 9 is a partial profile view as in Figure 8 of another construction of a nasal tag;
[0015] FIG. 10 is a partial profile view as in Figure 8 of another construction of a nasal tag;
[0016] FIG. 11 shows a schematic side view of a nasal piece support;
[0017] FIG. 12 shows a schematic side view of a nasal support.
[0018] FIG. 13 shows a schematic side view of a nasal support;
[0019] FIG. 14 shows a schematic side view of a nasal piece support;
[0020] FIG. 15 illustrates a partial side view of a nose piece support formed integrally with an eyeglass frame;
[0021] FIG. 16 illustrates a side view in partial profile of a nameplate holder attached to and supporting a nameplate;
[0022] FIG. 17 illustrates a partial side view of a nameplate holder attached to and supporting a nameplate;
[0023] FIG. 18 is a rear elevation of a nasal piece having support structures attached directly to a pair of lenses;
[0024] FIG. 19 is a side view of a nameplate holder attached to and supporting a nameplate. DETAILED DESCRIPTION OF THE DRAWINGS
[0025] There are many different forms of glasses, including safety glasses, shielding glasses, goggles etc. There are also many different forms of safety glasses, including prescription or corrective safety glasses, sunglasses, soft safety glasses, dual lens safety glasses, single lens safety glasses, glass lens safety glasses, polymeric lens safety glasses, framed safety glasses, frameless safety glasses etc. In some embodiments, eyeglasses such as the illustrated safety glasses include a front with left and right orbitals that support a pair of ophthalmic or piano optical lenses on opposite sides of a nasal bridge. A pair of ear buds can extend in a rear direction (for example, rear) from the front. A nose piece is provided to help support safety glasses over a user's nose. The nose piece may include a pair of nose piece platelets that extend medially (for example, internally) and / or in a posterior direction from opposite sides of the orbitals under the nose bridge. Each tag may include a support structure connecting the tag to the glasses (for example, through the frame) to provide additional position stability and user comfort.
[0026] In some modalities, the nasal piece comprises a left and a right plate. Each nameplate is connected to the adjacent part of the glasses (for example, an orbital) by an arched or curvilinear support. A first end of the holder is welded, based or otherwise connected to the median edge of the glasses. The support generally extends upwards to an apical region and then generally descends downwards to a connection point on the platelet. The connection to the tag may comprise a swivel joint or a flex point to provide a range of motion for the tag to improve fit.
[0027] In some embodiments, an arched support has an apex on the upper side and a downward opening concavity. A user may occasionally suspend safety glasses from a first position in use in front of the user's normal line of sight to a second resting position across the top of the user's head. When the user returns the safety glasses from the other side of the top of the head to the normal position in front of the line of sight, the downward concavity of the nasal part holder and / or the swivel connection between the holder and the plate may become entangled with external objects, such as the wearer's hair, jewelry, etc. In some modalities described here, the shape of the nasal piece support can help to minimize, decrease, or eliminate tangle or other interference.
[0028] Figures 1-5 illustrate various views of an eyewear structure modality 10. The structures and steps described here can be used or applied to any type of glasses. The spectacle frame 10 can include a front part 20 and a pair of eartip parts 30 to hold the glasses on the wearer's head. The front part 20 can include a pair of lens holders, for example, orbitals 40, which can be configured to support a pair of lenses or optical zones 50. The front part 20 can also include a nose bridge 60 comprising one or more members that extend between the opposite medial or internal sides of orbitals 40. The nasal bridge 60 is shown with two generally horizontal nasal bridge members 61, 63 that extend between the opposite median sides of orbitals 40 and approaches an upper part ( for example, higher) of the 40 orbitals. In some embodiments, the glasses may comprise a single support or an integrated nasal bridge as part of the structure, orbitals, lenses 50 etc.
[0029] The eartips 30 can extend in a posterior direction from opposite lateral sides (for example, external) of the front part 20. In some embodiments, each eartip 30 can be connected to the front part 20 by a hinge 70, for be movable between a folded position and an open position relative to the front part 20. In some embodiments, each part of the eartip can be connected to or unitarily formed with the front part, the eartips being substantially fixed relative to the front part. In some embodiments, the ear buds can be flexible to be movable between a folded position and an open position relative to the front without a hinge.
[0030] The 40 orbitals are shown completely around the lenses 50 for exemplary purposes only. The orbitals can alternatively only partially surround the lenses, as in the modalities in which a support extends over only a lower or upper part of the lenses or in rimless spectacle structures, in which the ear buds and / or the nasal bridge are mounted directly on the lens, without orbitals. In addition, although the illustrated eyeglass structure 10 includes a pair of orbitals 40 supporting a pair of optical lenses 50, other arrangements are possible, such as those where a single unitary lens extends across both the left and the left eye sight lines. user right. The front part 20, ear buds 30, orbitals 40 and lenses 50 can comprise any of many different shapes, sizes, materials and configurations. Injection molding, casting, machining and other construction techniques can be used for these components.
[0031] Nasal piece 80 can be permanently or removably attached to orbitals, structure, lenses etc. to support the glasses on a user's nose. The modalities of nasal piece 80 are described here in the context of eyeglass frames for exemplary purposes only and can be used in other types of eyeglasses. Nasal piece 80 can attach to the opposite middle parts of each of the orbitals 40 and, in some embodiments, to the bottom (e.g., below) of the nasal bridge 60, as shown for exemplary purposes in Figures 1-5. In some embodiments, a nasal piece can attach to various parts of the structure 10, including the orbitals 40, nasal bridge 60, lenses 50 and / or any intermediate support structure, etc. The modality shown in Figure 18 shows, for exemplary purposes only, nasal piece 80 attached to the opposite middle parts of each of the lenses 50.
[0032] Each of the nasal pieces 80 can extend in an anterior (for example, front) direction, or posterior to their point of attachment to the structure 10 (for example, the opposite median edges of the 40 orbitals). Each of the nasal pieces 80 can extend laterally or medially from their point of attachment to the structure 10. The illustrated embodiment shows different parts of the nasal pieces 80 that extend both medially and in a posterior direction from the opposite median edges of the orbitals. Nasal parts 80 can be permanently or removably attached to the eyeglass frame 10 in many ways, such as with fasteners, threads, adhesives, welding, welding, ultrasonic bonding, friction adjustment, pressure adjustment, fitting adjustment and others . Nasal parts 80 can be formed separately, or integrally with several parts of the structure 10, including any of the orbitals 40, nasal bridge 60, lenses 50 and / or any intermediate support structure. Each of the nasal pieces 80 can comprise a tag to improve the comfort and fit of the nasal piece 80 and a tag support structure for supporting the tag, as further described here.
[0033] Figure 6 is a perspective view of the left and rear, partial, partial view of a nasal piece modality 80 supported by the spectacle structure 10 of Figures 1-5. Figure 7 is a side view of an embodiment of nasal piece 80 taken along line 7-7 of Figure 6. Referring to both Figures 6 and 7, nasal piece 80 may comprise a left platelet support and right 81 extending between a part of the frame 10 and a corresponding left and right nasal piece plate 84. The plate holder 81 and plate 84 can be configured to reduce jerky movements of objects in the nasal piece 80, to provide greater support for the plate 84 and / or for aesthetic purposes. In some embodiments, the platelet support 81 can be configured to be attached to a part of the structure 10 (e.g., orbital 40) or to the lenses, or optical zones, to form a partially, substantially, or completely closed cell 83 between the platelet 84 and said part of structure 10, to reduce sudden movements or capture of foreign objects between the platelet and adjacent orbital or platelet support.
[0034] The nose piece plate 84 can comprise any of many different shapes, such as a substantially circular, semicircular, substantially oval, substantially elliptical, substantially rectangular, substantially trapezoidal, substantially triangular, substantially oval or substantially drop (e.g. an inverted drop shape as illustrated), among others. When mounted, the plate 84 may have a medium surface that contacts the user's nose and a side surface facing in the opposite direction. The platelet 84 can include various contours (for example, Figure 8), perforations, protrusions, ridges, surface textures, or coatings particularly on the median surface for greater grip, stability and comfort for a user's nose. The plate 84 may comprise an elastomeric, elastic and / or conforming material, such as a soft polymer, for a secure and comfortable fit. The nasal piece plate 84 can comprise two or more components that mount on opposite sides of the plate holder 81, such as two or more parts with corresponding contact surfaces (for example, “shell” shapes) that can be adjusted by fit, adhesive-bonded or otherwise attached to each other. The nasal piece plate 84 may comprise approximately straight edges, sides or surfaces, generally parallel, tapered and / or curved, over any length, width or thickness. In the exemplary embodiment of Figures 6 and 7, the nasal piece plate 84 is an oblong shape, with a greater radius curve at its upper end than at a lower end.
[0035] The nasal piece plate 84 can comprise any of many different materials, such as plastics or metal. Rubber or elastomeric materials can be used. Each plate 84 may comprise more than one material, such as a composite, or a metal coated with rubber, plastic or foam. The platelet 84 can be thermally, chemically or mechanically treated to deliver, or can comprise any material that provides increased durability, flexibility, adsorption or absorption of moisture, thickness and / or chemical resistance. The platelet 84 may comprise a material of any color and may comprise a substantially transparent, opaque, or translucent material, or any combination thereof. In one embodiment, a portion of the platelet 84 is substantially transparent or translucent, to allow a user to view a portion of the platelet support 81 through it. The color, transparency, translucency and / or opacity of the platelet material 84 can be selected for aesthetic reasons (for example, to show or hide part of the platelet support 81 via the platelet 84), or for the specific optical characteristics of the material of platelets (for example, their reflectivity, refractivity, etc.).
[0036] The nasal piece plate 84 and the platelet support 81 can attach to each other and can be separated or integrally formed with each other, such as using any structure or methods described here also to secure nasal piece 80 to a part of the structure 10. In some embodiments, as illustrated, the platelet support 81 connects with the platelet 84 in at least two points, such as an upper point of the connection and a lower point of the connection with a generally continuous loop between the two connection points. As illustrated, the platelet holder 81 can contact the platelet 84 along a majority of the circumference of the platelet 84. In some embodiments, the nasal piece platelet can attach to the platelet holder in many different ways, such as with a fit friction, pressure adjustment, snap adjustment, interference adjustment, etc. In some embodiments, the nasal part plate 84 may include a receiving part, for example, a notch and / or channel, such as at a peripheral edge of the plate or at a mounting post extending from the side surface of the plate, configured to easily receive and attach the platelet 74 to the support structure 81. As illustrated, the peripheral or circumferential region of the platelet 84 can extend externally beyond the support structure 81 along all or substantially the entire region of the nasal part that is configured to contact a user's face to provide a comfortable fit. The receiving portion may allow a user to easily assemble and / or remove the frame 84 from frame 10 for cleaning or replacement.
[0037] Figure 8 is a side view of a modality of the nasal part taken along line 8-8 of Figure 6. Referring to Figures 6-8, the plate 84 can comprise a receiving part, illustrated as a notch 85, dimensioned and formed to permanently or removably receive and be supported opposing a part of the platelet support 81. The notch 85 may comprise a depth extending radially internally from a peripheral edge on the outer side of the platelet 84. A Figure 8 shows the notch 85 dimensioned and molded to only partially receive the plate support 81 on it. The platelet 84 may include a receiving portion configured such that the platelet support 81 can be mounted approximately full (Figure 9), or partially recessed (Figure 10) relative to a surface of the plate 84. In some embodiments, the depth of the notch 85 can be at least as large as the diameter or profile width of the platelet support 81. The platelet support 81 can carry or support the platelet 84 by partially, substantially completely, or completely surrounding the peripheral edge of the platelet, within the notch 85.
[0038] In some embodiments, the notch 85 may extend around at least about 25%, at least about 50%, at about 75% to about 100% of the peripheral edge of the platelet 84.
[0039] In some embodiments, the width (for example, diameter) of the notch 85 can be within the range of about 20% to about 80% of the thickness of the platelet 84. In Figures 8 and 10, the notch 85 is shown approximately centered relative to the central plane of the platelet 84. The notch 85 can be positioned medially or laterally relative to the thickness of the platelet 84.
[0040] The platelet support 81 shown in Figure 6 resides in a notch 85 and surrounds a sufficient perimeter of the platelet 84 to secure the platelet 84 to the orbital of the glasses under normal conditions of use. In some embodiments, the platelet support 81 can extend around at least about 50%, at least about 70%, or at least about 85% of the circumference or periphery of the platelet. In the embodiment of Figure 16, described below, the platelet support 81 surrounds the total peripheral edge of the platelet 84.
[0041] Although the profile shape of the platelet support 81 and complementary notch 85 (Figure 8) is illustrated as substantially circular, the platelet support 81 can comprise many different profile shapes, such as substantially the square, ovular, rectangular shapes , triangular (inverted or otherwise), trapezoidal, arc-shaped, semicircular, or any other shape that can be received by and reside in a complementary notch 85.
[0042] Figure 9 is a profile view of a type of platelet 84 comprising a notch 185 positioned along a longitudinal side 94 of the platelet 84. In many respects, the platelet 84 and the notch 185 are substantially similar to and can function structurally similar to the platelet 84 and notch 85 shown in Figures 6-8. The platelet 84 and notch 185 differ in that the notch 185 can extend in depth transversely internally from a side surface 94 of platelet 84. When the plate 84 is mounted on the platelet support 81, the side surface 94 can be positioned at the side medially, such that the side surface 94 contacts the nose of a user, or laterally, such that the surface of the opposite side 95 contacts the nose of a user. The "median" and "lateral" directions as used here in reference to the platelets, platelet support and elements thereof, may alternatively or additionally be defined as "anterior" and "posterior" directions, respectively, relative to structure 10 and its other components, depending on the assembly of the nasal piece 80 relative to the structure 10 (see, for example, Figures 4 and 5).
[0043] The notch 185 may comprise a tab 88 that extends partially over the opening of the notch 185, to also incorporate the support into the nameplate and thereby provide improved connection and support. Tab 88 is not limited to the modality of the platelet 84 shown in Figure 9 and can be used with the other modalities of the platelets described here. The notch 185 can extend around the circumference of the lateral surface 94, spaced internally from the peripheral edge like the notch 85 described above.
[0044] Figure 10 illustrates a modality of platelet 84 comprising an embedded channel 87. Channel 87 is structurally similar to and can function in a similar manner to notches 85, 185 in Figures 6-9. Channel 87 differs from notch 85 in that channel 87 is more deeply embedded in the peripheral edge of the platelet, to provide additional support for platelet 84, or for aesthetic purposes.
[0045] Channel 87 may comprise a slot, or opening 187 along a little, most, or all of its length to allow passage of the platelet support 81 into channel 87 while the platelet 84 is being attached to the support structure 81. In some embodiments, the nameplate can be mounted on the nameplate support by adjusting the nameplate pressure by wrapping the nameplate and allowing the nameplate to elastically deform until the nameplate nameplate has been received in the corresponding channel. For this purpose, a platelet is preferably formed of suitably elastic material such as silicone rubber, or styrenic block copolymers such as a polystyrene rubber copolymer available from Krayton Polymers, Inc. The higher (more rigid) durometer materials can be used and molded around the platelet support 81. In some embodiments, the channel 87 coils completely around the longitudinal circumference of the platelet support 81.
[0046] Channel 87 may comprise an opening 188 along the peripheral edge or one side of the platelet 84 into which an elongated part of the structure 81 can be inserted (see Figure 13). The openings 188 may be positioned on either or both sides (for example, median or lateral side) of the platelet 84.
[0047] Referring again to Figures 6 and 7, the platelet support 81 can comprise any of a variety of materials with sufficient rigidity to support the platelet 84 and the supporting glasses structure 10 over a user's nose. In some embodiments, the support structure 81 comprises a metal such as a metal wire support formed with sufficient flexibility to allow adjustment of the support structure to fit the user's nose. As shown in Figure 6, either or both of the upper and lower structures 86, 82 can be formed and oriented to follow a generally smooth, curvilinear path that proceeds continuously upwards (for lower support 82) and / or continuously downwards (for upper support 86) from the point or region of contact with the ear surface on the side of the glasses to the point of first contact with the plate 84.
[0048] The platelet support 81 can comprise a platelet support member 89, such as a closed metal handle configured to at least partially surround and support the platelet 84. As illustrated, in some embodiments, the platelet support member and supports 82, 86 can be integrated together in a unitary manner. In some embodiments, the platelet support 81 (for example, platelet support member 89, supports 82, 86) and / or platelet 84 and / or structure 10 (for example, orbital 40) may comprise a rotating member that allows the plate 84 rotates relative to the plate support 81 and / or allows the plate support 81 to rotate relative to the structure 10, for comfort and adjustment of the nasal piece 80 to a user's nose. The rotating member can comprise any of the many structures known in the art that provide rotary movement, such as an axle, bearing, hinge, pin, ball and socket, axle, rotary joint, coupling, disc, gears, or sliding relationship between the support handle 89 and the plate 84.
[0049] The platelet support member 89 can be configured to attach directly to a part of structure 10, or it can attach to one or more intermediate support elements that are attached to structure 10. In some embodiments, the support of nameplate 81 can comprise a nameplate support member 89 which is attached to two support elements, for example, first and second supports 82 and 86, each of which can be attached to a part of frame 10 (e.g. orbitals 40) .
[0050] The curvature (if any), shape and positioning (for example, relative to structure 10 and platelet 84) of supports 82 and / or 86 is preferably selected to reduce the occurrence of sudden hair movement in nasal piece 80 and potentially to provide greater support. Supports 82 and 86 can comprise any of many shapes, such as any of the longitudinal profile shapes described here for notch 85 and platelet support member 89. The shapes of supports 82 and 86 can be the same or different relative to each other and relative to the notch 85 and nameplate support member 89. The supports 82 and 86 can be hollow or solid. Either or both of the supports 82 and 86 can be integrated or unitary with another structure. Supports 82 and 86 can each be on different sides of the same structure. For example, in some embodiments, the generally vertical region between supports 82 and 86 can comprise a solid or unitary component in which either or both supports 82 and 86 form an upper and / or lower side. The solid or unitary component may comprise one or more openings therein. In some embodiments, the supports 82 and 86 may comprise an elongated shape for supporting and attaching to the platelet 84 and / or the platelet supporting member 89. The supports 82 and / or 86 may comprise one or more substantially straight or curved sections ( for example, concave or convex), or any combination thereof.
[0051] Referring to Figure 7, the illustrated supports 82 and 86 comprise an approximately concave section, having a concave lower side section 82c of support 82 and a concave upper side section 86c of support 86. As illustrated in this and in other embodiments, the platelet support 81 may comprise at least two curves on the generally opposite side. The concave sections 82c, 86c can provide a gradual and generally smooth transition between the supports 82, 86, respectively and the plate 84, to prevent external objects, such as hair, skin, or other items, from moving laterally between the plate and the adjacent orbital. As illustrated, the holder 82 can be formed so that one or more points in the region between the point of connection to the glasses and the lowest point of contact with the plate 84 are higher or upwardly displaced from the lower part of the plate 84a. Similarly, as illustrated, support 86 can be formed so that one or more points in the region between the point of connection with the glasses and the highest point of contact with the plate 84 are lower or downwardly displaced from the highest part of the plate 84c. In some embodiments, as illustrated in Figure 11, supports 82 and / or 86 may comprise a substantially externally convex section, such as a lower side convex section 82d or an upper side convex section 86d. The shape of brackets 82 and / or 86 and the angles at which they extend from the frame 10 can be selected to prevent the user's hair, jewelry and others from jerking or getting caught in brackets 82 and / or 86. The ends distal 82a, 86a, respectively, of supports 82 and 86 can be attached to the platelet support member 89 along a lower and upper part of the platelet support member 89, respectively. The proximal ends 82b, 86b of the supports 82 and 86, respectively, can attach to and be spaced apart from each other along the structure 10. The platelet support member 89 and supports 82 and 86 can attach to various parts of the structure 10 using any of the methods or structures, such as those described elsewhere here. Platelet support member 89 and supports 82 and 86 can be separately or integrally formed relative to each other and to the rest of the structure 10. In the illustrated embodiment, supports 82 and 86 are attached to platelet 84 and platelet support member 89 for form a closed cell 83 between the platelet 84 and the orbital 40 that can prevent entanglement of objects in the nasal piece 80.
[0052] As shown in Figure 7, the supports 82 and 86 can be attached to the structure 10 at angles @ 1 and 02, respectively. In the present context "stuck", "connected" and similar terms include separately formed structures or integrally formed structures, such as those formed by molding or bending a continuous length of wire. As used here, angle @ 1 is defined as the angle between axes 510 and 520. Axis 510 extends approximately parallel to the longitudinal axis of the end portion of support 82 and generally along the center line of support 82. O axis 520 extends approximately parallel with (or tangential to) a side or outer edge of a lower part of structure 10 (or a lens or an optical zone) to which support 82 is attached (for example, orbital 40). As used here, angle @ 2 can be defined as the angle between axes 530 and 540. Axes 530 and 540 can be defined similarly to axes 510, 520, respectively, however, with axis 530 defined relative to support 86 and with axis 540 relative to support 86.
[0053] Angles 01 and 02 can be selected to provide a generally smooth outer edge, generally continuous from the points below the upper one to the orbital, including along the median edge of the platelet. Angles 01 and 02 can comprise the same or substantially different angles. In some embodiments, either or both angles 01 and 02 comprise substantially acute angles (Figure 11), or preferably substantially obtuse angles (Figures 7, 12-14). In some embodiments, either or both angles 01 and 02 may vary by at least about 5 degrees and / or less than or equal to about 175 degrees, or at least about 90 degrees and / or less than or equal at about 170 degrees. Angles of at least about 145 ° or at least about 165 ° can provide a generally smooth vertical transition from the point of attachment to the frame, lens, or optical zone.
[0054] The brackets 82 and 86 can be attached to various locations relative to the plate 84. As illustrated, the shape and orientation of the plate holder 81 and the way of connection between plate holder 81 and plate 84, can be configured to eliminate or avoid narrow, deep and / or angular constrictions or passages that may in any way cause the nasal piece 80 to become tangled with or interfere with other objects, especially long, thin objects such as hair and jewelry. Referring to Figure 7, distal region 82a can be connected to a lower part of the platelet support at an angle @ 3 between axes 550 and 560 and / or distal region 86a can be connected to an upper part of platelet 84 in an © 4 angle between axes 570 and 580. Axis 550 extends approximately parallel with (or tangential to) one side or outer edge of platelet 84 and may be close to a lower part of platelet 84. Axis 560 extends approximately parallel to the longitudinal axis of the support 82, close to the distal region 82a and generally along the central line of the support 82. Axes 570 and 580 can be defined similarly to axes 550, 560, respectively, however, with axis 570 extending near an upper part of the plate 84 and with the axis 580 defined relative to the support 86. Angles © 3 and © 4 can be selected for similar reasons and within similar ranges as described here for angles © 1 and © 2. It will be understood that the angles © 1, © 2, © 3 and © 4 can be the same or different relative to each other.
[0055] The distal region 82a can be positioned along one side 84a of the platelet 84 at a lower distance LI defined as the distance between the distal region 82a of the support 82 (for example, the intersection of the axes 550 and 560) and a lower end 84a (for example, a lower edge or edge) of the platelet 84. In some embodiments, the part of the middle side 84b that extends along the distance may be susceptible to embarrassment in external objects. In this way, the LI distance can be selected to prevent the plate 84 from becoming entangled in external objects. The LI distance can also be selected to provide greater support for the platelet 84 and platelet support member 89 and / or for aesthetic reasons. In some embodiments, LI can vary from approximately 0.1 to approximately 20 mm or, more strictly, from about 0 mm to approximately 15 mm or more or less 1 mm to approximately 10 mm or approximately 2 mm to approximately 6 mm. In some embodiments, LI can be defined as a percentage of the total length and (or as shown here, height) of the platelet 84. In some embodiments, LI can range from approximately 1 to approximately 50% of the total platelet length 84, or more strictly, approximately 2 to approximately 25%, or more strictly, approximately 3 to approximately 15%, or even more strictly, approximately 3 to approximately 10% of the total length of the platelet 84. As illustrated, the contours of the supports 82 and 86 can be configured to transition from a generally vertical orientation at the point of connection with the frame, lens, or optical region, to a generally horizontal orientation at the point of connection with the plate 84, including one or more generally smooth curvatures and without sudden or abrupt changes in the direction. In some embodiments, the distal regions 82a and 86a may extend or curve vertically upward (for 82a) and extend or curve vertically downward (for 86a) beyond the corresponding lower (for 82a) and upper (for 86a) edges of the platelet 84 over a comparatively short distance to assist in securing platelet 84 to platelet support 81, however, not far enough to create an entanglement region. In some embodiments, this ascending and / or descending curve or extension distance may be approximately the same size or less than the horizontal width or thickness of the platelet 84 on either the upper and / or lower side. In some embodiments, as shown in Figure 7, the vertical distance between the upper point on the lower support 82 and the lower point on the platelet 84 may be generally small, such as approximately the same size or less than the thickness of the caliber of the support 82 alone; or approximately the same size or less than the width (anterior to posterior) of the plate 84; or approximately the same size or less than the horizontal distance generated by support 82 between the point or region of connection with the posterior surface on the side of the glasses and the point or region of first contact with the plate 84; or approximately the same size or less than the horizontal distance generated by a single hollow in support 82. All of these sizes and proportions are illustrated in Figure 7. As illustrated, the upper support 86 can also include the same or similar sizes and proportions with the corresponding structures on the upper side. In addition, as illustrated, the distance between the upper and lower ends of the platelet may be greater than or equal to the distance between the closest points on the first and second supports.
[0056] The distal region 86a can be similarly positioned along the median side 84b of the platelet 84 at an upper distance defined as the distance between the distal region 86a of the support 86 and an upper end 84c (for example, a tip or edge more plate 84 that corresponds to any of the ranges provided above for LI distance. The distance between the distal support region 86a 86 and the upper end 84c of platelet 84 can be selected for similar reasons and within similar ranges or values as described here for LI. The upper distance between the distal region 86a and the upper end 84c can be the same or different in any given embodiment such as the distance LI. In some embodiments, LI and / or the distance between the distal region 86a and the upper end 84c can be approximately zero (for example, the supports 82, 86 can generally be flat, without appreciable concavity, close to the upper and lower edges of the plate 84).
[0057] Distal region 86a may be positioned along the upper end 84c of platelet 84 at a median distance L2 defined as the distance between a lateral side 84d (e.g., the most lateral edge) of platelet 84 and distal region 86a support 86 (for example, the intersection of axes 570 and 580). The upper end portion 84c that extends along the distance L2 may be susceptible to entanglement with external objects. In this way, the distance L2 can be selected to prevent the upper end 84c from entangling external objects and for other reasons substantially similar to those described above for distance LI and the lower end 84a. In some embodiments, L2 may vary from approximately 0 mm to approximately 15 mm or from approximately 1 mm to approximately 10 mm or more or less 2 mm to approximately 8 mm or from approximately 3 mm to approximately 7 mm. In some embodiments, L2 can be defined as a percentage of the total width of the platelet 84. In some embodiments, L2 can vary from approximately 1 to 99% of the total width of the platelet 84 or, more strictly, from 10 to 95% or, more strictly, from 45 to 95% or, even more strictly, from 70 to 90% of the total width of the platelet 84. L2 can be approximately zero, with the support 86 attached to the platelet 84 close to the edge or lateral side 84c of the platelet 84. L2 can be approximately 100% of the total width of the platelet 84, the holder 86 being attached to the platelet 84 close to the edge or middle side 84b of the platelet 84.
[0058] The distal region 82a may be positioned along the platelet 84 along the lower end 84a of the platelet 84 at a median distance defined as the distance between a lateral side 84d (for example, the most lateral edge) of the platelet 84 and the distal region 82a of the support 82 (for example, the intersection of the axes 550 and 560) which corresponds to any of the ranges given above for distance L2. The lateral distance between the lateral side 84d of the platelet 84 and the distal region 82a can be selected to prevent the lower end 84a of the platelet 84 from trapping foreign objects and for other reasons substantially similar to and with similar values or ranges as those described above for the distance L2 and the upper end 84c. It will be understood that the median distance L2 and the median distance between the lower end 84a and the side side 84d can be approximately the same or different relative to each other.
[0059] Continuing to refer to Figures 6 and 7, the platelet support member 89 can comprise any of many forms, including any of the forms described here for supports 82, 86, notches 85, 185 and channel 87. The member of nameplate support 89 can be an elongated member with a shape that can support nameplate 84 and be received by a receiving member on nameplate 84 (e.g., notches 85, 185 and / or channel 87; Figures 8-10; recessed part 285; Figure 19).
[0060] The platelet support member 89 can attach to and support the platelet 84 in any of many different ways. As also described here, the platelet 84 can be attached to the platelet support member 89 by means of notches 85, 185 and / or channel 87 which partially wraps around the longitudinal circumference of the platelet support member 89 (Figures 8-10 ). The platelet support member 89 can extend, wrap around some, most or all of the circumference, the length and / or width and / or any of the upper, lower, anterior and / or posterior edges of the platelet 84, to engage with a corresponding part of the notches 85, 185 and / or channel 87, to attach the platelet support member 89 to the platelet 84. In some embodiments, the platelet support member 89 can be formed to wrap completely around a portion of the platelet 84, such that the platelet supporting member forms an opening (e.g., a handle) that can receive a portion of the platelet 84 (see, for example, Figure 16). In some embodiments, these characteristics and function of the nameplate support 89 allow it to attach to a support nameplate 84 without using mechanical fasteners, adhesives or other attachment methods that may be prone to being caught in external objects. In some embodiments, the platelet support member 89 may involve about 5% to about 95%, or about 20% to about 90% or about 45% to about 80% or about from 60% to approximately 70%, of the circumference or periphery of the platelet 84.
[0061] In some embodiments, the platelet support member 89 can attach to a part of structure 10, such as to orbitals 40, without an intermediate structure (for example, Figure 15). In some embodiments, the platelet 84 alone can be formed and dimensioned in a manner that is equal to or similar to the shape of the combined platelet 84 and platelet support 81 and, therefore, all descriptions here related to the platelet support 81 can applied to a region on the platelet 84 alone. In some embodiments, such as those where the platelet 84 is formed as a platelet 84 and platelet support 81 combined as illustrated here, there may not be a need for a separate platelet support 81. The plate 84 can be connected directly to the frame, lens, or optical zone. In some embodiments, the platelet support member 89 can attach to a part of the structure 10 with an intermediate structure, such as supports 82 and / or 86. The supports 82, 86 can attach to the platelet support section 89 in any position along the length of the platelet support section 89. In some embodiments, the distal region 82a of the support 82 can attach to the platelet support member 89 near the lower end of the platelet support member 89 (see, for example, example, Figures 7, 11 and 12). In some embodiments, the distal region 86a of the support 86 can attach to the platelet support member 89 near the upper end of the platelet support member 89 (see, for example, Figures 7 and 11). Supports 82 and / or 86 can attach to the platelet support member 89 between the lower and upper ends of the platelet support section 89, as also described below (Figure 12). In the exemplary embodiment of Figures 6 and 7, the distal ends of the supports 82, 86 are attached to the lower and upper ends, respectively, of the platelet support member 89, to form a continuous or fluted curve, without breaking or protruding, from the proximal end 82b of support 82 to a proximal end 86b of support 86.
[0062] The platelet support member 89 can extend from the supports 82, 86 in many different directions relative to the supports 82, 86. In some embodiments, the platelet support member 89 can extend laterally from supports 82 and / or 86 (for example, distal ends 82a, 86a), as shown in Figures 7, 11, 12, 13, 14 and 15. In some embodiments, the platelet support member 89 may extend median from the supports 82 and / or 86 (for example, distal ends 82a, 86a), as shown in Figures 12 and 14. In some embodiments, the parts of the platelet support section 89 may extend from the supports 82, 86 in both median and lateral directions, as shown in Figures 12 and 14.
[0063] The platelet support member 89 can be attached to and positioned relative to support 82 at various angles, including any of the angles or bands of angles @ 1 described here (Figure 7). For exemplary purposes and, without limitation, Figure 12 shows the platelet support section 89 attached to the support 82 at a substantially acute angle @ 3; Figure 13 shows the plate support section 89 attached to the support 82 at an angle of approximately 90 degrees, or orthogonal angle @ 4; and Figure 14 shows the platelet support section 89 attached to the support 82 at a substantially obtuse angle @ 5. The platelet support member 89 can be attached to and positioned relative to the support 86 at similar angles and bands of angles such as the connection of the member 89 to the support 82.
[0064] Figure 11 shows a schematic side view of an exemplary nasal piece modality 80. Nasal piece 80 can comprise a platelet support 81 comprising a platelet support member 89 connected to orbital 40 with supports 82 and 86, functioning similar to those described here and shown in Figures 6-7. Figure 11 shows, for exemplary purposes only, a modality with supports 82 and 86 attached to orbital 40 at substantially acute angles, @ 1 and @ 2, respectively. Figure 11 also shows an illustrative embodiment with the supports 82 and 86 comprising a concave section on the lower side 82c, a concave section on the upper side 86c, a convex section on the lower side 82d and an convex section on the upper side 86d. Figure 11 also shows an embodiment where the platelet support member 89 extends laterally from the distal ends of the supports 82 and 86.
[0065] Figure 12 shows a schematic side view of another exemplary nasal piece modality 80. Plate 84 is shown in phantom lines for clarification. Figure 12 shows an exemplary embodiment with a part of the platelet support member 89 extending laterally from the distal region 86a of the support 86 and the rest of the platelet support member 89 extending medially from the distal ends 82a, 86a of the supports 82 , 86, respectively. The platelet support member 89 which extends medially from the ends of supports 82, 86 can facilitate the attachment and / or removal of platelet 84 from member 89, for example, by moving platelet 84 in the directions shown by arrows 590 relative to limb 89. This modality can prevent interference between the platelet 84 and the structure 10 to which the nasal piece 80 is attached during the connection and / or removal of the platelet 84 from the limb 89. The support 86 is shown attached to the support member of platelet 89 at a point along the platelet support member 89 between the lower and upper ends of the platelet support member 89, to provide greater support along a lateral upper part of the platelet 84. In some embodiments, the platelet member platelet support may comprise a substantially convex portion 85d positioned at its distal end. The convex part 85d can be configured to be substantially continuous and aligned with the side or lateral edge 84d (e.g., a convex side or edge) of the platelet 84. The convex part 85d may be similar to and function substantially similar to the convex parts 82d, 86d described here too.
[0066] The holder 82 can comprise the concave part 82c whose transitions in the convex part 82d in the connection between the end 82a of the holder 82 to the lower end of the platelet support member 89. The support 82 and the platelet support member 89 can be connected at a substantially acute angle @ 3. The convex part 82d can be configured to be aligned with, for example, to provide a smooth transition with the side or lateral edge 84d (for example, a convex side or edge) of the platelet 84, such that the holder 82 and platelet 84 form a substantially continuous part, usually convex, without substantial breakage, abrupt changes in direction, or sharp, hard edges
[0067] Figure 13 shows a schematic side view of another exemplary nasal piece modality 80. Plate 84 is shown in phantom lines for clarification. In this embodiment, the platelet support member 89 may comprise a lower platelet support section 89a and an upper platelet support section 89b spaced apart from each other to allow the platelet 84 to be positioned and held between them. Sections 89a, 89b are shown attached and laterally extend from distal ends 82a, 86a of supports 82, 86, respectively, although sections 89a, 89b may extend laterally and / or medially therein. In some embodiments, the distal ends of sections 89a and 89b can be separated from each other. Platelet support sections 89a and / or 89b can be attached to and support (e.g., surround and / or surround around) platelet 84 in a similar manner to platelet support member 89 also described here. Sections 89a and / or 89b can extend at various angles relative to supports 82, 86 (for example, angle @ 6) as described here for the positioning and function of the platelet support member 89 relative to supports 82, 86. The platelet support sections 89a, 89b can attach and / or be removed from platelet 84 in many ways, including in the manner described here for other embodiments using notches 85, 185, described here. In some embodiments, support sections 89a, 89b can be attached to and removed from nameplate 84 by inserting and removing support sections 89a and / or 89b in optional openings 188 in channel 87 of nameplate 84 in the directions shown by arrows 590. The channel 87 is shown to extend across the width of the platelet 84 for exemplary purposes only and that in some embodiments, the channel 87 may extend from the median edge of the platelet 84 partially into the platelet 84, without an opening 188 at the side edge of the platelet 84. The channel 87 can comprise void 187 (Figure 10) to receive sections 89a and / or 89b on channel 87, although channel 87 in Figure 13 is shown without void 187, for illustrative purposes only.
[0068] Figure 14 shows a schematic side view of another exemplary nasal piece modality 80. Plate 84 is shown in phantom lines for clarification. In this embodiment, the platelet support member 89 can comprise a lower platelet support section 89c and an upper platelet support section 89d spaced from each other to allow the platelet 84 to be positioned between them. The platelet support sections 89c and / or 89d can function substantially similarly to the platelet support sections 89a and 89b shown in Figure 13. Sections 89c and 89d may differ in that the distal ends 82a, 86a of supports 82, 86 can be secured along the length of (e.g., between opposite ends) of sections 89c and 89d, such that the opposite ends of sections 89c and 89d extend both medially and laterally from distal ends 82a, 86a.
[0069] Figure 15 illustrates a partial side view of an exemplary embodiment of a nasal piece 80 attached to and integrated with a part of the structure 10, such as an orbital 400. The nasal piece 80 can comprise the platelet support member 89 and the nameplate 84. Nameplate 84 is shown in phantom lines for clarification. Nasal piece 80, platelet support member 89, platelet 84 and 400 orbitals can be substantially similar to and function substantially similar to the manner of nasal piece 80, platelet support member 89, platelet 84 and orbital 40 in the modalities shown in Figures 6 , 7 and 11-14. The orbital 400 may comprise a lower part 40a and an upper part 40b spaced from each other. An upper end of the lower part 40a can be attached to the support 82 (for example, the proximal end 82c). A lower end of the upper part 40b can be attached to the support 86 (for example, the end 86c). The platelet support member 89 can be positioned between the upper end of the lower part 40a and the lower end of the upper part 40b, without requiring that an additional member (for example, an additional part of the orbital 400) separately extends between the ends proximal cells 82c, 86c of supports 82, 86, respectively. The 400 orbital and the platelet support member 89 can comprise an integrated, continuous spline surrounding and supporting the platelet 84. In this way, the 400 orbital and platelet support 89 can support the platelet 84 without a closed cell 83 and, without any protrusion, crossed limbs, supports or other structure on which hair, jewelry etc. user, may become entangled or tangled.
[0070] Figure 16 illustrates a partial side view of a modality of a platelet support 181 attached to the 40 orbital and supporting a platelet 84. The platelet support 181 can be attached to the 40 orbital with the supports 82, 86. The support of platelet 181, platelet 84, supports 82, 86 and orbital 40 can be structurally similar and work in a similar manner to the manner of the platelet support 81, platelet 84, supports 82, 86 and orbital 40 described in the modalities shown in Figures 6, 7 and 11-14. Platelet support 181 may comprise a support member 189 which may comprise a loop, or an opening 190 which may encircle, or encircle the majority, or as illustrated, an entire part of the platelet 84. Figure 16 shows the support member 189 in an approximately ovular, toroidal shape for exemplary purposes only, and support member 189 may comprise any shape (for example, a plate-like structure and the like), with one or more openings of various shapes that may surround or surround most or all of a part of the plate 84.
[0071] Figure 17 illustrates a partial side view of a modality of a platelet support 281 attached to the 40 orbital and supporting a platelet 84. The platelet support 281 can comprise a medium support structure 282 with a first side attached to the member support plate 89 and / or plate 84 and a second opposite side attached to the orbital 40. The plate support 281 can comprise a lower part 282a and an upper part 282b that can be attached to the orbital 40, plate 84 and a member of platelet support 289. platelet support 281, bottom 282a, upper part 282b and median support structure 282 can be substantially similar to and function substantially similar to the manner of the platelet, platelet, orbital and support described herein and shown in the Figures 6, 7 and 11-16. Rather than being supported by the pair of supports 82, 86, the platelet support member 89 of the platelet support 281 can be supported by the middle support structure 282.
[0072] Figure 18 is a rear elevation view of a modality of structures 10, with nasal pieces 80 being able to attach to a part of lenses 50, as described elsewhere here.
[0073] Figure 19 is a side view of an embodiment of a nasal piece 180 attached to a platelet 84. The platelet 84 may comprise a recessed portion 285 that can receive a platelet support member 189 to hold and support the platelet 84 , substantially similar to the function of the notch 185 shown in Figure 9. In this embodiment, the shape of the lowered part 285 and the supporting member 189 can be selected to represent various insignias desired by the user, such as a star, peace symbol, initials, logos and others. When an insignia-like shape, support member 189 and recessed part 185 can provide both functional support for nameplate 84 and aesthetic appeal to the user.
[0074] Although certain preferred embodiments and examples have been described herein, it will be understood by those skilled in the art that the present invention extends beyond the embodiments specifically described for other embodiments and / or alternative uses of the invention and obvious modifications and equivalents thereof. In addition, while several variations of the invention have been shown and described in detail, other modifications, which are within the scope of this invention, will be readily apparent to those of skill in the art based on this description. It is also contemplated that various combinations or subcombination of the characteristics and specific aspects of the modalities can be tapes and still fall within the scope of the invention. Consequently, it should be understood that various features and aspects of the described modalities can be combined with or replaced with another to form varied modes of the described invention. Thus, it is intended that the scope of the present invention described herein is not limited by the particular modalities described above, however, it should be determined only by a fair reading of the present description, including the appended Claims.

权利要求:
Claims (20)
[0001]
1. Nasal Piece for Glasses, characterized in that it comprises: a nasal piece plate comprising a receiving part; a nameplate support, comprising: a first support with a concave part down, the first support configured to attach to a first part of glasses; a second support with a concave part facing up, the second support configured to attach to a second part of glasses; a platelet support member attached to the first and second supports, the platelet support member comprising an upwardly concave part attached to the first support, the platelet support member being configured to contact the receiving part of the nasal part platelet and involve at least part of the nasal specimen tag.
[0002]
2. Nasal Eyeglass Piece according to Claim 1, characterized in that the receiving part comprises a notch that extends on a surface of the tag.
[0003]
3. Nasal Eyeglass Piece according to Claim 1, characterized in that the nasal piece forms a part of an eyeglass frame.
[0004]
4. Nasal Eyeglass Piece according to Claim 1, characterized in that the nameplate support is made of a rigid material.
[0005]
5. Nasal Eyeglass Piece according to Claim 1, characterized in that a distal end of the first support is attached to a lower end of the platelet support member.
[0006]
6. Nasal Eyeglass Piece according to Claim 1, characterized in that the receiving part extends radially inwardly internally from a platelet surface.
[0007]
7. Nasal Eyeglass Piece according to Claim 1, characterized in that the nameplate support is made of a resilient material.
[0008]
8. Nasal Eyeglass Piece according to Claim 4, characterized in that the nameplate support is made of a resilient material.
[0009]
9. Nasal Eyeglass Piece according to Claim 1, characterized in that the first support extends continuously upwards from the point of contact with the side of the glasses with the point of first contact with the nameplate.
[0010]
10. Nasal Eyeglass Piece according to Claim 9, characterized in that the second holder extends continuously downwards from the point of contact with the side of the glasses to the point of first contact with the nameplate.
[0011]
11. Glasses, configured to prevent entanglement or interference with other objects while moving the glasses in or out of the viewing position, characterized by the glasses comprising: one side of the glasses comprising optical viewing zones; a resilient nameplate with upper and lower ends; a lower curvilinear support that extends from the side of the glasses to the nameplate, where the vertical distance between the highest point on the first bottom support and the lowest point on the nameplate is equal to or less than the horizontal distance between a rear surface on the side the glasses and the nameplate; and a curvilinear upper bracket extending from the side of the glasses to the nameplate, where the vertical distance between the lowest point on the upper bracket and the highest point on the nameplate is equal to or less than the horizontal distance between a rear surface on the side the glasses and the nameplate.
[0012]
12. Glasses, according to Claim 11, characterized in that the lower holder extends continuously upwards from the side of the glasses to the first point of contact between the lower holder and the nameplate.
[0013]
13. Glasses, according to Claim 12, characterized in that the upper holder extends continuously down the side of the glasses to the first point of contact between the upper holder and the nameplate.
[0014]
14. Glasses according to Claim 11, characterized in that the upper and lower supports each comprise a concavity.
[0015]
15. Glasses according to Claim 14, characterized in that the concavity of the lower support is oriented downwards and the concavity of the upper support is oriented upwards.
[0016]
16. Glasses according to Claim 15, characterized in that the upper and lower supports are smooth.
[0017]
17. Glasses, according to Claim 11, characterized in that the supports are attached to a nameplate support that involves at least a part of the nameplate.
[0018]
18. Glasses according to Claim 15, characterized in that the lower support comprises a second recess along a region of contact between the lower support and the plate and in which the upper support comprises a second recess over a region contact between the upper support and the nameplate.
[0019]
19. Glasses according to Claim 18, characterized in that at least two recesses in each support are oriented in opposite directions.
[0020]
20. Glasses according to Claim 11, characterized in that the distance between the upper and lower ends of the tag is greater than or equal to the distance between the closest points on the lower and upper brackets.

类似技术:

公开号 | 公开日 | 专利标题

BR112013005366B1|2020-10-27|glasses and respective nasal part

ES2271403T3|2007-04-16|TEST INSTRUMENT FOR OPTOMETRY.

BRPI0717130A2|2013-01-15|eyeglasses, including adjustable eyeglasses to optimize a vertical viewing angle of the user during low-head activity, and adjustable eyeglasses system to optimize the optical characteristics of eyeglasses along a user's line of sight

KR20150142675A|2015-12-22|Nose support assembly and corresponding spectacle frame

US10018852B2|2018-07-10|Eyeglass positioning device

US7686448B2|2010-03-30|Eyeglass frames

US20200046561A1|2020-02-13|Safety Eyewear for Reclining and Supine Positions

CN111684338A|2020-09-18|Flexible eyewear assembly

WO2016154365A1|2016-09-29|Headwear device

US20210141242A1|2021-05-13|Attachment for Straightening Eyeglasses and for Holding Devices or Fashionwear

JP2016503907A|2016-02-08|Temple support for glasses

JP3842741B2|2006-11-08|Optometry test tool

JP2004287177A|2004-10-14|Coupling member for spectacles and spectacles

KR20090005955U|2009-06-17|Nose prop that Attacheed and Detached is possible for glasses that angle adjustment is available

JP3221925U|2019-06-27|Protective glasses

CN213240702U|2021-05-18|Glasses with novel tobacco pipe line

CN212575072U|2021-02-23|Eye protection glasses

JP2021005025A|2021-01-14|Spectacles shaped frame for different types of lenses

JP2021067711A|2021-04-30|Spectacle

KR200290663Y1|2002-10-07|A single temple's spectacles frame comfortable for wearing

JP5961776B2|2016-08-02|glasses

JP2867884B2|1999-03-10|Auxiliary glasses

KR890003315B1|1989-09-16|Spectacle frames

KR20100117431A|2010-11-03|Fixing an opening for glasses

TWM491851U|2014-12-11|Fall-off prevention eyeglass and temple thereof

同族专利:

公开号 | 公开日

CN103119500B|2014-06-11|

WO2012033691A1|2012-03-15|

CN103119500A|2013-05-22|

AU2011299438B2|2013-08-22|

US8403477B2|2013-03-26|

US20120057120A1|2012-03-08|

CA2809997A1|2012-03-15|

JP2013537320A|2013-09-30|

AU2011299438B8|2013-09-26|

SG188382A1|2013-04-30|

JP5562488B2|2014-07-30|

CA2809997C|2014-08-19|

EP2614401A1|2013-07-17|

EP2614401A4|2014-01-15|

BR112013005366A2|2016-08-30|

AU2011299438A1|2013-03-21|

EP2614401B1|2016-04-06|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US497773A|1893-05-23|Eyeglass-frame |

US411164A|1889-09-17|Nose-pad for eyeglasses |

US71770A|1867-12-03|Improvement in eye-glasses and spectacles |

US186022A|1877-01-09|Improvement in eyeglasses |

US386799A|1888-07-31|John bowles |

US811960A|1905-10-27|1906-02-06|Harry A Seidel|Mounting for eyeglasses.|

US843089A|1906-09-14|1907-02-05|James C Moore|Eyeglasses.|

US979095A|1909-06-03|1910-12-20|American Optical Corp|Eyeglasses.|

US1517685A|1922-08-19|1924-12-02|Universal Optical Corp|Ophthalmic mounting|

US1607699A|1922-12-12|1926-11-23|Universal Optical Corp|Ophthalmic mounting|

US2098513A|1934-01-04|1937-11-09|Bay State Optical Co|Eyeglass construction|

US2050957A|1934-09-08|1936-08-11|Margaret C B Meyer|Eyeglasses and the like|

DE3319827C2|1983-06-01|1988-06-23|Marwitz & Hauser Gmbh, 7000 Stuttgart, De|

JPS63122322U|1987-02-02|1988-08-09|

DE69636975T2|1995-12-22|2007-12-20|Copenhagen Eyes A/S|Hinge structure for spectacles or spectacle frames, spectacles and spectacle frames and method for mounting a spectacle lens in a spectacle frame|

EP0922987A1|1997-12-12|1999-06-16|Sinthesys S.r.l.|Wire-frame spectacles|

EP1175637A1|1999-05-04|2002-01-30|Angelo Schievenin|Eyeglasses frame and method of preparing and assembling same|

CN2715180Y|2004-06-16|2005-08-03|王信胜|An improved structure of nose pads of glasses|

US20060187405A1|2005-02-18|2006-08-24|Lee Suk-Jae|Assembly of sunshade clip and spectacles using nose pad means|CN206074931U|2016-08-01|2017-04-05|深圳市慧明眼镜有限公司|Glasses|

WO2019075089A1|2017-10-11|2019-04-18|Roka Sports, Inc.|Eyeglasses with interchangeable lenses|

KR102251466B1|2020-01-22|2021-05-13|주식회사 이노 |Glasses frame with nose rest assembly|

法律状态:
2016-09-06| B15I| Others concerning applications: loss of priority|Free format text: PERDA DAS PRIORIDADES US 61/381,036 E US 12/980,206 REIVINDICADAS NO PCT US2011/050046 DE 31/08/2011, CONFORME AS DISPOSICOES PREVISTAS NA LEI 9.279 DE 14/05/1996 (LPI) ART. 167O, ITEM 28 DO ATO NORMATIVO 128/97 E NO ART. 29 DA RESOLUCAO INPI-PR 77/2013. ESTA PERDA SE DEU PELO FATO DE O DEPOSITANTE CONSTANTE DA PETICAO DE REQUERIMENTO DO PEDIDO PCT SER DISTINTO DAQUELES QUE DEPOSITARAM AS PRIORIDADES REIVINDICADAS E NAO APRESENTOU DOCUMENTO COMPROBATORIO DE CESSAO DENTRO DO PRAZO DE 60 DIAS A CONTAR DA DATA DA ENTRADA DA FASE NACIONAL, CONFORME AS DISPOSICOES PREVISTAS NA LEI 9.279 DE 14/05/1996 (LPI) ART. 166O, ITEM 27 DO ATO NORMATIVO 128/97 E NO ART. 28 DA RESOLUCAO INPI-PR 77/2013. |

2018-12-26| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-12-03| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-06-02| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2020-10-27| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 31/08/2011, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

US38103610P| true| 2010-09-08|2010-09-08|

US61/381,036|2010-09-08|

US12/980,206|2010-12-28|

US12/980,206|US8403477B2|2010-09-08|2010-12-28|Nosepad connector for eyewear|

PCT/US2011/050046|WO2012033691A1|2010-09-08|2011-08-31|Nosepad connector for eyewear|

[返回顶部]