The present invention relates to shoes, more specifically, to a method of manufacturing decorative shoe elements and show elements comprising same.
Women's shoes come in a variety of colors, styles and designs. Both top and bottom portions of the shoes can vary widely in both style and design. For example, top portions of the shoes can have open or closed toes, open or closed heel; can include straps, buttons, zippers; and can be made of a variety of different materials. Similarly, bottom portions of the shoes can vary to include flat soles, platforms, heels of different widths and heights, wedges and any other shape or form that is stable enough to walk on, a pair of shoes is a vital part of a woman's wardrobe, and can often be central to her outfit. Accordingly, there is always demand for interesting, unusual and attractive shoe designs. This is especially true for shoes with wedge bottoms which are not typically decorated by shoe designers.
In addition, scarcity of new available shoe designs has increased the production costs, which the manufacturers are passing on to consumers. As a result, the price for a pair of evening shoes, which already can make a dent in an average's woman's budget, continues to rise. Accordingly, there is a need for a novel shoe design, which would offer flexibility in creating a wide variety of models without substantially increasing production costs.
Furthermore, a multitude of already existing styles of women's shoes can make it very difficult for shoe designers to create new ideas that would attract customers, and a fierce industry competition requires that the designs and decorations be changed often. As a result, shoe designers often attach little importance to the durability of their creations, and an expensive pair of shoes can end up having a very short life-span. As a result, women are often forced to buy a new pair of shoes simply because the decorations on the existing pair have started to wear out or fall off.
A method of decorating a shoe element includes the steps of applying decorative elements to a substrate. The substrate is cut to correspond to the shape of the shoe element, and openings are cut in a protective cover to expose the substrate. The protective cover and the substrate are aligned. Included with aligning the protective cover and the substrate is also aligning the openings in the protective cover with the decorative elements. The substrate is coupled to the protective cover to form a one piece, and the one piece is coupled to the shoe element. Preferably, the decorative elements are raised elements on the substrate.
Clarifying the steps further, glitter ink may be applied to areas of the substrate adjacent to the decorative elements. The decorative elements may be applied to the substrate using a heat transfer process, including a clamshell heat transfer process. The decorative elements may also be applied to the substrate using a drop-off process. Cutting the substrate to correspond to the shoe element can be accomplished using die cutting. The protective cover may be a coated aluminum sheet or similar material, in which case the protective cover is preferably cut using laser cutting.
The method may also include affixing the substrate to the protective cover using an adhesive. Adhesive may also be used to apply the one piece to the shoe element. In one embodiment the openings in the protective cover are aligned with glitter ink on the substrate adjacent the decorative elements. Preferably, the decorative elements can be a variety of materials, including crystals, rhinestones, gems, nail heads, grommets, metal findings, metal eyelets, and plastic findings. Likewise, the substrate can be a variety of materials, including fabric, leather, plastic, wood and metal.
The method results in a novel decoration for a shoe element. The decoration includes a substantially flat substrate shaped to conform to the shoe element, with the substrate containing decorative elements. The substrate also includes a border around the decorative elements, and a protective cover is adhered to the substrate to form a one piece, the protective cover including openings and shaped to conform to the shoe element. The openings are aligned with the border and are adjacent each of the decorative elements, which aligns the openings with the decorative elements.
In one preferred embodiment, the border is made of glitter ink or includes glitter ink. The protective cover may be made of a coated aluminum sheet. The protective cover may also be adhered to the substrate using an adhesive. A variety of decorative elements may be used. Examples of decorative element materials include crystals, rhinestones, gems, nail heads, grommets, metal findings, metal eyelets and plastic findings among others. Also, a variety of substrate materials may be used, including fabric, leather, plastic, wood, and metal among others.
The accompanying drawings, together with the specification, illustrate example embodiments of the present invention. These drawings, together with the description, serve to better explain aspects and principles of the present invention.
Aspects of embodiments of the present invention are directed toward a method of decorating shoe elements, which provides for a novel and attractive shoe design, affords flexibility in creating a wide variety of models, and significantly improves the durability of the decorated portions of the shoes.
As shown in
The substrate 101 illustrated in
However, the substrate 101 is not limited to a canvas material and may include any suitable material that is sturdy and can easily absorb adhesives. Alternatively, the substrate 101 can be a non-absorbing material that has been artificially made capable of absorbing dyes and/or adhesives through one or more suitable processes. For example, a non-absorbing material such as foil may be subjected to an appropriate surface treatment that will enable the foil material to absorb adhesive compounds. In some embodiments, the substrate 101 can be made of leather or a material similar to leather (e.g., faux leather) and having any desirable pattern including, but not limited to, a snake skin pattern. Furthermore, the substrate 101 may be etched, stitched, and/or embroidered.
The method of manufacturing the decorative cuff 100 can further include applying a decorative painting 103 to the substrate 101 (step 202 in
The decorative painting 103 may be made using glitter paint, which may further enhance the visual appeal of the decorative cuff 100. Glitter paint can be of any color, which can be the same as or different from the color of the substrate 101 and/or the protective cover 102. In some embodiments, glitter paint can be omitted.
The term “glitter paint” is not limited to paint and may include any suitable type of adhesive glitter-containing material.
When the decorative painting 103 is made using glitter paint, the glitter paint can be applied using one or more suitable methods known to those of ordinary skill in the art. For example, glitter paint may be applied manually or using any suitable mechanized process. When a mechanized process is used, the desired design for the decorative painting 103 can be first created in a CAD Drawing from a designated software program, for example, Adobe Illustrator, and the parameters can be then input into a machine applying the decorative painting to the substrate. In some embodiments, glitter paint can be applied to the substrate 101 by a so-called “drop-off” process, during which glitter paint is applied to a substrate in a predetermined pattern and is omitted in places where other elements may be attached to the substrate later, thus leaving portions of the substrate not covered by the glitter paint. However, embodiments of the present invention are not limited thereto, and any suitable method of application of glitter paint may be used. The pattern of glitter paint may correspond in shape to the decorative painting 103.
Referring to
In some embodiments, ornaments 104 may be further applied to the substrate 101 (step 203 in
As illustrated in
The ornaments 104 may be applied directly to the substrate 101 and may be coupled to the substrate 101. Any suitable method of application of the ornaments 104 to the substrate 101 may be used. For example, the ornaments 104 may be coupled to the substrate 101 using a heat transfer process, via an adhesive, or the ornaments may be sewn onto the substrate or set or pressed into the substrate using equipment such as grommets, eyelets, or studs. The ornaments 104 can be applied manually or using any suitable equipment or machinery.
In some embodiments, the ornaments 104 can be applied to the substrate 101 using a heat transfer process. For example, the ornaments 104 may be positioned (or set) on a sheet of heat transfer paper, and may be applied to the substrate using, for example, a heat transfer press. Here, any suitable commercially available heat transfer paper may be used. The term “heat transfer paper” may include any suitable material that enables the transfer of an appliqué to a substrate using heat. For example, the heat transfer paper may include a heat activated adhesive made from natural rubber, synthetic or hybrid blends, based on styrene acrylic, polyurethane, vinyl acetate and/or natural emulsions. As illustrated in
After the ornaments 104 have been arranged on a heat transfer paper, the ornaments may be transferred to the substrate using a heat transfer press. In some embodiments, a clamshell kind of heat transfer press 200 can be used (see
Alternatively, the ornaments 104 can be applied manually, for example, via an adhesive, or by sowing the ornaments 104 to the substrate 101. However, these methods, in addition to being time-consuming, may also be less effective. In contrast, a heat transfer process is faster and allows for improved adhesion of the ornaments. Furthermore, embodiments of the present invention are not expressly limited to using a heat transfer process, and may include any suitable process for effectively and efficiently adhering decorations to a substrate.
In some embodiments, the ornaments 104 are applied directly to the surface of the substrate 101. When the ornaments 104 are applied directly to the surface of the substrate 101, the ornaments can be easily and firmly fixed to the substrate. For example, when the substrate is made of a canvas material, the substrate can easily absorb an adhesive and may allow for the ornaments to be firmly fixed to the substrate. In addition, the ornaments can be easily sewn to a canvas substrate or set or pressed into the substrate using equipment such as grommets3 eyelets, or studs. In contrast, compounds used to create the decorative painting 103 such as, for example, glitter paint, are generally not absorbing. As a result, when the ornaments are applied to the decorative painting 103 using an adhesive, the surface of the decorative painting 103 would not absorb the adhesive to the same degree as a canvas material would, and will prevent the ornaments from being firmly fixed.
Accordingly, when the decorative cuff 100 includes the ornaments 104, the decorative painting 103 can further include apertures 103a, corresponding to the position of the ornaments 104. The apertures 103a may correspond to the regions inside the decorative painting 103, where the decorative painting 103 is not applied to the substrate 101. For example, if the decorative painting 103 is made to correspond to a zebra pattern (e.g., by applying stripes of black glitter paint to a light-colored canvas substrate), the regions of the decorative painting 103 (i.e., stripes of black glitter paint) may further include apertures 103a, where the glitter paint is not applied to the substrate. As a result, when the ornaments 104 are positioned inside the apertures 103a, the ornaments 104 may be coupled directly to the surface of the substrate 101. This allows for the ornaments 104 to be firmly fixed to the substrate 101, and prevents or substantially reduces the possibility of the ornaments 104 falling off the decorative cuff 100. As a result, the “life-span” of the shoes using the decorative cuff 100 can be increased.
Next, the adorned substrate 101 can be cut to fit the shape of a shoe element to which the decorative cuff would later be applied (step 204 in
The decorative cuff 100 may further include a protective cover 102. The protective cover 102 may be cut to a desired shape and may be positioned on and adhered to the substrate 101 (steps 205 and 206 in
In some embodiments, the protective cover 102 may include openings 102a, as illustrated in
The protective cover 102, including the openings 102a, may be cut using any suitable process known to those of ordinary skill in the art, including, but not limited to, laser cutting, water jet cutting, and/or plasma cutting. For example, a CAD Drawing from a designated software program may be used to input the parameters for cutting the protective cover 102 into a machine performing one or more of the above-referenced processes. In some embodiments, the machine may use a DXF type file, but is not limited thereto.
A thickness of the protective cover 102 may less than or equal to about 0.025 inch, for example, from about 0.025 to about 0.250 inch. For example, the thickness of the protective cover 102 may be the same or substantially the same as the thickness of the decorative elements on the substrate 101. Accordingly, when the substrate 101 is overlaid with the protective cover 102 as illustrated in
When the protective cover 102 is a metal or a metal alloy sheet, an outer surface of the protective cover 102 can be subjected to one or more processes designed to improve its durability. For example, the protective cover 102 can be plated with one or more of nickel, silver, brass, and gold using one or more plating processes commonly known to those of skill in the art. Alternatively, the protective cover 102 can be anodized using one or more anodizing processes commonly known to those of skill in the art. When the protective cover 102 is made of aluminum or aluminum alloy, the protective cover 102 can be both plated and anodized. As a result, the protective cover 102 will have improved scratch and corrosion resistance, and will greatly increase the durability of the bottom portion of the shoe that is usually vulnerable to wear and tear.
In addition to increasing the durability of the protective cover 102, one or more of the above-described processes can be used to enhance the aesthetic appeal of the protective cover. For example, the protective cover 102 can be plated with a coat of gold or silver-colored metal, though the color of the metal used for plating is not limited thereto. In embodiments where the protective cover 102 is made of aluminum or aluminum alloy, one or more colors can be applied to the protective cover 102 during the anodizing process. Alternatively, color sublimation can be used to blend two or more colors on the surface of the protective cover 102. Color sublimation can be done by, for example, inkjet sublimation or laser sublimation, but is not limited thereto. In embodiments where the protective cover 102 is made of a ferrous metal or metal alloy, physical vapor deposition process (PVD) can be used in lieu of plating. In some embodiments, the protective cover 102 can include dyed or tinted metal. Each of the above-described processes should be apparent to those of ordinary skill in the art, and detailed descriptions thereof will not be provided. In addition, these processes are provided as examples and are not intended for purposes of limitation. Accordingly, the protective cover 102 can be subjected to any suitable finishing process commonly used in metalworking.
In some embodiments, the protective cover 102 may include one or more tabs 1 extending from the cover, as illustrated in
The protective cover 102 may be applied to the substrate 101 using any suitable process including, but not limiting to, using an adhesive. During the application, the protective cover 102 may be positioned over the substrate 101, with an adhesive layer therebetween, such that the openings 102a of the protective cover 102 are aligned with the regions of the substrate 101 to which the decorative painting 103 and/or the ornaments 104 have been applied. In other words, if the substrate includes any decorative elements, the protective cover 102 may be adhered directly to the portions of the substrate 101 not covered by the decorative elements. For example, if the substrate 101 is a canvas substrate, the protective cover 102 can be adhered directly to the canvas surface. As a result, the adhesive may be properly absorbed by the canvas, and the protective cover 102 may be firmly fixed to the substrate 101.
Any suitable adhesive be used to couple the protective cover 102 to the substrate 101. In some embodiments, E-6000® (commercially available at most art stores) can be used, but the adhesive is not limited thereto, and may include any suitable adhesive including epoxy adhesives such as epoxy resins, heat activated adhesives made from natural rubber, synthetic or hybrid blends, based on styrene acrylic, polyurethane, vinyl acetate and/or natural emulsions, or any combinations thereof. A thickness of the adhesive layer can be from about 1 to about 10 mm, but is not limited thereto, so long as the adhesive layer can provide sufficient bonding. In some embodiments, the adhesive layer is applied to the substrate 101, but may alternatively be applied to an inner surface of the protective cover 102. When the adhesive is applied to the substrate, it may be applied only to the portions of the substrate not covered by the decorative painting 103 and/or the ornaments 104.
The substrate 101 and the protective cover 102 may be pressed together, with the adhesive layer therebetween, for several minutes or until the materials are properly bonded to each other. In some embodiments, the adhesive can be cured for about two minutes before the substrate 101 and the protective cover 102 are joined together. After the substrate 101 and the protective cover 102 are joined together, the adhesive can also be further cured using any suitable curing process known to those of ordinary skill in the art.
To further improve bonding strength between the substrate 101 and the protective cover 102, the inner surface of the protective cover 102 can be sanded, before it is coupled to the substrate 101. In some embodiments, sand paper having medium to medium/high grit (for example, 60 or 80 grit) may be used, but is not limited thereto. When the inner surface of the protective cover 102 is sanded, the protective cover 102 can better absorb the adhesive, and thus may be more firmly fixed to the substrate 101.
After the protective cover 102 has been coupled to the substrate 101, the resulting decorative cuff 100 is bent to correspond to the shape of the shoe element (step 208 in
In order to bend the decorative cuff 100, it may be first passed through a slip roller or any other bending and/or forming equipment 300, as illustrated in
In some embodiments, before the decorative cuff 100 is bent and attached to a shoe element, a padding 105 may adhered to the bottom surface of the substrate 101, as illustrated in
After the completed decorative cuff 100 has been applied to the shoe element, the top portion of the shoe may be completed by the manufacturer in accordance with the desired design. As a result, a wide variety of shoe models can be manufactured without a substantial increase in production costs of each model.
While the present invention has been described in connection with certain example embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the present disclosure.
This application claims priority in PCT application number PCT/US2016/013728, filed 15 Jan. 2016, which claims the benefit of the filing date of provisional application No. 62/104,050, filed 15 Jan. 2015.
Filing Document | Filing Date | Country | Kind |
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PCT/US2016/013728 | 1/15/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2016/115540 | 7/21/2016 | WO | A |
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Number | Date | Country | |
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