US20140259295A1 - Decorative eyelet cover for footwear, garments, and the like - Google Patents
Decorative eyelet cover for footwear, garments, and the like Download PDFInfo
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- US20140259295A1 US20140259295A1 US13/837,170 US201313837170A US2014259295A1 US 20140259295 A1 US20140259295 A1 US 20140259295A1 US 201313837170 A US201313837170 A US 201313837170A US 2014259295 A1 US2014259295 A1 US 2014259295A1
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- United States
- Prior art keywords
- eyelet
- neck
- cover
- eyelet cover
- fit
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B23/00—Uppers; Boot legs; Stiffeners; Other single parts of footwear
- A43B23/24—Ornamental buckles; Other ornaments for shoes without fastening function
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B1/00—Footwear characterised by the material
- A43B1/0027—Footwear characterised by the material made at least partially from a material having special colours
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B3/00—Footwear characterised by the shape or the use
- A43B3/0036—Footwear characterised by the shape or the use characterised by a special shape or design
- A43B3/0078—Footwear characterised by the shape or the use characterised by a special shape or design provided with logos, letters, signatures or the like decoration
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43C—FASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
- A43C5/00—Eyelets
Definitions
- the field of the present disclosure relates generally to fashion accessories, and more particularly to accessories for footwear, garments, or the like.
- grommets have been used across many different industries to address a variety of needs. For example, grommets may be used to reinforce holes or openings formed in thin or fragile materials, such as a shower curtain or shower curtain liner. In industrial settings, grommets may be used to provide strain relief to protect rope, wire, or other materials threaded through the grommet. In still other embodiments, a small grommet (also sometimes called an eyelet) may be used to line holes in shoes or clothing to receive laces or merely used as a decorative feature.
- Eyelets may be made from a variety of materials.
- grommets may be made from hard, durable materials, such as metal or plastic.
- Metal grommets may be installed by crimping or press fitting the grommet into a material to surround an opening. Typically, metal grommets require special tools to insert the grommet into the material and are not easily removable or interchangeable.
- Plastic grommets generally have a two-piece construction with a pair of mating or keyed portions. In such embodiments, one mating portion is typically positioned on one side of an opening and the second mating portion is positioned on an opposite side of the opening. Once the mating portions are aligned on opposite sides of the opening, the two pieces are brought together and fasten to each other and the fabric or other base material to reinforce the opening.
- a snap-fit eyelet cover for decorating an eyelet on footwear, garments, and the like includes a neck and a crown extending radially outward from the neck.
- the crown overhangs the neck to provide a mushroom-like appearance for the eyelet cover.
- the neck includes an exterior surface extending radially outward from a throat region to an insertion region of the neck.
- the throat region has a maximum outer diameter that is smaller than a maximum outer diameter of the insertion region.
- an exterior surface of the neck may be curved and extend between the throat region and the insertion region.
- the neck is formed of a material sufficiently resilient such that the neck fits through an eyelet opening and thereafter expands to bear against the eyelet and retain the eyelet cover in the eyelet.
- the crown includes a top surface that may include a variety of decorations, colors, patterns, and/or shapes, as desired. When inserted through the eyelet, the top surface of the crown is visible and displays its decorative features.
- the eyelet cover includes a bore extending in an axial direction through the neck and the crown to define an interior passage extending through the eyelet cover. In some embodiments, such as when the eyelet cover is inserted into a shoe eyelet, a shoe lace or other material may be threaded through the bore.
- FIG. 1 illustrates a view of a shoe having a plurality of eyelets into which an eyelet cover may be inserted.
- FIG. 2 is a top perspective view of an eyelet cover according to one embodiment.
- FIG. 3 is a bottom perspective view of the eyelet cover of FIG. 2 .
- FIG. 4 is a side elevation view of the eyelet cover of FIG. 2 .
- FIG. 5 is a top plan view of the eyelet cover of FIG. 2 .
- FIG. 6 is a schematic of a cross-section view of the eyelet cover of FIG. 2 inserted through an eyelet.
- FIG. 7 is a cross-section view of the eyelet cover of FIG. 5 taken along line A-A.
- FIG. 8 is a bottom perspective view of an eyelet cover according to another embodiment.
- an eyelet cover with footwear is merely one use for such an eyelet cover and should not be considered as limiting.
- An eyelet cover with the characteristics and features described herein can alternatively be inserted into eyelets used for a variety of other purposes or found on other structures, materials, fabrics, or the like, such as, clothing, belts, bracelets, wristbands, necklaces, or other structures having an eyelet or opening.
- shoe 10 may include a plurality of eyelets 12 arranged in any desired configuration. Each eyelet 12 includes an eyelet opening 16 .
- eyelet 12 may be reinforced by a reinforcing ring-shaped eyelet/grommet 18 (sometimes also referred to as an eyelet) that may be crimped or otherwise attached to shoe 10 around eyelet opening 16 .
- eyelet 12 may not be reinforced with grommet 18 and may simply be an opening on the fabric of shoe 10 .
- any reference to inserting eyelet cover 20 into eyelet 12 includes both embodiments where eyelet 12 is reinforced with grommet 18 (or other reinforcing material) and an eyelet 12 without a grommet 18 . Additional details of shoe 10 and its components are further described below.
- Eyelet cover 20 is shaped and configured to snap into, or otherwise be inserted or fitted into, an eyelet 12 as decoration or to provide other benefits, such as, reinforcing and protecting the eyelet/grommet, protecting the shoe lace against fraying, and diminishing the amount of water, dust, or debris entering the shoe.
- Eyelet cover 20 includes a neck 36 and a crown 22 extending radially outward from an outer end of neck 36 .
- Neck 36 includes an insertion region 38 at an inner end of neck 36 opposite the outer end, the insertion region having a ridge 44 that helps retain eyelet cover 20 in position after insertion into eyelet 12 .
- Crown 22 includes a top surface 24 and an opposite bottom surface 26 .
- Eyelet cover 20 further includes a bore 52 extending in an axial direction relative to axis 42 through neck 36 and crown 22 . Bore 52 forms an interior passage through eyelet cover 20 and is sized to receive a shoe lace (not shown) of shoe 10 .
- top surface 24 of crown 22 is visually exposed on shoe 10 .
- top surface 24 may include a variety of decorations, colors, patterns, and/or shapes, as desired.
- ridge 44 has an outer diameter dimension D 44 that is larger than a corresponding inner diameter dimension D 12 of eyelet 12 (see FIG. 6 ) to retain eyelet cover 20 as mentioned, but preferably not so large that eyelet cover 20 cannot be easily inserted into eyelet 12 . Further details of a relationship between these dimensions and how the components cooperate to maintain eyelet cover 20 in position within eyelet 12 are described below. The following describes further detailed aspects of this and other embodiments of shoe 10 and eyelet cover 20 .
- shoe 10 includes a plurality of eyelets 12 arranged in any desired configuration.
- shoe 10 may include a row of eyelets 12 arranged on a vamp of shoe 10 to form part of a lacing system through which a shoe lace (not shown) may be threaded through.
- Shoe 10 may also include one or more other eyelets, such as vent eyelets 12 ′, positioned on a different region of the shoe away from the lacing system, such as near a midsole 14 of shoe 10 .
- vent eyelets 12 ′ may be for decorative purposes and may not form part of the lacing system.
- Eyelets 12 , 12 ′ each include an eyelet opening 16 , 16 ′.
- some or all of eyelets 12 , 12 ′ may include a grommet 18 , 18 ′ surrounding eyelet opening 16 , 16 ′.
- Grommet 18 may be made of metal, plastic, or other hardened material for reinforcing eyelet opening 16 , 16 ′.
- eyelets 12 may be identical in size and shape to vent eyelets 12 ′ and eyelet openings 16 , 16 ′ likewise may be identical.
- eyelets 12 may be larger and sized to receive a shoe lace, while vent eyelets 12 ′ may be smaller. For instance, with reference to FIG.
- an interior diameter D 12 of eyelet 12 may range from between 0.18 to 0.21 inches in some embodiments.
- the interior diameter D 12 of vent eyelet 12 ′ may range from 0.15 to 0.18 inches.
- eyelet 12 may have an overall height dimension H 12 ranging from 0.12 to 0.16 inches, whereas eyelet 12 ′ may have a height dimension H 12 ranging from 0.08 to 0.13 inches.
- eyelet 12 may have a raised portion or raised height RH 12 (measured from shoe 10 to a top of grommet 18 ) ranging from 0.04 to 0.06 inches.
- eyelets 12 , 12 ′ and dimensions of eyelet openings 16 , 16 ′ may vary for a variety of shoes 10 across different manufacturers. As further described below, these and other dimensions of eyelets 12 , 12 ′ may dictate dimensions and associated ranges for certain components of eyelet cover 20 . The below description includes an example embodiment of dimensions and ranges for such components of eyelet cover 20 . It should be understood, however, that any provided dimensions and ranges are for illustration purposes only and not intended to be limited. For instance, in other embodiments, precise dimensions and ranges may fall outside the values provided in the description without departing from the principles of the disclosed subject matter.
- FIGS. 2-7 collectively illustrate an embodiment of an eyelet cover 20 that may be used to decorate eyelets 12 on shoe 10 .
- eyelet cover 20 includes a crown 22 extending radially outward from a neck 36 such that crown 22 overhangs neck 36 .
- Crown 22 includes a top surface 24 and an opposite bottom or underside surface 26 .
- the components of eyelet cover 20 are preferably formed as a one-piece, monolithic structure where top surface 24 , bottom surface 26 , and an exterior surface 40 of neck 36 have no appreciable seams or mold part lines.
- eyelet cover 20 may be formed from a resilient (e.g., elastically deformable) material.
- eyelet cover 20 may be formed from a thermoplastic resin such as ABS, acetal, nylon, PVC, or any other suitable plastic material.
- plastic materials have desirable qualities such as sufficient lubricity to reduce friction between eyelet cover 20 and grommet 18 to facilitate installation.
- plastics are inexpensive, easy to handle, structurally sound, and receptive to colors and dyes to allow for a variety of decorative options.
- other materials may be used such as metals, wood, or other suitable materials. Further details of example materials for eyelet cover 20 , as well as preferred mechanical characteristics for such materials, are described below.
- example dimensions for eyelet cover 20 are provided to correspond with the example dimensions of eyelet 12 described in relation to FIG. 1 .
- shoe 10 may include eyelets of various sizes, such as eyelet 12 ′.
- eyelet 12 ′ dimensions for an eyelet cover to fit an eyelet of any given size may be obtained by appropriately scaling the example dimensions provided herein.
- some dimensions may be dependent on the mechanical properties, such as elasticity and friction, of the materials used to manufacture eyelet cover 20 , it should be understood that the described dimensions may differ for various materials.
- top surface 24 of crown 22 is exposed on shoe 10 and may include decorative features.
- top surface 24 may be adorned or decorated with any number of patterns, shapes, or colors as desired.
- top surface 24 may be rounded and in the shape of a torroidal section (e.g., donut-shaped) with a flattened top to mimic a typical rounded contour of eyelet 12 . Such configuration may preserve the general look and feel of the eyelet 12 and shoe 10 .
- top surface 24 may be a square, oval, star-shaped, or other shape, and may include surface textures and/or ornamentation or decorations.
- eyelet cover 20 is manufactured from a plastic resin
- one or more colors, pigments, or dyes may be added to the plastic resin mixture to create an array of colors (e.g., red, orange, yellow, green, blue, indigo, violet) for eyelet cover 20 , including creating various multi-colored or rainbow eyelet cover 20 .
- eyelet cover 20 may be made from electroplated materials to provide a chrome, gold, or other metallic finish or appearance.
- iridescent materials may be used to provide a lustrous or brilliant finish to eyelet cover 20 , and in particular, to top surface 24 of eyelet cover 20 .
- top surface 24 may be encrusted or bejeweled with various items, such as gemstones, pearls, synthetic jewels, costume jewelry, or other items as desired.
- eyelet cover 20 may be made from photoluminescent materials (e.g., phosphorescent materials) to provide glow-in-the-dark effects.
- eyelet cover 20 may be made from thermochromic materials that change color in response to changes in temperature (e.g., similar to a mood ring).
- eyelet cover 20 is molded from a plastic material having a tensile modulus and a flexural modulus each ranging from between 2 and 3 gigapascals (GPa).
- the plastic material preferably has a tensile strength ranging from approximately 80 GPa (at ⁇ 40° F.) to approximately 95 GPa (at 160° F.).
- Such characteristics provide sufficient flexibility so that eyelet cover 20 may deform and deflect during insertion into eyelet 12 and also provide sufficient strength for eyelet cover 20 to resist damage. It should be understood that other materials having different mechanical properties may be suitable for eyelet cover 20 .
- top surface 24 is sized to completely cover or obscure eyelet 12 and grommet 18 when eyelet cover 20 is snapped into position.
- Top surface 24 may have a diameter D 24 that is as small or as large as desired to support a variety of decorative features, such as those briefly described above.
- diameter D 24 may range from 0.50 to 0.53 inches.
- diameter D 24 of top surface 24 is not smaller than the sum of the inner diameter D 52 of bore 52 plus the two wall thicknesses T 36 of neck 36 .
- diameter D 24 should generally not be so large so as to interfere with other eyelets 12 or eyelet covers 20 that may be positioned on shoe 10 .
- bottom surface 26 extends radially outward from neck 36 and an outer peripheral edge 28 depends axially downward from the radially outward portion of bottom surface 26 .
- Outer peripheral edge 28 extends around the perimeter (e.g., circumference for a circular crown 22 ) of bottom surface 26 and may have a substantially planar surface 32 .
- Planar surface 32 extends substantially transverse in relation to axis 42 from a periphery 34 of crown 22 inward toward neck 36 .
- outer peripheral edge 28 may range in thickness T 28 from between 0.02 and 0.03 inches ( FIG. 7 ).
- thickness T 28 is not smaller than approximately 0.02 inches to provide structural rigidity to crown 22 and a sufficiently comfortable prying surface against which a force F 2 ( FIG. 6 ) may be exerted to remove crown 22 from eyelet 12 when desired.
- bottom surface 26 includes a curved or recessed section extending radially outward from neck 36 to an interior end 30 of outer peripheral edge 28 .
- bottom surface 26 has a maximum recess or curve depth RD 30 dimensioned to encompass and cover eyelet 12 when eyelet cover 20 is installed.
- Curve depth RD 30 is measured from the outer peripheral edge 28 to a central point of bottom surface 26 between outer peripheral edge 28 and neck 36 .
- curve depth RD 30 may range from between 0.05 and 0.07 inches and diameter D 30 may range between 0.45 and 0.47 inches so that grommet 18 of eyelet 12 sits within and is covered by bottom surface 26 when eyelet cover 20 is inserted.
- bottom surface 26 may tightly toleranced (e.g., approximately 2-5% larger) with respect to grommet 18 to provide an interference fit with grommet 18 and minimize movement of eyelet cover 20 when inserted in eyelet 20 .
- bottom surface 26 transitions smoothly into neck 36 via a ramped section 50 such that bottom surface 26 and an exterior surface 40 of neck 36 form a continuously curved surface (e.g., lacking any planar surfaces) extending from interior end 30 of outer peripheral edge 28 to ridge 44 on neck 36 .
- the continuous curves of bottom surface 26 and exterior surface 40 of neck 36 are dimensioned to provide an optimal fit with the corresponding curvatures of grommet 18 of eyelet 12 .
- eyelet cover 20 may have a height dimension H 36 measured from ridge 44 to the deepest part of bottom surface 26 ranging from 0.17 to 0.19 inches ( FIG. 7 ). Overall, eyelet cover 20 may have a height dimension H 20 of between 0.19 and 0.21 inches.
- Neck 36 includes a throat region 37 and an insertion region 38 shaped to guide eyelet cover 20 through eyelet opening 16 .
- exterior surface 40 of neck 36 is convex and curves inwardly toward axis 42 from bottom surface 26 through throat region 37 and to insertion region 38 .
- the amount and degree of curvature of neck 36 can be properly determined by the curvature of grommet 18 on eyelet 12 .
- convex exterior surface 40 is dimensioned so that neck 36 rests flush or substantially flush against an inner portion of grommet 18 when eyelet cover 20 is inserted through eyelet 12 as shown in FIG. 6 .
- FIG. 6 illustrates a cross-section view of an eyelet cover 20 inserted through eyelet 12 and grommet 18 according to an example embodiment.
- exterior surface 40 of neck 36 sits flush against grommet 18 to limit or inhibit movement of eyelet cover 20 within eyelet 12 .
- neck 36 preferably has a diameter D 36 ranging from 0.17 to 0.19 inches at its narrowest point of throat region 37 and a diameter D 44 (coinciding with a diameter of ridge 44 detailed below) no larger than approximately 0.23 inches at its widest point.
- neck 36 is dimensioned so that its widest point (e.g., ridge 44 ) fits through eyelet opening 16 and retains eyelet cover 20 in position, while its narrowest point (e.g., throat region 37 ) sits flush against an interior portion of grommet 18 to provide a sufficiently tight fit as further described in detail below.
- neck 36 may not have a uniform diameter D 36 throughout and diameter D 36 may vary depending on the curvature of exterior surface 40 .
- neck 36 has a wall thickness T 36 that is as thin as can be reasonably and easily molded (e.g., for a plastic eyelet cover 20 ) to save on manufacturing and materials costs, while still providing sufficient structural integrity to neck 36 to sustain eyelet cover 20 in eyelet 12 .
- wall thickness T 36 may range between 0.02 and 0.03 inches.
- eyelet cover 20 is of uniform thickness such that thickness T 28 of outer peripheral edge 28 and thickness T 36 of neck 36 are identical within a given tolerance. In other embodiments, eyelet cover 20 may not be of uniform thickness.
- insertion region 38 of neck 36 includes an annular ridge 44 that extends around a perimeter (e.g., a circumference) of neck 36 .
- Ridge 44 includes a maximum outer dimension diameter D 44 ( FIG. 7 ) that is equal to or larger than interior diameter D 12 of eyelet 12 so that ridge 44 can retain eyelet cover 20 in position after insertion through eyelet 12 as further described in detail below.
- diameter D 44 is tightly toleranced in relation to interior diameter D 12 (e.g., diameter D 44 may be approximately 0-10% greater than interior diameter D 12 ) to avoid potential difficulties or require application of excess force F 1 to insert neck 36 through eyelet opening 16 .
- diameter D 44 is preferably sufficiently large relative to diameter D 12 such that ridge 44 retains eyelet cover 20 after insertion in eyelet 12 .
- diameter D 44 ranges from between 0.21 inches to 0.23 inches as compared to interior diameter D 12 which may range from between 0.18 inches to 0.21 inches in one embodiment.
- a notch 46 may be formed on neck 36 extending in the axial direction relative to axis 42 .
- eyelet cover 20 includes two coaxially aligned notches 46 that split neck 36 into two cantilevered halves 36 a , 36 b .
- Notch 46 allows for a given design of eyelet cover 20 with nominal diameters D 36 for neck 36 and D 44 for ridge 44 to fit a larger variety of sizes for eyelets 12 by allowing ridge 44 (and neck 36 ) to compress or deform inwardly (e.g., cantilevered halves 36 a , 36 b move inwardly toward axis 42 ) when eyelet cover 20 is inserted into eyelet 12 .
- an eyelet cover 20 with notches 46 alleviates a need for tight tolerances between diameter D 44 of ridge 44 and inner diameter D 12 of eyelet 12 and reduces a need to manufacturing an eyelet cover 20 for every size of an eyelet 12 .
- a single eyelet cover 20 with notches 46 can accommodate a range of sizes of eyelet 12 .
- an eyelet cover 20 is manufactured with a diameter D 44 that is 20% larger than interior diameter D 12 of a particular eyelet 12 , ridge 44 of neck 36 may not fit through eyelet 12 or would require substantial downward force F 1 on crown 22 .
- an eyelet cover 20 with notches 46 on neck 36 may provide sufficient resiliency to allow neck 36 to elastically deform inwardly toward axis 42 to allow ridge 44 to slide through eyelet opening 16 .
- neck halves 36 a , 36 b may deflect outwardly to bias ridge 44 against an interior portion 18 a of grommet 18 and maintain eyelet cover 20 in a locked position.
- notch 46 is sized to allow ridge 44 and neck 36 to compress inwardly to fit into a variety of sizes of eyelet 12 .
- notch 46 is sized in relation to thickness T 36 of neck 36 so as to leave adequate material so that neck 36 is sufficiently rigid and does not collapse or break when eyelet cover 20 is inserted into eyelet 12 .
- notch 46 may be formed so that it has a diameter D 46 ranging between 0.03 and 0.04 inches and a height H 46 that ranges between 0.05 and 0.10 inches.
- height H 46 does not exceed 0.10 inches in height to maintain the structural integrity of eyelet cover 20 .
- notch 46 may narrow or taper as it extends from insertion region 38 up to neck 36 so that neck 36 retains sufficient material while remaining flexible.
- neck 36 may include more than two notches 46 , if desired.
- neck 36 may include a plurality of notches 46 such that neck 36 is partitioned or divided into a plurality of cantilevered prongs (not shown).
- Each of the cantilevered prongs may include a catch (such as ridge 44 ) on a free end thereof.
- neck 36 may include no notches and neck 36 may instead be a solid structure as shown in FIG. 8 . In such embodiments, neck 36 is still capable of deforming, but its range of deformation is limited in comparison to a neck 36 having notches 46 .
- insertion region 38 may include a chamfered or beveled lead-in section 48 for helping guide neck 36 into eyelet opening 16 .
- lead-in section 48 may be formed as a chamfered or beveled edge of ridge 44 such that lead-in section 48 tapers inwardly from ridge 44 toward a bottom surface 48 of neck 36 .
- an angle of inclination ⁇ of lead-in section 48 can be properly determined by considering the curvature of grommet 18 of eyelet 12 . For instance, in some embodiments, angle ⁇ may range from between 15 degrees to 75 degrees. In other embodiments, angle ⁇ may range from between 45 and 65 degrees. In still other embodiments, angle ⁇ may be any angle less than 90 degrees.
- lead-in section 48 tapers inwardly from ridge 44 to a minimum outer diameter D 48 that is smaller than both diameter D 44 of ridge 44 and inner diameter D 12 of eyelet 12 (see FIGS. 6 and 7 ).
- lead-in section 48 may have a diameter D 48 that is slightly smaller (e.g., approximately 5% or less) than inner diameter D 12 of eyelet 12 .
- diameter D 48 may range from 0.18 to 0.19 inches. The combination of the smaller diameter D 48 and the angle of inclination ⁇ of lead-in section 48 helps facilitate the insertion of eyelet cover 20 into eyelet 12 as further described in detail below.
- eyelet cover 20 further includes a bore 52 extending in the axial direction along axis 42 through both neck 36 and crown 22 .
- Bore 52 defines an interior passage that extends through eyelet cover 20 .
- Bore 52 is preferably sized to receive shoelaces (not shown) of shoe 10 .
- bore 52 may have a diameter D 52 ranging from between 0.12 and 0.15 inches to accommodate a variety of aglets and shoelace sizes ( FIG. 7 ). In other embodiments, diameter D 52 may be larger or smaller or may vary throughout the depth of eyelet cover 20 .
- bore 52 may include a rounded strain relief top section 54 extending toward top surface 24 of crown 22 and a rounded strain relief bottom section 56 extending from a bottom surface 58 of neck 36 .
- Strain relief sections 54 , 56 alleviate strain and help prevent fraying or rubbing of the shoelaces with eyelet cover 20 .
- rounded strain relief sections 54 , 56 provide less leverage and help deter the shoe laces from grabbing onto eyelet cover 20 and potentially dislodging it from eyelet 12 when, for example, a user is tying his or her shoe 10 .
- eyelet cover 20 Prior to insertion, eyelet cover 20 is oriented so that insertion region 38 of neck 36 faces eyelet 12 . In this orientation, eyelet cover 20 is moved toward eyelet 12 until lead-in section 48 contacts grommet 18 (or eyelet 12 if no grommet is used). In some embodiments, depending on the dimensions of lead-in section 48 and grommet 18 , lead-in section 48 may partially enter eyelet opening 16 . Once lead-in section 48 is properly arranged, downward force F 1 is applied on crown 22 to forcibly push or snap insertion region 38 and neck 36 through eyelet opening 16 .
- the force F 1 necessary to snap eyelet cover 20 into eyelet 12 may range from about four to eight pounds of force. In other embodiments, the insertion force F 1 may be greater or smaller depending on a variety of factors, such as the material properties (e.g., coefficient of friction and elasticity) of eyelet cover 20 , the ratio of ridge diameter D 44 to eyelet diameter D 12 , and the material properties (e.g., coefficient of friction and elasticity) of grommet 18 .
- the material properties e.g., coefficient of friction and elasticity
- ridge 44 bears against grommet 18 , which urges cantilevered halves 36 a , 36 b of neck 36 inwardly toward axis 42 . Because neck 36 moves or deforms inwardly, eyelet cover 20 can slide within eyelet 12 with less resistance and provide a tighter fit of neck 36 and throat region 37 for a wide variety of eyelet sizes. Crown 22 is pushed downwardly until neck 36 slides through eyelet opening 16 and ridge 44 bears against internal surface 18 a of grommet 18 . At this point, insertion region 38 expands outwardly and ridge 44 engages internal surface 18 a to retain eyelet cover 20 in position.
- an audible sound may be produced alerting or notifying a user that eyelet cover 20 is properly installed. For instance, insertion of eyelet cover 20 may produce a loud snap or pop reminiscent of a sound produced by a person snapping his or her fingers. The pitch, volume, and other characteristics of the sound may change based on a number of variables, such as the materials used to manufacture eyelet cover 20 and the tightness of the fit of the eyelet cover 20 in the eyelet 12 .
- ridge 44 retains eyelet cover 20 in position as described and throat region 37 (see FIG. 4 ) fits snugly within grommet 18 .
- Throat region 37 and inner surface 30 may contact grommet 18 along multiple points (or all points) to help prevent rotation or other movement of eyelet cover 20 .
- Bottom surface 26 sits around and encloses grommet 18 , with outer peripheral edge 28 preferably contacting shoe 10 to completely cover grommet 18 .
- top surface 24 of crown 22 sits on top of eyelet 12 to display its decorative pattern or design.
- shoe laces or other material can be threaded through bore 52 .
- a user may apply up to twenty pounds of force on a shoe lace before eyelet cover 20 is dislodged from eyelet 12 .
- a user applies much less than twenty pounds of force when tying shoes, so eyelet cover 20 is unlikely to be dislodged in this fashion.
- eyelet cover 20 may be removed by exerting an upward release force F 2 on the crown 22 (see FIG. 6 ).
- a user may use a fingernail or tool to apply release force F 2 onto outer peripheral edge 28 of crown 22 to dislodge eyelet cover 20 .
- a user may instead apply release force F 2 on bottom surface 58 to dislodge eyelet cover 20 outwardly from the inside of shoe 10 .
- Release force F 2 may be in the same range of four to eight pounds as insertion force F 1 .
- release force F 2 is larger than insertion F 1 so that eyelet cover 20 is not easily or accidentally removed, but not so large such that eyelet cover 20 is difficult to remove.
- release force F 2 may be 1.5 to 2 times larger than insertion force F 1 .
- a variety of eyelet covers may be packaged together and sold as a kit or package with or without a shoe (e.g., shoe 10 ).
- the kit may include a number of eyelet covers of same or different shapes, colors, and sizes to fit a variety of sized eyelets on a shoe.
- a user may choose a package of eyelet covers of any shape and size and having school colors, team colors, favorite colors, or an array of the same or random colors.
- a shoe may include fourteen pairs of eyelets, for a total of 28 eyelets for a pair of shoes.
- a total of 28 identically (or substantially identically) sized eyelets may be packaged in a kit.
- All of the eyelet covers may be the same shape, style, and color or may be a mix of shapes, styles, and colors depending on the preference of the user to customize the outward appearance of the shoe.
- additional eyelet covers of different sizes may be included to fit smaller eyelets in the shoes.
- the eyelet covers may be used in conjunction with shoes sold under the brand CONVERSE ALL STAR CHUCK TAYLOR® manufactured by Converse Inc, a subsidiary of Nike, Inc, of Beaverton, Oreg. In other embodiments, the eyelet covers may be used to decorate and customize any other shoe.
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Abstract
A snap-fit eyelet cover configured for insertion through an eyelet opening to decorate an eyelet on footwear, garments, and the like. The eyelet cover includes a neck formed of a material sufficiently resilient to fit through an eyelet opening and thereafter expand to bear against the eyelet and retain the eyelet cover in position. The eyelet cover further includes a crown extending radially outward from the neck, the crown having a top surface that may be decorated with any number of patterns, shapes, colors, or other decorative features as desired. A bore extends in an axial direction through the neck and the crown to provide an interior passage for threading a shoe lace or other material.
Description
- The field of the present disclosure relates generally to fashion accessories, and more particularly to accessories for footwear, garments, or the like.
- Grommets have been used across many different industries to address a variety of needs. For example, grommets may be used to reinforce holes or openings formed in thin or fragile materials, such as a shower curtain or shower curtain liner. In industrial settings, grommets may be used to provide strain relief to protect rope, wire, or other materials threaded through the grommet. In still other embodiments, a small grommet (also sometimes called an eyelet) may be used to line holes in shoes or clothing to receive laces or merely used as a decorative feature.
- Eyelets, or grommets, may be made from a variety of materials. For instance, grommets may be made from hard, durable materials, such as metal or plastic. Metal grommets may be installed by crimping or press fitting the grommet into a material to surround an opening. Typically, metal grommets require special tools to insert the grommet into the material and are not easily removable or interchangeable. Plastic grommets generally have a two-piece construction with a pair of mating or keyed portions. In such embodiments, one mating portion is typically positioned on one side of an opening and the second mating portion is positioned on an opposite side of the opening. Once the mating portions are aligned on opposite sides of the opening, the two pieces are brought together and fasten to each other and the fabric or other base material to reinforce the opening.
- A snap-fit eyelet cover for decorating an eyelet on footwear, garments, and the like includes a neck and a crown extending radially outward from the neck. In some embodiments, the crown overhangs the neck to provide a mushroom-like appearance for the eyelet cover. The neck includes an exterior surface extending radially outward from a throat region to an insertion region of the neck. The throat region has a maximum outer diameter that is smaller than a maximum outer diameter of the insertion region. In some embodiments, an exterior surface of the neck may be curved and extend between the throat region and the insertion region. Preferably, the neck is formed of a material sufficiently resilient such that the neck fits through an eyelet opening and thereafter expands to bear against the eyelet and retain the eyelet cover in the eyelet.
- The crown includes a top surface that may include a variety of decorations, colors, patterns, and/or shapes, as desired. When inserted through the eyelet, the top surface of the crown is visible and displays its decorative features. The eyelet cover includes a bore extending in an axial direction through the neck and the crown to define an interior passage extending through the eyelet cover. In some embodiments, such as when the eyelet cover is inserted into a shoe eyelet, a shoe lace or other material may be threaded through the bore.
- Additional aspects and advantages will be apparent from the following detailed description of preferred embodiments, which proceeds with reference to the accompanying drawings.
-
FIG. 1 illustrates a view of a shoe having a plurality of eyelets into which an eyelet cover may be inserted. -
FIG. 2 is a top perspective view of an eyelet cover according to one embodiment. -
FIG. 3 is a bottom perspective view of the eyelet cover ofFIG. 2 . -
FIG. 4 is a side elevation view of the eyelet cover ofFIG. 2 . -
FIG. 5 is a top plan view of the eyelet cover ofFIG. 2 . -
FIG. 6 is a schematic of a cross-section view of the eyelet cover ofFIG. 2 inserted through an eyelet. -
FIG. 7 is a cross-section view of the eyelet cover ofFIG. 5 taken along line A-A. -
FIG. 8 is a bottom perspective view of an eyelet cover according to another embodiment. - With reference to the drawings, this section describes particular embodiments and their detailed construction and operation. Throughout the specification, reference to “one embodiment,” “an embodiment,” or “some embodiments” means that a particular described feature, structure, or characteristic may be included in at least one embodiment. Thus appearances of the phrases “in one embodiment,” “in an embodiment,” or “in some embodiments” in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the described features, structures, and characteristics may be combined in any suitable manner in one or more embodiments. In view of the disclosure herein, those skilled in the art will recognize that the various embodiments can be practiced without one or more of the specific details or with other methods, components, materials, or the like. In some instances, well-known structures, materials, or operations are not shown or not described in detail to avoid obscuring aspects of the embodiments.
- In the following description of the figures and any example embodiments, it should be understood that use of an eyelet cover with footwear is merely one use for such an eyelet cover and should not be considered as limiting. An eyelet cover with the characteristics and features described herein can alternatively be inserted into eyelets used for a variety of other purposes or found on other structures, materials, fabrics, or the like, such as, clothing, belts, bracelets, wristbands, necklaces, or other structures having an eyelet or opening.
- With general reference to
FIGS. 1-7 , the following briefly describes an example embodiment of aneyelet cover 20 that may be used to decorate and customize ashoe 10 as desired. With reference toFIG. 1 ,shoe 10 may include a plurality ofeyelets 12 arranged in any desired configuration. Eacheyelet 12 includes an eyelet opening 16. In some embodiments,eyelet 12 may be reinforced by a reinforcing ring-shaped eyelet/grommet 18 (sometimes also referred to as an eyelet) that may be crimped or otherwise attached toshoe 10 aroundeyelet opening 16. In other embodiments,eyelet 12 may not be reinforced withgrommet 18 and may simply be an opening on the fabric ofshoe 10. Accordingly, it should be understood that any reference to insertingeyelet cover 20 intoeyelet 12 includes both embodiments whereeyelet 12 is reinforced with grommet 18 (or other reinforcing material) and aneyelet 12 without agrommet 18. Additional details ofshoe 10 and its components are further described below. - With reference to
FIGS. 2-7 ,eyelet cover 20 is shaped and configured to snap into, or otherwise be inserted or fitted into, aneyelet 12 as decoration or to provide other benefits, such as, reinforcing and protecting the eyelet/grommet, protecting the shoe lace against fraying, and diminishing the amount of water, dust, or debris entering the shoe.Eyelet cover 20 includes aneck 36 and acrown 22 extending radially outward from an outer end ofneck 36.Neck 36 includes aninsertion region 38 at an inner end ofneck 36 opposite the outer end, the insertion region having aridge 44 that helps retaineyelet cover 20 in position after insertion intoeyelet 12. Crown 22 includes atop surface 24 and anopposite bottom surface 26.Eyelet cover 20 further includes abore 52 extending in an axial direction relative toaxis 42 throughneck 36 andcrown 22. Bore 52 forms an interior passage througheyelet cover 20 and is sized to receive a shoe lace (not shown) ofshoe 10. - Briefly, when
eyelet cover 20 is inserted intoeyelet 12,top surface 24 ofcrown 22 is visually exposed onshoe 10. Accordingly, as described in further detail below,top surface 24 may include a variety of decorations, colors, patterns, and/or shapes, as desired. Preferably,ridge 44 has an outer diameter dimension D44 that is larger than a corresponding inner diameter dimension D12 of eyelet 12 (seeFIG. 6 ) to retaineyelet cover 20 as mentioned, but preferably not so large thateyelet cover 20 cannot be easily inserted intoeyelet 12. Further details of a relationship between these dimensions and how the components cooperate to maintaineyelet cover 20 in position withineyelet 12 are described below. The following describes further detailed aspects of this and other embodiments ofshoe 10 andeyelet cover 20. - With particular reference to
FIG. 1 ,shoe 10 includes a plurality ofeyelets 12 arranged in any desired configuration. In some embodiments,shoe 10 may include a row ofeyelets 12 arranged on a vamp ofshoe 10 to form part of a lacing system through which a shoe lace (not shown) may be threaded through.Shoe 10 may also include one or more other eyelets, such asvent eyelets 12′, positioned on a different region of the shoe away from the lacing system, such as near amidsole 14 ofshoe 10. In some embodiments, vent eyelets 12′ may be for decorative purposes and may not form part of the lacing system. -
Eyelets eyelet opening eyelets grommet eyelet opening Grommet 18 may be made of metal, plastic, or other hardened material for reinforcingeyelet opening eyelets 12′ andeyelet openings FIG. 6 , an interior diameter D12 ofeyelet 12 may range from between 0.18 to 0.21 inches in some embodiments. On the other hand, the interior diameter D12 ofvent eyelet 12′ may range from 0.15 to 0.18 inches. In addition,eyelet 12 may have an overall height dimension H12 ranging from 0.12 to 0.16 inches, whereaseyelet 12′ may have a height dimension H12 ranging from 0.08 to 0.13 inches. As installed,eyelet 12 may have a raised portion or raised height RH12 (measured fromshoe 10 to a top of grommet 18) ranging from 0.04 to 0.06 inches. - It should be understood that the size of
eyelets eyelet openings shoes 10 across different manufacturers. As further described below, these and other dimensions ofeyelets eyelet cover 20. The below description includes an example embodiment of dimensions and ranges for such components ofeyelet cover 20. It should be understood, however, that any provided dimensions and ranges are for illustration purposes only and not intended to be limited. For instance, in other embodiments, precise dimensions and ranges may fall outside the values provided in the description without departing from the principles of the disclosed subject matter. -
FIGS. 2-7 collectively illustrate an embodiment of aneyelet cover 20 that may be used to decorateeyelets 12 onshoe 10. With reference toFIGS. 2-7 ,eyelet cover 20 includes acrown 22 extending radially outward from aneck 36 such thatcrown 22overhangs neck 36.Crown 22 includes atop surface 24 and an opposite bottom orunderside surface 26. As is further described in detail below, the components ofeyelet cover 20 are preferably formed as a one-piece, monolithic structure wheretop surface 24,bottom surface 26, and anexterior surface 40 ofneck 36 have no appreciable seams or mold part lines. In some embodiments,eyelet cover 20 may be formed from a resilient (e.g., elastically deformable) material. For instance,eyelet cover 20 may be formed from a thermoplastic resin such as ABS, acetal, nylon, PVC, or any other suitable plastic material. - Such plastic materials have desirable qualities such as sufficient lubricity to reduce friction between
eyelet cover 20 andgrommet 18 to facilitate installation. In addition, such plastics are inexpensive, easy to handle, structurally sound, and receptive to colors and dyes to allow for a variety of decorative options. In other embodiments, other materials may be used such as metals, wood, or other suitable materials. Further details of example materials foreyelet cover 20, as well as preferred mechanical characteristics for such materials, are described below. - In the following description, example dimensions for
eyelet cover 20 are provided to correspond with the example dimensions ofeyelet 12 described in relation toFIG. 1 . As mentioned previously,shoe 10 may include eyelets of various sizes, such aseyelet 12′. One having skill in the art would appreciate that dimensions for an eyelet cover to fit an eyelet of any given size may be obtained by appropriately scaling the example dimensions provided herein. In addition, since some dimensions may be dependent on the mechanical properties, such as elasticity and friction, of the materials used to manufactureeyelet cover 20, it should be understood that the described dimensions may differ for various materials. - As briefly described previously,
top surface 24 ofcrown 22 is exposed onshoe 10 and may include decorative features. For instance,top surface 24 may be adorned or decorated with any number of patterns, shapes, or colors as desired. In one embodiment,top surface 24 may be rounded and in the shape of a torroidal section (e.g., donut-shaped) with a flattened top to mimic a typical rounded contour ofeyelet 12. Such configuration may preserve the general look and feel of theeyelet 12 andshoe 10. In other embodiments,top surface 24 may be a square, oval, star-shaped, or other shape, and may include surface textures and/or ornamentation or decorations. - For instance, in embodiments where eyelet cover 20 is manufactured from a plastic resin, one or more colors, pigments, or dyes may be added to the plastic resin mixture to create an array of colors (e.g., red, orange, yellow, green, blue, indigo, violet) for
eyelet cover 20, including creating various multi-colored orrainbow eyelet cover 20. In other embodiments,eyelet cover 20 may be made from electroplated materials to provide a chrome, gold, or other metallic finish or appearance. In still other embodiments, iridescent materials may be used to provide a lustrous or brilliant finish to eyeletcover 20, and in particular, totop surface 24 ofeyelet cover 20. In yet other embodiments,top surface 24 may be encrusted or bejeweled with various items, such as gemstones, pearls, synthetic jewels, costume jewelry, or other items as desired. In still other embodiments,eyelet cover 20 may be made from photoluminescent materials (e.g., phosphorescent materials) to provide glow-in-the-dark effects. In yet other embodiments,eyelet cover 20 may be made from thermochromic materials that change color in response to changes in temperature (e.g., similar to a mood ring). - In one example embodiment,
eyelet cover 20 is molded from a plastic material having a tensile modulus and a flexural modulus each ranging from between 2 and 3 gigapascals (GPa). In addition, the plastic material preferably has a tensile strength ranging from approximately 80 GPa (at −40° F.) to approximately 95 GPa (at 160° F.). Such characteristics provide sufficient flexibility so thateyelet cover 20 may deform and deflect during insertion intoeyelet 12 and also provide sufficient strength foreyelet cover 20 to resist damage. It should be understood that other materials having different mechanical properties may be suitable foreyelet cover 20. - Preferably,
top surface 24 is sized to completely cover orobscure eyelet 12 andgrommet 18 when eyelet cover 20 is snapped into position.Top surface 24 may have a diameter D24 that is as small or as large as desired to support a variety of decorative features, such as those briefly described above. For instance, in one embodiment, diameter D24 may range from 0.50 to 0.53 inches. Preferably, diameter D24 oftop surface 24 is not smaller than the sum of the inner diameter D52 ofbore 52 plus the two wall thicknesses T36 ofneck 36. In addition, diameter D24 should generally not be so large so as to interfere withother eyelets 12 or eyelet covers 20 that may be positioned onshoe 10. - With particular reference to
FIG. 3 ,bottom surface 26 extends radially outward fromneck 36 and an outerperipheral edge 28 depends axially downward from the radially outward portion ofbottom surface 26. Outerperipheral edge 28 extends around the perimeter (e.g., circumference for a circular crown 22) ofbottom surface 26 and may have a substantiallyplanar surface 32.Planar surface 32 extends substantially transverse in relation toaxis 42 from aperiphery 34 ofcrown 22 inward towardneck 36. In some embodiments, outerperipheral edge 28 may range in thickness T28 from between 0.02 and 0.03 inches (FIG. 7 ). Preferably, thickness T28 is not smaller than approximately 0.02 inches to provide structural rigidity to crown 22 and a sufficiently comfortable prying surface against which a force F2 (FIG. 6 ) may be exerted to removecrown 22 fromeyelet 12 when desired. - As mentioned previously,
bottom surface 26 includes a curved or recessed section extending radially outward fromneck 36 to aninterior end 30 of outerperipheral edge 28. Preferably,bottom surface 26 has a maximum recess or curve depth RD30 dimensioned to encompass and covereyelet 12 when eyelet cover 20 is installed. Curve depth RD30 is measured from the outerperipheral edge 28 to a central point ofbottom surface 26 between outerperipheral edge 28 andneck 36. For instance, with particular reference toFIG. 7 , curve depth RD30 may range from between 0.05 and 0.07 inches and diameter D30 may range between 0.45 and 0.47 inches so thatgrommet 18 ofeyelet 12 sits within and is covered bybottom surface 26 when eyelet cover 20 is inserted. In some embodiments,bottom surface 26 may tightly toleranced (e.g., approximately 2-5% larger) with respect togrommet 18 to provide an interference fit withgrommet 18 and minimize movement ofeyelet cover 20 when inserted ineyelet 20. - With particular reference to
FIG. 3 , bottom surface 26 transitions smoothly intoneck 36 via a rampedsection 50 such thatbottom surface 26 and anexterior surface 40 ofneck 36 form a continuously curved surface (e.g., lacking any planar surfaces) extending frominterior end 30 of outerperipheral edge 28 toridge 44 onneck 36. In such an arrangement, the continuous curves ofbottom surface 26 andexterior surface 40 ofneck 36 are dimensioned to provide an optimal fit with the corresponding curvatures ofgrommet 18 ofeyelet 12. In such embodiments,eyelet cover 20 may have a height dimension H36 measured fromridge 44 to the deepest part ofbottom surface 26 ranging from 0.17 to 0.19 inches (FIG. 7 ). Overall,eyelet cover 20 may have a height dimension H20 of between 0.19 and 0.21 inches. -
Neck 36 includes athroat region 37 and aninsertion region 38 shaped to guideeyelet cover 20 througheyelet opening 16. In some embodiments,exterior surface 40 ofneck 36 is convex and curves inwardly towardaxis 42 frombottom surface 26 throughthroat region 37 and toinsertion region 38. The amount and degree of curvature ofneck 36 can be properly determined by the curvature ofgrommet 18 oneyelet 12. Preferably,convex exterior surface 40 is dimensioned so thatneck 36 rests flush or substantially flush against an inner portion ofgrommet 18 when eyelet cover 20 is inserted througheyelet 12 as shown inFIG. 6 . -
FIG. 6 illustrates a cross-section view of aneyelet cover 20 inserted througheyelet 12 andgrommet 18 according to an example embodiment. As illustrated inFIG. 6 ,exterior surface 40 ofneck 36 sits flush againstgrommet 18 to limit or inhibit movement ofeyelet cover 20 withineyelet 12. To accommodate a large portion of standard sizes foreyelet 12 andeyelet openings 16,neck 36 preferably has a diameter D36 ranging from 0.17 to 0.19 inches at its narrowest point ofthroat region 37 and a diameter D44 (coinciding with a diameter ofridge 44 detailed below) no larger than approximately 0.23 inches at its widest point. Generally,neck 36 is dimensioned so that its widest point (e.g., ridge 44) fits througheyelet opening 16 and retainseyelet cover 20 in position, while its narrowest point (e.g., throat region 37) sits flush against an interior portion ofgrommet 18 to provide a sufficiently tight fit as further described in detail below. As illustrated inFIGS. 3 , 4, 6, and 7,neck 36 may not have a uniform diameter D36 throughout and diameter D36 may vary depending on the curvature ofexterior surface 40. - Preferably,
neck 36 has a wall thickness T36 that is as thin as can be reasonably and easily molded (e.g., for a plastic eyelet cover 20) to save on manufacturing and materials costs, while still providing sufficient structural integrity toneck 36 to sustaineyelet cover 20 ineyelet 12. For instance, in some embodiments, wall thickness T36 may range between 0.02 and 0.03 inches. Preferably,eyelet cover 20 is of uniform thickness such that thickness T28 of outerperipheral edge 28 and thickness T36 ofneck 36 are identical within a given tolerance. In other embodiments,eyelet cover 20 may not be of uniform thickness. - With reference to
FIGS. 3 and 4 ,insertion region 38 ofneck 36 includes anannular ridge 44 that extends around a perimeter (e.g., a circumference) ofneck 36.Ridge 44 includes a maximum outer dimension diameter D44 (FIG. 7 ) that is equal to or larger than interior diameter D12 ofeyelet 12 so thatridge 44 can retaineyelet cover 20 in position after insertion througheyelet 12 as further described in detail below. Preferably, diameter D44 is tightly toleranced in relation to interior diameter D12 (e.g., diameter D44 may be approximately 0-10% greater than interior diameter D12) to avoid potential difficulties or require application of excess force F1 to insertneck 36 througheyelet opening 16. However, diameter D44 is preferably sufficiently large relative to diameter D12 such thatridge 44 retainseyelet cover 20 after insertion ineyelet 12. For instance, in some embodiments, diameter D44 ranges from between 0.21 inches to 0.23 inches as compared to interior diameter D12 which may range from between 0.18 inches to 0.21 inches in one embodiment. - In some embodiments, a
notch 46 may be formed onneck 36 extending in the axial direction relative toaxis 42. Preferably,eyelet cover 20 includes two coaxially alignednotches 46 that splitneck 36 into two cantileveredhalves Notch 46 allows for a given design ofeyelet cover 20 with nominal diameters D36 forneck 36 and D44 forridge 44 to fit a larger variety of sizes foreyelets 12 by allowing ridge 44 (and neck 36) to compress or deform inwardly (e.g., cantilevered halves 36 a, 36 b move inwardly toward axis 42) when eyelet cover 20 is inserted intoeyelet 12. In this fashion, aneyelet cover 20 withnotches 46 alleviates a need for tight tolerances between diameter D44 ofridge 44 and inner diameter D12 ofeyelet 12 and reduces a need to manufacturing aneyelet cover 20 for every size of aneyelet 12. Asingle eyelet cover 20 withnotches 46 can accommodate a range of sizes ofeyelet 12. - For example, if an
eyelet cover 20 is manufactured with a diameter D44 that is 20% larger than interior diameter D12 of aparticular eyelet 12,ridge 44 ofneck 36 may not fit througheyelet 12 or would require substantial downward force F1 oncrown 22. However, aneyelet cover 20 withnotches 46 onneck 36 may provide sufficient resiliency to allowneck 36 to elastically deform inwardly towardaxis 42 to allowridge 44 to slide througheyelet opening 16. Onceridge 44 clears an internal surface 18 a of grommet 18 (FIG. 6 ), neck halves 36 a, 36 b may deflect outwardly to biasridge 44 against an interior portion 18 a ofgrommet 18 and maintaineyelet cover 20 in a locked position. - As mentioned previously,
notch 46 is sized to allowridge 44 andneck 36 to compress inwardly to fit into a variety of sizes ofeyelet 12. Preferably, notch 46 is sized in relation to thickness T36 ofneck 36 so as to leave adequate material so thatneck 36 is sufficiently rigid and does not collapse or break when eyelet cover 20 is inserted intoeyelet 12. For instance, in some embodiments, notch 46 may be formed so that it has a diameter D46 ranging between 0.03 and 0.04 inches and a height H46 that ranges between 0.05 and 0.10 inches. Preferably, height H46 does not exceed 0.10 inches in height to maintain the structural integrity ofeyelet cover 20. In some embodiments, notch 46 may narrow or taper as it extends frominsertion region 38 up toneck 36 so thatneck 36 retains sufficient material while remaining flexible. - In other embodiments,
neck 36 may include more than twonotches 46, if desired. For instance,neck 36 may include a plurality ofnotches 46 such thatneck 36 is partitioned or divided into a plurality of cantilevered prongs (not shown). Each of the cantilevered prongs may include a catch (such as ridge 44) on a free end thereof. Whenneck 36 is inserted intoeyelet 12, each of the prongs is initially moved inwardly toward axis 42 (in a similar fashion as previously described) and thereafter deflects outwardly so that the catch engageseyelet 12 to holdeyelet cover 20 in position. In still other embodiments,neck 36 may include no notches andneck 36 may instead be a solid structure as shown inFIG. 8 . In such embodiments,neck 36 is still capable of deforming, but its range of deformation is limited in comparison to aneck 36 havingnotches 46. - In some embodiments,
insertion region 38 may include a chamfered or beveled lead-insection 48 for helping guideneck 36 intoeyelet opening 16. With particular reference toFIGS. 3 and 4 , in one embodiment, lead-insection 48 may be formed as a chamfered or beveled edge ofridge 44 such that lead-insection 48 tapers inwardly fromridge 44 toward abottom surface 48 ofneck 36. In some embodiments, an angle of inclination α of lead-insection 48 can be properly determined by considering the curvature ofgrommet 18 ofeyelet 12. For instance, in some embodiments, angle α may range from between 15 degrees to 75 degrees. In other embodiments, angle α may range from between 45 and 65 degrees. In still other embodiments, angle α may be any angle less than 90 degrees. - Preferably, lead-in
section 48 tapers inwardly fromridge 44 to a minimum outer diameter D48 that is smaller than both diameter D44 ofridge 44 and inner diameter D12 of eyelet 12 (seeFIGS. 6 and 7 ). In some embodiments, lead-insection 48 may have a diameter D48 that is slightly smaller (e.g., approximately 5% or less) than inner diameter D12 ofeyelet 12. For instance, in some embodiments, diameter D48 may range from 0.18 to 0.19 inches. The combination of the smaller diameter D48 and the angle of inclination α of lead-insection 48 helps facilitate the insertion ofeyelet cover 20 intoeyelet 12 as further described in detail below. - With reference to
FIG. 2 ,eyelet cover 20 further includes abore 52 extending in the axial direction alongaxis 42 through bothneck 36 andcrown 22.Bore 52 defines an interior passage that extends througheyelet cover 20.Bore 52 is preferably sized to receive shoelaces (not shown) ofshoe 10. For instance, bore 52 may have a diameter D52 ranging from between 0.12 and 0.15 inches to accommodate a variety of aglets and shoelace sizes (FIG. 7 ). In other embodiments, diameter D52 may be larger or smaller or may vary throughout the depth ofeyelet cover 20. - To provide strain relief for shoelaces or other material threaded through
eyelet cover 20, bore 52 may include a rounded strain relief top section 54 extending towardtop surface 24 ofcrown 22 and a rounded strainrelief bottom section 56 extending from abottom surface 58 ofneck 36.Strain relief sections 54, 56 alleviate strain and help prevent fraying or rubbing of the shoelaces witheyelet cover 20. In addition, roundedstrain relief sections 54, 56 provide less leverage and help deter the shoe laces from grabbing ontoeyelet cover 20 and potentially dislodging it fromeyelet 12 when, for example, a user is tying his or hershoe 10. - With reference to
FIGS. 1-7 , an example operation ofeyelet cover 20 is described below. Prior to insertion,eyelet cover 20 is oriented so thatinsertion region 38 ofneck 36 faceseyelet 12. In this orientation,eyelet cover 20 is moved towardeyelet 12 until lead-insection 48 contacts grommet 18 (oreyelet 12 if no grommet is used). In some embodiments, depending on the dimensions of lead-insection 48 andgrommet 18, lead-insection 48 may partially entereyelet opening 16. Once lead-insection 48 is properly arranged, downward force F1 is applied oncrown 22 to forcibly push or snapinsertion region 38 andneck 36 througheyelet opening 16. In some embodiments, the force F1 necessary to snapeyelet cover 20 intoeyelet 12 may range from about four to eight pounds of force. In other embodiments, the insertion force F1 may be greater or smaller depending on a variety of factors, such as the material properties (e.g., coefficient of friction and elasticity) ofeyelet cover 20, the ratio of ridge diameter D44 to eyelet diameter D12, and the material properties (e.g., coefficient of friction and elasticity) ofgrommet 18. - As
neck 36 slides througheyelet opening 16,ridge 44 bears againstgrommet 18, which urges cantileveredhalves neck 36 inwardly towardaxis 42. Becauseneck 36 moves or deforms inwardly,eyelet cover 20 can slide withineyelet 12 with less resistance and provide a tighter fit ofneck 36 andthroat region 37 for a wide variety of eyelet sizes.Crown 22 is pushed downwardly untilneck 36 slides througheyelet opening 16 andridge 44 bears against internal surface 18 a ofgrommet 18. At this point,insertion region 38 expands outwardly andridge 44 engages internal surface 18 a to retaineyelet cover 20 in position. In some embodiments, an audible sound may be produced alerting or notifying a user that eyeletcover 20 is properly installed. For instance, insertion ofeyelet cover 20 may produce a loud snap or pop reminiscent of a sound produced by a person snapping his or her fingers. The pitch, volume, and other characteristics of the sound may change based on a number of variables, such as the materials used to manufactureeyelet cover 20 and the tightness of the fit of theeyelet cover 20 in theeyelet 12. - With particular reference to
FIG. 6 , in a fully assembled configuration,ridge 44 retainseyelet cover 20 in position as described and throat region 37 (seeFIG. 4 ) fits snugly withingrommet 18.Throat region 37 andinner surface 30 may contactgrommet 18 along multiple points (or all points) to help prevent rotation or other movement ofeyelet cover 20.Bottom surface 26 sits around and enclosesgrommet 18, with outerperipheral edge 28 preferably contactingshoe 10 to completely covergrommet 18. Onceeyelet cover 20 is inserted,top surface 24 ofcrown 22 sits on top ofeyelet 12 to display its decorative pattern or design. - After
eyelet cover 20 is inserted througheyelet 12, shoe laces or other material can be threaded throughbore 52. In some embodiments, a user may apply up to twenty pounds of force on a shoe lace beforeeyelet cover 20 is dislodged fromeyelet 12. Typically, a user applies much less than twenty pounds of force when tying shoes, soeyelet cover 20 is unlikely to be dislodged in this fashion. - If desired,
eyelet cover 20 may be removed by exerting an upward release force F2 on the crown 22 (seeFIG. 6 ). For instance, a user may use a fingernail or tool to apply release force F2 onto outerperipheral edge 28 ofcrown 22 to dislodgeeyelet cover 20. In other embodiments, a user may instead apply release force F2 onbottom surface 58 to dislodgeeyelet cover 20 outwardly from the inside ofshoe 10. Release force F2 may be in the same range of four to eight pounds as insertion force F1. Preferably, release force F2 is larger than insertion F1 so thateyelet cover 20 is not easily or accidentally removed, but not so large such thateyelet cover 20 is difficult to remove. For instance, release force F2 may be 1.5 to 2 times larger than insertion force F1. - In some embodiments, a variety of eyelet covers (e.g., eyelet cover 20) may be packaged together and sold as a kit or package with or without a shoe (e.g., shoe 10). In some instances, the kit may include a number of eyelet covers of same or different shapes, colors, and sizes to fit a variety of sized eyelets on a shoe. A user may choose a package of eyelet covers of any shape and size and having school colors, team colors, favorite colors, or an array of the same or random colors.
- For instance, a shoe may include fourteen pairs of eyelets, for a total of 28 eyelets for a pair of shoes. In such instances, a total of 28 identically (or substantially identically) sized eyelets may be packaged in a kit. All of the eyelet covers may be the same shape, style, and color or may be a mix of shapes, styles, and colors depending on the preference of the user to customize the outward appearance of the shoe. In some instances, additional eyelet covers of different sizes may be included to fit smaller eyelets in the shoes. In an example use, the eyelet covers (e.g., eyelet covers 20) may be used in conjunction with shoes sold under the brand CONVERSE ALL STAR CHUCK TAYLOR® manufactured by Converse Inc, a subsidiary of Nike, Inc, of Beaverton, Oreg. In other embodiments, the eyelet covers may be used to decorate and customize any other shoe.
- It will be obvious to those having skill in the art that many changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention. The scope of the present invention should, therefore, be determined only by the following claims.
Claims (12)
1. A snap-fit eyelet cover for decorating an eyelet on footwear, garments, and the like, the eyelet cover comprising:
a neck having an exterior surface extending radially outward from a throat region to an insertion region of the neck, wherein the throat region has a maximum outer diameter that is less than a maximum outer diameter of the insertion region, and wherein the neck is formed of a material sufficiently resilient to fit through an eyelet opening and to thereafter expand to bear against the eyelet and retain the eyelet cover in the eyelet;
a crown extending radially outward from the neck, the crown having a top surface and an opposite bottom surface; and
a bore extending in an axial direction through the neck and the crown, the bore defining an interior passage extending through the eyelet cover.
2. The snap-fit eyelet cover of claim 1 , wherein the neck includes a pair of notches, each notch extending in the axial direction from a bottom surface of the neck and through the insertion region.
3. The snap-fit eyelet cover of claim 1 , wherein the insertion region includes an annular ridge formed around at least a portion of the neck, the annular ridge having a maximum outer diameter larger than the throat region of the neck.
4. The snap-fit eyelet cover of claim 3 , wherein the insertion region further includes a chamfered edge defining a lead-in section, the lead-in section tapering inwardly from the annular ridge to a bottom surface of the neck.
5. The snap-fit eyelet cover of claim 1 , wherein the top and bottom surfaces of the crown extend to an outer peripheral edge, the outer peripheral edge having a planar surface and the bottom surface having a curved surface extending from the outer peripheral edge to the neck.
6. The snap-fit eyelet cover of claim 5 , wherein the bottom surface links to the exterior surface of the neck and defines a continuous curve extending from the outer peripheral edge to the insertion region of the neck.
7. The snap-fit eyelet cover of claim 1 , wherein the neck further includes an interior surface facing the bore, the interior surface linked to the top surface of the crown via a curved transition section to provide strain relief for a material inserted through the interior passage of the eyelet cover.
8. The snap-fit eyelet cover of claim 7 , where the interior surface of the neck is linked to a bottom surface of the neck via a second curved transition section to provide strain relief for a material inserted through the interior passage of the eyelet cover
9. The snap-fit eyelet cover of claim 1 , wherein the neck and the crown are formed as a single, monolithic structure.
10. The snap-fit eyelet cover of claim 9 , wherein the eyelet cover is molded from a plastic material.
11. The snap-fit eyelet cover of claim 1 , wherein the neck deforms inwardly toward the axial direction when the neck is inserted into the eyelet.
12. The snap-fit eyelet cover of claim 1 , wherein the top surface is rounded in the shape of a torroidal section.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US13/837,170 US20140259295A1 (en) | 2013-03-15 | 2013-03-15 | Decorative eyelet cover for footwear, garments, and the like |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US13/837,170 US20140259295A1 (en) | 2013-03-15 | 2013-03-15 | Decorative eyelet cover for footwear, garments, and the like |
Publications (1)
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US13/837,170 Abandoned US20140259295A1 (en) | 2013-03-15 | 2013-03-15 | Decorative eyelet cover for footwear, garments, and the like |
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Cited By (18)
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US20160209033A1 (en) * | 2015-01-20 | 2016-07-21 | United Technologies Corporation | Combustor dilution hole passive heat transfer control |
US20170086529A1 (en) * | 2011-10-07 | 2017-03-30 | Viviana Schindler | Shoe With Exchangeable Upper |
US20170245565A1 (en) * | 2016-02-25 | 2017-08-31 | Michael P. Gibbons | System and methods for garment accessorizing |
US20170340065A1 (en) * | 2016-05-10 | 2017-11-30 | Tammy Santana, Inc. | Crystal Hook |
US20180000198A1 (en) * | 2015-01-15 | 2018-01-04 | Karyn Chamberlain | Method of Decorating Shoes and Decorated Shoes |
US10619296B2 (en) | 2017-01-06 | 2020-04-14 | Under Armour, Inc. | Articles with embroidered sequins and methods of making |
US10842681B2 (en) * | 2015-11-30 | 2020-11-24 | Jerome S. Zacks | Compression garment |
US20210169162A1 (en) * | 2016-02-25 | 2021-06-10 | Michael P. Gibbons | System and methods for garment accessorizing |
US20220132994A1 (en) * | 2019-02-18 | 2022-05-05 | First West Gmbh | Shoe equipped with a shoelace |
US20220142794A1 (en) * | 2020-11-06 | 2022-05-12 | Ossur Iceland Ehf | Ventilated prosthetic socket and kit for making the same |
CN114834395A (en) * | 2022-04-26 | 2022-08-02 | 浙江万超电器有限公司 | No button intelligent key |
US11477990B2 (en) * | 2018-09-05 | 2022-10-25 | Tod Smith | Confectionery dispensing garment |
US11596205B2 (en) | 2015-10-19 | 2023-03-07 | Nike, Inc. | Tethered anchor point for footwear lace element |
USD986574S1 (en) * | 2022-02-08 | 2023-05-23 | Skechers U.S.A., Inc. Ii | Accessory for footwear |
US20230301394A1 (en) * | 2022-03-28 | 2023-09-28 | Nike, Inc. | Article of footwear with heel entry device |
US11896082B2 (en) | 2016-10-26 | 2024-02-13 | Nike, Inc. | Footwear heel spring device |
US11963581B2 (en) | 2019-02-13 | 2024-04-23 | Nike, Inc. | Footwear heel support device |
US12029665B2 (en) * | 2021-11-05 | 2024-07-09 | Ossur Iceland Ehf | Ventilated prosthetic socket and kit for making the same |
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US20170086529A1 (en) * | 2011-10-07 | 2017-03-30 | Viviana Schindler | Shoe With Exchangeable Upper |
US10561196B2 (en) * | 2011-10-07 | 2020-02-18 | Viviana Schindler | Shoe with exchangeable upper |
US10455897B2 (en) * | 2015-01-15 | 2019-10-29 | Karyn Chamberlain | Method of decorating shoes and decorated shoes |
US20180000198A1 (en) * | 2015-01-15 | 2018-01-04 | Karyn Chamberlain | Method of Decorating Shoes and Decorated Shoes |
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US20170245565A1 (en) * | 2016-02-25 | 2017-08-31 | Michael P. Gibbons | System and methods for garment accessorizing |
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US20170340065A1 (en) * | 2016-05-10 | 2017-11-30 | Tammy Santana, Inc. | Crystal Hook |
US11957210B2 (en) | 2016-10-26 | 2024-04-16 | Nike, Inc. | Footwear heel spring device |
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US10619296B2 (en) | 2017-01-06 | 2020-04-14 | Under Armour, Inc. | Articles with embroidered sequins and methods of making |
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US11477990B2 (en) * | 2018-09-05 | 2022-10-25 | Tod Smith | Confectionery dispensing garment |
US11963581B2 (en) | 2019-02-13 | 2024-04-23 | Nike, Inc. | Footwear heel support device |
US20220132994A1 (en) * | 2019-02-18 | 2022-05-05 | First West Gmbh | Shoe equipped with a shoelace |
US20220142794A1 (en) * | 2020-11-06 | 2022-05-12 | Ossur Iceland Ehf | Ventilated prosthetic socket and kit for making the same |
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USD986574S1 (en) * | 2022-02-08 | 2023-05-23 | Skechers U.S.A., Inc. Ii | Accessory for footwear |
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