US20170325989A1 - Shoe with Custom Molded Foot Plate and Method of Making - Google Patents
Shoe with Custom Molded Foot Plate and Method of Making Download PDFInfo
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- US20170325989A1 US20170325989A1 US15/607,401 US201715607401A US2017325989A1 US 20170325989 A1 US20170325989 A1 US 20170325989A1 US 201715607401 A US201715607401 A US 201715607401A US 2017325989 A1 US2017325989 A1 US 2017325989A1
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- Prior art keywords
- custom
- foot
- shoe
- foot plate
- cast
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F5/00—Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
- A61F5/01—Orthopaedic devices, e.g. splints, casts or braces
- A61F5/14—Special medical insertions for shoes for flat-feet, club-feet or the like
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B17/00—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined
- A43B17/14—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined made of sponge, rubber, or plastic materials
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B7/00—Footwear with health or hygienic arrangements
- A43B7/14—Footwear with health or hygienic arrangements with foot-supporting parts
- A43B7/28—Adapting the inner sole or the side of the upper of the shoe to the sole of the foot
Definitions
- custom foot orthotics There are two types of custom-made foot orthotics in existence, a “custom functional foot orthotic” and a “custom accommodative foot orthotic.”
- a “custom functional foot orthotic” can be described as a shoe insert that is custom designed to realign an individual's foot, so that the foot functions in a more optimal position during weight bearing activities.
- a “custom accommodative foot orthotic” is a custom made shoe insert that relieves pressure by padding a painful or injured area(s) on the bottom of the foot (e.g. bony prominences and their side effects). When necessary, properties from both types of orthotics can be combined to produce optimal results and address all problematic areas.
- Custom foot orthotic manufacturers have attempted to develop several methods to resolve these problems.
- custom dress orthotics are manufactured so that they best function in shoes with a predetermined heel height. As the heel height of a shoe increases, the actual foot arch height is also increased. Consequently, a custom dress orthotic that is manufactured for a shoe of a low heel height will result in a custom foot orthotic with a low arch height. If this device is then transferred to and used in a shoe of a higher heel height, the arch area of the custom foot orthotic will not adequately support the newly heightened position of the foot arch. On the contrary, if a custom foot orthotic was manufactured for use in a shoe with a high heel height and if it is transferred to a low arch shoe, the arch height of the orthotic would be too high for the newly positioned arch height of the foot.
- a functional foot orthotic manufactured for this type of shoe often has to be modified so that the length, width and height of the device is equal to that of the non-functional, thick insole that came with the shoe.
- This compromise can result in a custom functional foot orthotic that does not function optimally.
- the shoes themselves are often bulky in the sole region and not aesthetically appealing. Dress type shoes are generally not made by these companies for this reason.
- a shoe basically consists of an upper, an insole, and an outsole.
- An upper is the portion of a shoe that covers the foot.
- An insole consists of a layer of material that sits inside the shoe and creates a layer between the sole and the wearer's foot. If removable, this is the portion of the shoe that is replaced by the custom functional foot orthotic.
- the outsole is the exposed portion of the sole that is in contact with the ground.
- a custom functional foot orthotic that is placed over, or replaces the insole of a non-custom made shoe often results in resistance to using the device because of a variety of reasons that include but are not limited to: 1. taking up to much room in a shoe; 2. causing shoe deformation; 3. Generally requiring the use of closed shoes; 4. sliding of the “custom dress orthotics” within the shoe; 4. Not functioning optimally when switched to a shoe of a different heel height; 5. Pre-made, Naot type shoes being to bulky and not aesthetically appealing for dress; 6. Having to compromise function of the orthotic so that it can fit in a specific shoe.
- the present inventions which includes the presented device (the shoe), as well as the method for producing the device, addresses and resolves all of the above issues, regarding the resistance to using custom functional foot orthotics, by producing an entire “custom functional shoe”.
- the key factor that distinguishes this shoe from a conventional shoe is a newly invented custom molded foot plate (“the custom foot plate”).
- the “custom foot plate” is a solid unit that consists of two components, a custom functional foot orthotic and a “forefoot extension”.
- the “custom foot plate” is a device that extends the full length of the shoe.
- This invention provides a full length platform to which the basic components of the conventional shoe can be attached, those being the upper, insole and outsole.
- the “custom foot plate” is the insole and is positioned above the out sole portion of the shoe.
- custom functional shoe which contains the “custom foot plate”
- custom functional foot orthotic is no longer placed in the shoe.
- the custom functional orthotic is now incorporated into the shoe. This eliminates the need to place any space occupying object within the shoe. As a result, shoe deformation that occurs with the use of custom functional foot orthotics will no longer occur. Because the custom functional foot orthotic is no longer a separate entity from the shoe, it can no longer cause discomfort from sliding around in the shoe. Regarding high heeled shoes, weight can now be adequately redistributed from the ball of the foot to the heel. As a result, the “custom functional shoe” alleviates pain in the ball of the foot that is commonly present in wearer's of conventional high heeled shoes.
- any type of shoe can be constructed with this method, including strapped shoes, open shoes, closed shoes etc.
- the functional foot plate is made specifically for the heel height of the shoe that it is incorporated in, the custom functional foot orthotic portion will always function optimally.
- the foot plate is thin, because it is press molded, thus shoes made with this device do not have to be bulky and therefore are more aesthetically appealing.
- the functional portion of the orthotic no longer has to be altered so that it fits into a shoe.
- the invention is a custom shoe sole having a press molded foot plate formed from a positive mold of a foot.
- the press molded foot plate extends substantially the length of said foot.
- the custom press molded foot plate is formed of a heat moldable material Suitable materials may include, but would not be limited to polypropylene, polyethylene, acrylic, graphite, fiberglass, carbon fiber material, a composite material Ethylene-vinyl acetate (EVA), polyethylene, polyethylene foams, closed cell cross-linked polyethylene foam, cork, or combinations thereof.
- Suitable materials may include, but would not be limited to polypropylene, polyethylene, acrylic, graphite, fiberglass, carbon fiber material, a composite material Ethylene-vinyl acetate (EVA), polyethylene, polyethylene foams, closed cell cross-linked polyethylene foam, cork, or combinations thereof.
- EVA Ethylene-vinyl acetate
- the custom press molded foot plate has a uniform thickness.
- the present invention also encompasses a shoe with a custom sole having:
- the shoe can have uppers positioned to avoid pressure on parts of a foot expressing podiatric pathology or anolomy.
- the shoe can have a heel is relatively flat in relation to an outer sole of said shoe or a low to high heel up to about 4-5 inches.
- the shoe has uppers and outer soul attached to the molded foot plate.
- the press molded foot plate is, the inner sole of said shoe.
- the shoe may have a heel. If a heel is desired, it is also attached to the press molded foot plate.
- a desired shoe style and heel height are first selected. If using plaster of paris rolls, or fiberglass rolls as casting material, the foot is held at the same heel height as the selected shoe. This is accomplished with a block (heel riser), or any other appropriate device, which is placed under the heel region of the foot.
- the casting material is applied to the foot as a slipper type cast.
- the foot and leg are then placed into the same position they would be in as if statically standing in the selected shoe.
- the casting material is allowed to set while the foot and leg are held in the position that was described.
- the formed negative cast mold is then removed from the foot. Liquid molding material, such as plaster of paris is poured into the negative mold and allowed to set. This will form the positive mold. Once set, the negative cast mold is separated from the positive cast mold. Note that any of the modifications used in the art of foot orthotic manufacturing can be applied to biomechanically correct the negative or positive molds.
- a pre-formed fore foot extension casting apparatus or mold is then attached to the front of the positive mold or casting.
- This apparatus should resemble the pattern and size of the forefoot region of the sole of the selected shoe.
- the positive mold is then placed in the same position that the foot was held in during production of the negative cast before pouring the mold.
- the same heel riser is used to elevate the heel of the positive mold.
- the mold is poured and allowed to set while maintained in the described position.
- the “forefoot extension” elongates the orthotic portion of the foot plate so that it is the entire length of the shoe sole.
- the “forefoot extension” will allow for the forefoot, mainly the ball and toe portion of the foot, to rest on a flat surface when standing. Note that any functional or accommodative modifications can also be added to the “forefoot extension”.
- the positive mold with added “forefoot extension” is then placed in a vacuum press machine.
- a sheet of material, such as polypropylene is heated to the temperature which is recommended, by the supply company, for molding.
- the recommended degree of temperature is material specific and is common knowledge in the art of orthotic making.
- the heated sheet of material is then placed over the positive mold and vacuum pressed. When set, the newly formed ‘custom foot plate” (pressed polypropylene in this example) is separated from the positive casting.
- the excess material is cut from the “custom foot plates’” edges.
- a grinding wheel is then used to form the “custom foot plate” into the desired shape.
- a pre-made template which resembles the shape of a tracing of the sole of the selected shoe, can be temporarily adhered to the foot plate and allow for rapid grinding of the “custom foot plate” into the desired shape.
- the described template would have to be constructed of a material that does not grind as easily as the material that the foot plate is made of (e.g. metal sheet).
- Pre-fabricated or customized uppers, insoles, soles, and heels will be attached to the “custom foot plate”.
- the “custom foot plate” is incorporated into the shoe as an inner sole. It may be held between the an upper cushioning material and the sole portion of the shoe.
- the thin layer of cushioning that overlies the custom molded foot plate is preferably non-slip, is attached to the top part (part that sits against the plantar aspect of the foot) of the foot plate.
- the uppers (any type . . . straps, enclosed etc.) are adhered to the “custom foot plate”. Note that the placement of the uppers can be modified so that they do not rest against painful areas, e.g. straps can be placed to avoid pushing on a bunion.
- the desired tightness of the uppers can be pre-determined by trial measurements made prior to shoe construction. This can be accomplished placing a template that resembles the sole of the selected shoe, against the foot. Upper sole placement and taughtness can be pre-determined in this way.
- the heel is then attached to the “custom foot plate”.
- the outsole material is then adhered to the under surface (the part that faces the ground) of the “custom foot plate”, and if desired, to the heel as well.
- the final product is then completed.
- Any podiatric pathologies or anomalies which may be treated or ameliorated with custom functional or accommodating foot orthotics may be incorporated into the custom molded foot plate of the present invention.
- FIG. 1 is side cut away of a foot in a mold.
- FIG. 2 is a side cut away of the mold after a foot is removed.
- FIG. 3 is side cut away of the mold removed from a casting.
- FIG. 4 is a side cut away of the casing removed from the mold.
- FIG. 5 is side cut away of a foot in a mold.
- FIG. 6 is a side cut away of the mold after a foot is removed.
- FIG. 7 is side cut away of a foot in a mold.
- FIG. 8 is a side cut away of the mold after a foot is removed.
- FIG. 9 is a side cut away of a casting positioned on a vacuum mold.
- FIG. 10 is a side cut away of vacuum mold with shoe base plate material on a casting.
- FIG. 11 is a side cut away of shoe base plate material formed around a casting.
- FIG. 12 is a side cut away of shoe base plate material formed around a casting that has been trimmed.
- FIG. 13 is a side cut away of the shoe base plate material with shoe uppers in place.
- FIG. 14 is a side cut away of a low heel shoe having base plate material with shoe uppers in place.
- FIG. 15 is a side cut away of a high heel shoe having base plate material with straps in place.
- FIG. 16 is a top view of the molded foot plate having regions of different densities.
- FIG. 17 is a top is a top view of the molded foot plate having regions of different densities.
- FIG. 18 is a side cut away of a foot having a bony prominence being cast.
- FIG. 19 is a side cut away of the casting with fore foot extension mold positioned by the fore foot.
- the present invention relates to the formation of a custom footplate and subsequent incorporation of the custom footplate into the fabrication of a shoe.
- a casting mold 1 is filled with casting material 2 that will form an impression when a foot 3 is placed therein.
- foot cast cavity 4 in the shape of foot 3 is formed.
- a casting material 5 is placed into cavity 4 to form a positive mold 6 .
- a casting with a low heel is formed, as shown in FIG. 5 , by placing a low heel riser 7 in casting mold 1 before foot 3 is inserted therein.
- Cavity 8 is for casting a positive mold to be used in a low heel shoe.
- a low heel shoe has a height of about 11 ⁇ 2 to 2 inches and lower.
- a casting with a high heel is formed, as shown in FIG. 7 , by placing a high heel riser 9 in casting mold 1 before foot 3 is inserted therein.
- Cavity 10 is for casting a positive mold to be used in a high heel shoe.
- a high heel shoe has a height of about 11 ⁇ 2 to 2 inches and higher.
- Negative castings as are commonly known are used to form positive molds used in fabricating the custom molded foot plate of the present invention.
- positive mold 6 is placed on a vacuum forming mold base 11 .
- Moldable footplate material 12 typically provided as a planer sheet, is placed over positive mold 6 .
- Positive mold 6 is then covered with vacuum mold head 13 .
- Material 12 is press molded to form unfinished foot plate 14 corresponding in shape to positive mold 6 .
- the process of press molding is carried out by those procedures as are commonly known in the art.
- Vacuum mold head 13 is removed and the resultant unfinished foot plate 14 formed from the press molding of material 12 is removed.
- Unfinished foot plate 14 is then trimmed on all sides to form custom molded foot plate 15 .
- Custom molded foot plate 15 is of size and shape, after trimming, to be incorporated into the fabrication of a shoe.
- custom molded foot plate 15 is the inner sole of the shoe.
- Shoe uppers, outer sole 40 , and any desired heel are constructed and arranged such that they attach directly to custom molded foot plate 15 by any acceptable means.
- Attachment of uppers 16 and outer sole 40 to custom molded foot plate 15 may include but would not be limited to, adhesive, sewing or stitching and any other means as commonly known which would securely attach uppers and outer sole 40 to custom molded foot plate 15 .
- each shoe 20 , 21 , and 22 has a custom molded foot plate 15 fabricated as described herein.
- moldable footplate material 12 is positioned on positive mold 6 . Moldable footplate material 12 is heated if needed. Positive mold 6 is positioned between a vacuum forming mold base 11 and a vacuum mold head 13 . Vacuum forming mold base 11 and a vacuum mold head 13 are brought together to form unfinished foot plate 14 that is produced by press molding as is commonly known.
- the present invention uses a press molding process to form custom molded foot plate 15 , as an advantageous technique to use in the formation of custom molded foot plate 15 .
- Press molding unlike previous techniques such as, but not limited to injection molding, provides the advantage that press molding is simpler, less expensive, and allows the sole thickness and uniformity may be more tightly controlled. Press molded articles typically maintain a uniform thickness relative to the thickness of the substrate subjected to the press molding process. The control of thickness and uniformity is desirable when forming custom molded foot plate 15 such that custom molded foot plate 15 does not become prohibitively bulky or heavy.
- the custom molded foot plate 15 of the present invention may be formed of any suitable material.
- Suitable materials for standard shoes may include but would not be limited to, polypropylene, polyethylene, acrylic, graphite, fiberglass, carbon fiber material, a composite material, or combinations thereof.
- Suitable materials are any materials that are able to be used in the press molding process. Said materials should be thin, durable, stiff, and heat moldable. In a preferred embodiment, they would be covered with a thin layer of cushioning, on either or both sides, such as foam and the like as is commonly done in the manufacture of shoes.
- custom molded foot plate 15 may be made of a material providing a greater cushioning to a user.
- materials suitable for a custom molded foot plate in an athletic shoe would include, but would not be limited to, polypropylene, polyethylene, acrylic, graphite, fiberglass, carbon fiber material, a composite material, Ethylene-vinyl acetate (EVA), NickelplastTM (a combination of ethylene vinyl acetate and polyethylene, available from Alimed, Inc., Dedham, Mass.), polyethylene foams, PLASTAZOTE® (Closed cell cross-linked polyethylene foam, available from Zotefoams, PLC, Surrey, England), cork, or combinations thereof.
- EVA Ethylene-vinyl acetate
- NickelplastTM a combination of ethylene vinyl acetate and polyethylene, available from Alimed, Inc., Dedham, Mass.
- PLASTAZOTE® Click-linked polyethylene foam, available from Zotefoams, PLC, Surrey, England
- cork or combinations
- a standard shoe custom molded foot plate 15 may be formed of a combination of polypropylene, polyethylene, and acrylic.
- An example of a custom molded foot plate 15 for an athletic shoe may include a combination of EVA and polyethylene foams.
- any combination of any suitable moldable materials may be used to produce custom molded foot plate 15 of the present invention. It is known that many of the suitable materials for forming custom molded foot plate 15 of the present invention have different densities.
- a custom molded foot plate 15 may be constructed and arranged such that custom molded foot plate 15 prevents or inhibits undesirable motions. For example, as shown in FIG. 16 , if a person has a flat foot, a denser material 31 can be placed on the medial portion of custom molded foot plate 15 , and a less dense material 30 can be placed on the lateral portion of custom molded foot plate 15 . Placement of materials having different densities in custom molded foot plate 15 would prevent the foot from flattening in an undesired manner.
- denser material 33 may be placed by the posterior lateral heel region, and less dense material 32 is placed along the remaining portion of custom molded foot plate 15 , as shown in FIG. 17 .
- the placement of more dense and less dense materials is incorporated into custom molded foot plate 15 during the press molding process. This would encompass using two or more materials covering positive mold 6 prior to press molding custom molded foot plate 15 .
- the general concept of constructing and arranging a sole with different densities is already used in various running shoes to prevent foot pronation.
- the shoes with soles of varying densities to control foot pronation are called motion controlled shoes.
- the custom molded foot plate 15 of the present invention has further improved on motion controlled shoes by providing a custom molded foot plate 15 that can be customized in any manner used to customize foot orthotics.
- the custom molded foot plate 15 of the present invention is used to treat any other foot pathology that would benefit from the use of a prescription foot orthotic.
- a negative mold is formed in any manner as is known.
- a cavity 4 is formed by stepping into casting material 2 , as depicted in FIGS. 1-2 . The foot is pushed into moldable casting material and leaves an indentation.
- a negative mold may be formed by plaster or fiberglass casting in which the foot is wrapped in a plaster or fiberglass bandage. The bandage is allowed to dry and harden forming a negative cast. Liquid plaster or any acceptable casting media, is poured into the negative cast to form a positive cast or positive mold. A custom molded foot plate 15 is then formed from this positive cast.
- Laser imaging may also be used to create custom foot molds for use in fabricating articles of the present invention.
- TracerCad® The Ohio Willow Wood Co., Mt Sterling, Ohio
- Foot Fax-SL® Amfit, Inc., Vancouver, Wash.
- the foot is scanned, the scan is transmitted to a milling machine and the milling machine cuts a positive mold from a solid.
- the solid may be wood, plastic, or any material that may be milled by milling machines as are commonly known.
- Positive mold 6 may be cast in a manner for producing a custom molded foot plate 15 that will be used in a shoe without an elevated heel.
- a negative mold 8 may be cast using a low heel riser 7
- negative mold 10 may be cast using a high heel riser 9 .
- negative mold is cavity 8 or 10 respectively is cast such that the arch height of custom molded foot plate 15 is correctly positioned in relation to the desired heel height. It is important to cast negative mold 8 or 10 at the heel height that will ultimately be used in the finished shoe because the arch height of a foot is increased as the heel height increases.
- Positive mold 6 has a plate 37 , which will impart fore foot extension 28 on the custom molded foot plate 15 after press molding.
- the fore foot extension 28 is formed as described in the summary of the invention and provides a flat surface for the foot to rest upon and completes of the full length and shape of the custom molded foot plate 15 .
- the fore foot extension 28 is part of a unitary structure that is integral with the custom molded foot plate 15 of the present invention.
- a mold will most closely conform to the sole of the foot when the mold is taken at the heel height that will be used.
- a mold that is taken of a foot without a heel will create a cast that has an inaccurate arch height when incorporated into a shoe with a heel.
- a mold that is cast from a foot at a heel height higher than will be used will create an arch height that is ineffectively high.
- the negative mold When negative mold (any of cavities 4 , 8 , or 10 ) is cast at the desired height of a finished shoe, the negative mold will be used to create custom molded foot plate 15 with a more secure and contoured fit.
- the custom molded foot plate 15 formed from a cast with a heel riser equal to that of a heel in which the custom molded foot plate 15 will be used forms an inner sole that more closely conforms, and preferably exactly conforms, to the shape of the foot that made the casting.
- a finished shoe has integral custom molded foot plate 15 with uppers 16 , 17 or 23 , heels 41 or 18 , and outer sole 40 that are directly attached to said custom molded foot plate 15 to form a custom shoe.
- the custom molded foot plate of the present invention is not placed on top of a shoe insole, the custom molded foot plate 15 is the entire inner sole of a shoe.
- the shoes of the present invention are custom made. They can be constructed and arranged to fit any foot type or deformity. For example, women with bunion deformities often have difficulty finding shoes that do not have a strap that sits over the bunion (a strap over a bunion may cause pain to the wearer). Strap 23 in shoes of the present invention can be positioned to avoid the bunion. Additionally, any other bony prominences in the foot can be accommodated in the custom molded foot plate 15 and in any other parts of the shoe in which accommodation would be beneficial to the wearer. Apertures. can be placed in custom molded foot plate 15 , as shown in FIG. 18 .
- a bony prominence 35 may be covered with a cover 36 that will impart an aperture into negative mold (any of cavities 4 , 8 , or 10 ) that will be accommodated in custom molded foot plate 15 .
- the cover may be any suitable cover and may include, but would not be limited to a bandage or additional casting material placed over bony prominence 35 .
- Custom molded foot plate 15 constructed and arranged to accommodate bony prominences will ultimately result in a custom molded foot plate and ultimately finished shoe which can offload painful bony prominences on the bottom of feet.
- the shoe and incorporated custom molded foot plate 15 will conform to any perturbance of the foot and would not be limited to accommodating bony prominences.
- a physical aperture may be formed on the custom molded foot plate 15 by capturing the prominence on either the positive mold 6 or negative mold. This can be done by forming either a prominence on the positive mold before molding or an indentation on the negative mold at the desired location.
- the shoes of the present invention can be made as wide or narrow as needed. This includes custom fit uppers 16 , 17 or 23 , which can be constructed as loose or tight as needed to accommodate the needs of the wearer.
- FIG. 15 With regard to high heeled shoes, as shown in FIG. 15 , since the custom molded foot plate 15 is custom cast and formed at a height equal to high heel 18 , a greater surface area of the sole of the foot will be in contact with custom molded foot plate 15 in comparison to conventional high heel shoes.
- the casting of the custom molded foot plate 15 at the height of the heels to be used forms a casting with the arch height being properly positioned for the specific heel height.
- FIG. 13 has interface 25 showing the sole and arch of the foot in continual and substantially or complete contact with custom molded foot plate 15 when used in flat shoe 20 .
- FIG. 14 has interface 26 showing the sole and arch of the foot in continual and substantially or complete contact with custom molded foot plate 15 when used in low heel 41 of low heel shoe 21 .
- Custom molded foot plate 15 used in high heeled shoes will distribute the gravitational force more evenly throughout the sole of the foot and the shoe resulting in a significantly decrease in the amount of pain and/or pressure that people experience in the ball of their foot while wearing high heeled shoes.
- FIG. 19 shows positive mold 6 with heel riser 9 .
- Fore foot extension mold 45 is filled with casting material 2 .
- Fore foot extension mold 45 has an inner cavity to receive casting material 2 and may be shaped to conform to the type of shoe desired e.g. square toe, pointed, rounded, etc.
- forefoot extension mold 45 is removed and forms plate 37 . Plate 37 will impart fore foot extension 28 on the custom molded foot plate 15 after press molding.
- fore foot extension 28 is unitary, contiguous and integral with molded foot plate 15 .
- FIG. 19 depicts use with heel riser 9 , it is contemplated that extension mold 45 may be used with any heel riser or without a heel riser.
- Fore foot extension mold 45 should be positioned and filled with casting material 2 while positive mold 6 is at the heel height desired in the completed shoe. Positive mold 6 should remain at the desired heel height of the finished shoe until casting material 2 inside fore foot extension mold 45 has hardened.
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Abstract
The present invention is a press molded custom shoe plate, a method of making said plate, and a method of making a shoe using said press molded plate wherein said press molded shoe plate is formed of a piece of press molded material that is incorporated and used as the inner sole of a shoe and where an outer sole and uppers are attached to the press molded custom shoe plate.
Description
- This application claims benefit of U.S. Provisional Patent Application 60/955,571, filed Aug. 13, 2007, the disclosure of which is incorporated herein by reference in its entirety.
- There are two types of custom-made foot orthotics in existence, a “custom functional foot orthotic” and a “custom accommodative foot orthotic.” A “custom functional foot orthotic” can be described as a shoe insert that is custom designed to realign an individual's foot, so that the foot functions in a more optimal position during weight bearing activities. A “custom accommodative foot orthotic” is a custom made shoe insert that relieves pressure by padding a painful or injured area(s) on the bottom of the foot (e.g. bony prominences and their side effects). When necessary, properties from both types of orthotics can be combined to produce optimal results and address all problematic areas.
- The scientific literature documents that a custom foot orthotic, when used with any type of shoe gear, at any heel height, can effectively alleviate foot, ankle, knee and even back pain. Despite their effectiveness, the desire to use such a device is often met with resistance. There are several reasons for this. First, functional orthotics take up a lot of room in the shoes that they are placed in. This often allows the device only to be worn with comfort in a wide, bulky type shoe, such as a sneaker. Second, if a bulky insert is placed in a narrow shoe, shoe deformation can result. This deformation can result in a poorly fitting shoe that may lead to further problems. Third, custom functional foot orthotics generally must be used in closed shoes. Closed shoes allow the orthotics to remain within the shoes and decrease mal positioning of the device. Currently existing orthotics do not work well with open shoes such as sandals or open back shoes.
- Custom foot orthotic manufacturers have attempted to develop several methods to resolve these problems. The first was the production of “custom dress orthotics”. These devices are thin, less supportive, often made only partial foot length and are, consequently, less effective than the custom functional foot orthotic. They merely act as arch supports when compared to the more bulky, but more effective, custom functional foot orthotic. Because these devices are manufactured partial foot length, they often move around within the shoe and are not held properly against the bottom of the foot. This leads to discomfort. More specifically, women commonly complain of pain in the balls of their feet when weight bearing in high heeled shoes. A dress orthotic cannot adequately alleviate this complaint because a downward sliding motion of the dress orthotic occurs. This sliding does not allow for the dress orthotic to re-distribute some of the body weight from the ball of the foot to the heel. Also of importance is that custom dress orthotics are manufactured so that they best function in shoes with a predetermined heel height. As the heel height of a shoe increases, the actual foot arch height is also increased. Consequently, a custom dress orthotic that is manufactured for a shoe of a low heel height will result in a custom foot orthotic with a low arch height. If this device is then transferred to and used in a shoe of a higher heel height, the arch area of the custom foot orthotic will not adequately support the newly heightened position of the foot arch. On the contrary, if a custom foot orthotic was manufactured for use in a shoe with a high heel height and if it is transferred to a low arch shoe, the arch height of the orthotic would be too high for the newly positioned arch height of the foot.
- Second, manufacturers have suggested that functional foot orthotics can be made to fit into specific brands of pre-made shoes that have thick, removable insoles. An example of these shoes would be the brand marketed under the name “Naot”. “Naot” produces various types of shoes including sandals, casual dress shoes, and sportswear shoes. Even though using this type of shoe does provide for a slightly greater variety of shoe selection, significant shortcomings are still noted. This type of shoe was not designed for use with a custom foot orthotic. They were designed to be used with a thick, cork, insole that the shoe is manufactured with. As a consequence, a functional foot orthotic manufactured for this type of shoe often has to be modified so that the length, width and height of the device is equal to that of the non-functional, thick insole that came with the shoe. This compromise can result in a custom functional foot orthotic that does not function optimally. Furthermore, since these are manufactured to accommodate the pre-made bulky insole, the shoes themselves are often bulky in the sole region and not aesthetically appealing. Dress type shoes are generally not made by these companies for this reason.
- In order to fully understand the present invention, the three basic components of a conventional shoe must first be described. A shoe basically consists of an upper, an insole, and an outsole. An upper is the portion of a shoe that covers the foot. An insole consists of a layer of material that sits inside the shoe and creates a layer between the sole and the wearer's foot. If removable, this is the portion of the shoe that is replaced by the custom functional foot orthotic. The outsole is the exposed portion of the sole that is in contact with the ground.
- As discussed in the background of the invention section, a custom functional foot orthotic that is placed over, or replaces the insole of a non-custom made shoe often results in resistance to using the device because of a variety of reasons that include but are not limited to: 1. taking up to much room in a shoe; 2. causing shoe deformation; 3. Generally requiring the use of closed shoes; 4. sliding of the “custom dress orthotics” within the shoe; 4. Not functioning optimally when switched to a shoe of a different heel height; 5. Pre-made, Naot type shoes being to bulky and not aesthetically appealing for dress; 6. Having to compromise function of the orthotic so that it can fit in a specific shoe.
- The present inventions, which includes the presented device (the shoe), as well as the method for producing the device, addresses and resolves all of the above issues, regarding the resistance to using custom functional foot orthotics, by producing an entire “custom functional shoe”. The key factor that distinguishes this shoe from a conventional shoe is a newly invented custom molded foot plate (“the custom foot plate”). The “custom foot plate” is a solid unit that consists of two components, a custom functional foot orthotic and a “forefoot extension”. In essence, the “custom foot plate” is a device that extends the full length of the shoe. This invention provides a full length platform to which the basic components of the conventional shoe can be attached, those being the upper, insole and outsole. The “custom foot plate” is the insole and is positioned above the out sole portion of the shoe.
- With the advent of the “custom functional shoe”, which contains the “custom foot plate”, a custom functional foot orthotic is no longer placed in the shoe. The custom functional orthotic is now incorporated into the shoe. This eliminates the need to place any space occupying object within the shoe. As a result, shoe deformation that occurs with the use of custom functional foot orthotics will no longer occur. Because the custom functional foot orthotic is no longer a separate entity from the shoe, it can no longer cause discomfort from sliding around in the shoe. Regarding high heeled shoes, weight can now be adequately redistributed from the ball of the foot to the heel. As a result, the “custom functional shoe” alleviates pain in the ball of the foot that is commonly present in wearer's of conventional high heeled shoes. Moreover, any type of shoe can be constructed with this method, including strapped shoes, open shoes, closed shoes etc. Because the functional foot plate is made specifically for the heel height of the shoe that it is incorporated in, the custom functional foot orthotic portion will always function optimally. The foot plate is thin, because it is press molded, thus shoes made with this device do not have to be bulky and therefore are more aesthetically appealing. The functional portion of the orthotic no longer has to be altered so that it fits into a shoe.
- In one embodiment the invention is a custom shoe sole having a press molded foot plate formed from a positive mold of a foot. The press molded foot plate extends substantially the length of said foot.
- Preferably, the custom press molded foot plate is formed of a heat moldable material Suitable materials may include, but would not be limited to polypropylene, polyethylene, acrylic, graphite, fiberglass, carbon fiber material, a composite material Ethylene-vinyl acetate (EVA), polyethylene, polyethylene foams, closed cell cross-linked polyethylene foam, cork, or combinations thereof.
- In a preferred embodiment, the custom press molded foot plate has a uniform thickness.
- The present invention also encompasses a shoe with a custom sole having:
- a. a press molded foot plate;
b. uppers;
c. an outer soul; and
d. optionally, a heel. - The shoe of
claim 5 wherein said press molded foot plate is formed of a heat moldable material. - The shoe can have uppers positioned to avoid pressure on parts of a foot expressing podiatric pathology or anolomy.
- The shoe can have a heel is relatively flat in relation to an outer sole of said shoe or a low to high heel up to about 4-5 inches.
- The shoe has uppers and outer soul attached to the molded foot plate. The press molded foot plate is, the inner sole of said shoe.
- The shoe may have a heel. If a heel is desired, it is also attached to the press molded foot plate.
- Also contemplated is a method of making a shoe having the steps of:
- a. forming a negative cast of a foot;
b. casting a positive mold from said negative cast;
c. adding a fore foot extension forming structure to said positive mold;
d. placing said positive mold on a vacuum forming base plate;
e. covering said positive mold with a moldable material;
f. placing a vacuum mold head over said positive mold with said moldable material;
g. press molding said moldable material to form a custom foot plate;
h. removing said custom foot plate from upon said positive mold;
i. cutting said custom foot plate to a desired shape; and
j. attaching uppers and outer sole to said custom foot plate;
wherein said custom foot plate is the inner sole of said shoe. - In one embodiment the present invention may be described as follows:
- A desired shoe style and heel height are first selected. If using plaster of paris rolls, or fiberglass rolls as casting material, the foot is held at the same heel height as the selected shoe. This is accomplished with a block (heel riser), or any other appropriate device, which is placed under the heel region of the foot. The casting material is applied to the foot as a slipper type cast. The foot and leg are then placed into the same position they would be in as if statically standing in the selected shoe. The casting material is allowed to set while the foot and leg are held in the position that was described. The formed negative cast mold is then removed from the foot. Liquid molding material, such as plaster of paris is poured into the negative mold and allowed to set. This will form the positive mold. Once set, the negative cast mold is separated from the positive cast mold. Note that any of the modifications used in the art of foot orthotic manufacturing can be applied to biomechanically correct the negative or positive molds.
- A pre-formed fore foot extension casting apparatus or mold is then attached to the front of the positive mold or casting. Note that this apparatus should resemble the pattern and size of the forefoot region of the sole of the selected shoe. The positive mold is then placed in the same position that the foot was held in during production of the negative cast before pouring the mold. Hence, the same heel riser is used to elevate the heel of the positive mold. The mold is poured and allowed to set while maintained in the described position. This addition, the “forefoot extension”, elongates the orthotic portion of the foot plate so that it is the entire length of the shoe sole. Furthermore, the “forefoot extension” will allow for the forefoot, mainly the ball and toe portion of the foot, to rest on a flat surface when standing. Note that any functional or accommodative modifications can also be added to the “forefoot extension”.
- 3. Vacuum Pressing Positive Mold with Added Forefoot Extension to Manufacture the “Custom Foot Plate’:
- The positive mold with added “forefoot extension” is then placed in a vacuum press machine. A sheet of material, such as polypropylene is heated to the temperature which is recommended, by the supply company, for molding. The recommended degree of temperature is material specific and is common knowledge in the art of orthotic making. The heated sheet of material is then placed over the positive mold and vacuum pressed. When set, the newly formed ‘custom foot plate” (pressed polypropylene in this example) is separated from the positive casting.
- 4. Method of Trimming Excess Material from the “Custom Foot Plate” to Fit Selected Shoe:
- The excess material is cut from the “custom foot plates’” edges. A grinding wheel is then used to form the “custom foot plate” into the desired shape. Note that a pre-made template, which resembles the shape of a tracing of the sole of the selected shoe, can be temporarily adhered to the foot plate and allow for rapid grinding of the “custom foot plate” into the desired shape. Note that the described template would have to be constructed of a material that does not grind as easily as the material that the foot plate is made of (e.g. metal sheet).
- Pre-fabricated or customized uppers, insoles, soles, and heels will be attached to the “custom foot plate”. The “custom foot plate” is incorporated into the shoe as an inner sole. It may be held between the an upper cushioning material and the sole portion of the shoe. The thin layer of cushioning that overlies the custom molded foot plate is preferably non-slip, is attached to the top part (part that sits against the plantar aspect of the foot) of the foot plate. The uppers (any type . . . straps, enclosed etc.) are adhered to the “custom foot plate”. Note that the placement of the uppers can be modified so that they do not rest against painful areas, e.g. straps can be placed to avoid pushing on a bunion. Note that the desired tightness of the uppers can be pre-determined by trial measurements made prior to shoe construction. This can be accomplished placing a template that resembles the sole of the selected shoe, against the foot. Upper sole placement and taughtness can be pre-determined in this way. The heel is then attached to the “custom foot plate”. The outsole material is then adhered to the under surface (the part that faces the ground) of the “custom foot plate”, and if desired, to the heel as well. The final product is then completed.
- Any podiatric pathologies or anomalies which may be treated or ameliorated with custom functional or accommodating foot orthotics may be incorporated into the custom molded foot plate of the present invention.
-
FIG. 1 is side cut away of a foot in a mold. -
FIG. 2 is a side cut away of the mold after a foot is removed. -
FIG. 3 is side cut away of the mold removed from a casting. -
FIG. 4 is a side cut away of the casing removed from the mold. -
FIG. 5 is side cut away of a foot in a mold. -
FIG. 6 is a side cut away of the mold after a foot is removed. -
FIG. 7 is side cut away of a foot in a mold. -
FIG. 8 is a side cut away of the mold after a foot is removed. -
FIG. 9 is a side cut away of a casting positioned on a vacuum mold. -
FIG. 10 is a side cut away of vacuum mold with shoe base plate material on a casting. -
FIG. 11 is a side cut away of shoe base plate material formed around a casting. -
FIG. 12 is a side cut away of shoe base plate material formed around a casting that has been trimmed. -
FIG. 13 is a side cut away of the shoe base plate material with shoe uppers in place. -
FIG. 14 is a side cut away of a low heel shoe having base plate material with shoe uppers in place. -
FIG. 15 is a side cut away of a high heel shoe having base plate material with straps in place. -
FIG. 16 is a top view of the molded foot plate having regions of different densities. -
FIG. 17 is a top is a top view of the molded foot plate having regions of different densities. -
FIG. 18 is a side cut away of a foot having a bony prominence being cast. -
FIG. 19 is a side cut away of the casting with fore foot extension mold positioned by the fore foot. - The present invention relates to the formation of a custom footplate and subsequent incorporation of the custom footplate into the fabrication of a shoe.
- A casting
mold 1 is filled with castingmaterial 2 that will form an impression when afoot 3 is placed therein. Whenfoot 3 is removed, foot castcavity 4 in the shape offoot 3 is formed. - A casting
material 5 is placed intocavity 4 to form apositive mold 6. - A casting with a low heel is formed, as shown in
FIG. 5 , by placing alow heel riser 7 in castingmold 1 beforefoot 3 is inserted therein.Cavity 8 is for casting a positive mold to be used in a low heel shoe. Typically, a low heel shoe has a height of about 1½ to 2 inches and lower. - A casting with a high heel is formed, as shown in
FIG. 7 , by placing ahigh heel riser 9 in castingmold 1 beforefoot 3 is inserted therein.Cavity 10 is for casting a positive mold to be used in a high heel shoe. Typically, a high heel shoe has a height of about 1½ to 2 inches and higher. - Negative castings, as are commonly known are used to form positive molds used in fabricating the custom molded foot plate of the present invention.
- Although
positive mold 6 is referenced herein, it is contemplated that castings formed fromlow heel cavity 8 orhigh heel cavity 10 may be used similarly. - Referring to
FIGS. 9 and 10 ,positive mold 6 is placed on a vacuum formingmold base 11.Moldable footplate material 12, typically provided as a planer sheet, is placed overpositive mold 6.Positive mold 6 is then covered withvacuum mold head 13.Material 12 is press molded to formunfinished foot plate 14 corresponding in shape topositive mold 6. The process of press molding is carried out by those procedures as are commonly known in the art.Vacuum mold head 13 is removed and the resultantunfinished foot plate 14 formed from the press molding ofmaterial 12 is removed.Unfinished foot plate 14 is then trimmed on all sides to form custom moldedfoot plate 15. Custom moldedfoot plate 15 is of size and shape, after trimming, to be incorporated into the fabrication of a shoe. Unlike orthotics, which are placed in a shoe on top of an existing inner shoe sole, custom moldedfoot plate 15 is the inner sole of the shoe. Shoe uppers, outer sole 40, and any desired heel are constructed and arranged such that they attach directly to custom moldedfoot plate 15 by any acceptable means. Attachment ofuppers 16 and outer sole 40 to custom moldedfoot plate 15 may include but would not be limited to, adhesive, sewing or stitching and any other means as commonly known which would securely attach uppers and outer sole 40 to custom moldedfoot plate 15. As depicted inFIGS. 13, 14, and 15 , eachshoe foot plate 15 fabricated as described herein. -
Uppers 16 forflat shoe 20,uppers 17 for lowheel height shoe 21, oruppers 23 forhigh heel shoe 22, are attached to custom moldedfoot plate 15 to complete the shoe structure. Uppers may be attached to custom moldedfoot plate 15 of any shoe at any desired heel height. - As discussed above,
moldable footplate material 12 is positioned onpositive mold 6.Moldable footplate material 12 is heated if needed.Positive mold 6 is positioned between a vacuum formingmold base 11 and avacuum mold head 13. Vacuum formingmold base 11 and avacuum mold head 13 are brought together to formunfinished foot plate 14 that is produced by press molding as is commonly known. The present invention uses a press molding process to form custom moldedfoot plate 15, as an advantageous technique to use in the formation of custom moldedfoot plate 15. Press molding, unlike previous techniques such as, but not limited to injection molding, provides the advantage that press molding is simpler, less expensive, and allows the sole thickness and uniformity may be more tightly controlled. Press molded articles typically maintain a uniform thickness relative to the thickness of the substrate subjected to the press molding process. The control of thickness and uniformity is desirable when forming custom moldedfoot plate 15 such that custom moldedfoot plate 15 does not become prohibitively bulky or heavy. - The custom molded
foot plate 15 of the present invention may be formed of any suitable material. Suitable materials for standard shoes may include but would not be limited to, polypropylene, polyethylene, acrylic, graphite, fiberglass, carbon fiber material, a composite material, or combinations thereof. Suitable materials are any materials that are able to be used in the press molding process. Said materials should be thin, durable, stiff, and heat moldable. In a preferred embodiment, they would be covered with a thin layer of cushioning, on either or both sides, such as foam and the like as is commonly done in the manufacture of shoes. - For athletic shoes to be constructed, custom molded
foot plate 15 may be made of a material providing a greater cushioning to a user. Examples of materials suitable for a custom molded foot plate in an athletic shoe would include, but would not be limited to, polypropylene, polyethylene, acrylic, graphite, fiberglass, carbon fiber material, a composite material, Ethylene-vinyl acetate (EVA), Nickelplast™ (a combination of ethylene vinyl acetate and polyethylene, available from Alimed, Inc., Dedham, Mass.), polyethylene foams, PLASTAZOTE® (Closed cell cross-linked polyethylene foam, available from Zotefoams, PLC, Surrey, England), cork, or combinations thereof. - The different suitable materials for custom molded
foot plate 15 in both standard and athletic shoes, can be used by themselves or as a combination. For example, a standard shoe custom moldedfoot plate 15 may be formed of a combination of polypropylene, polyethylene, and acrylic. An example of a custom moldedfoot plate 15 for an athletic shoe may include a combination of EVA and polyethylene foams. These examples are for illustrative purposes only and not intended to limit the combinations of materials available to for the custom moldedfoot plate 15 of the present invention. - Alternatively, any combination of any suitable moldable materials may be used to produce custom molded
foot plate 15 of the present invention. It is known that many of the suitable materials for forming custom moldedfoot plate 15 of the present invention have different densities. A custom moldedfoot plate 15 may be constructed and arranged such that custom moldedfoot plate 15 prevents or inhibits undesirable motions. For example, as shown inFIG. 16 , if a person has a flat foot, adenser material 31 can be placed on the medial portion of custom moldedfoot plate 15, and a lessdense material 30 can be placed on the lateral portion of custom moldedfoot plate 15. Placement of materials having different densities in custom moldedfoot plate 15 would prevent the foot from flattening in an undesired manner. Additionally,denser material 33 may be placed by the posterior lateral heel region, and lessdense material 32 is placed along the remaining portion of custom moldedfoot plate 15, as shown inFIG. 17 . The placement of more dense and less dense materials is incorporated into custom moldedfoot plate 15 during the press molding process. This would encompass using two or more materials coveringpositive mold 6 prior to press molding custom moldedfoot plate 15. The general concept of constructing and arranging a sole with different densities is already used in various running shoes to prevent foot pronation. The shoes with soles of varying densities to control foot pronation are called motion controlled shoes. The custom moldedfoot plate 15 of the present invention has further improved on motion controlled shoes by providing a custom moldedfoot plate 15 that can be customized in any manner used to customize foot orthotics. The custom moldedfoot plate 15 of the present invention is used to treat any other foot pathology that would benefit from the use of a prescription foot orthotic. - In a preferred embodiment, a negative mold is formed in any manner as is known. In one manner of forming a negative mold, a
cavity 4 is formed by stepping into castingmaterial 2, as depicted inFIGS. 1-2 . The foot is pushed into moldable casting material and leaves an indentation. - A negative mold may be formed by plaster or fiberglass casting in which the foot is wrapped in a plaster or fiberglass bandage. The bandage is allowed to dry and harden forming a negative cast. Liquid plaster or any acceptable casting media, is poured into the negative cast to form a positive cast or positive mold. A custom molded
foot plate 15 is then formed from this positive cast. - Laser imaging, as is commonly know in the art, may also be used to create custom foot molds for use in fabricating articles of the present invention. TracerCad® (The Ohio Willow Wood Co., Mt Sterling, Ohio) and Foot Fax-SL® (Amfit, Inc., Vancouver, Wash.) are two examples of commercially available laser scanners that can scan the foot. The foot is scanned, the scan is transmitted to a milling machine and the milling machine cuts a positive mold from a solid. The solid may be wood, plastic, or any material that may be milled by milling machines as are commonly known.
-
Positive mold 6 may be cast in a manner for producing a custom moldedfoot plate 15 that will be used in a shoe without an elevated heel. If desired, anegative mold 8 may be cast using alow heel riser 7, ornegative mold 10 may be cast using ahigh heel riser 9. In using either alow heel riser 7, or ahigh heel riser 9, negative mold iscavity foot plate 15 is correctly positioned in relation to the desired heel height. It is important to castnegative mold Positive mold 6 has aplate 37, which will impartfore foot extension 28 on the custom moldedfoot plate 15 after press molding. - The
fore foot extension 28 is formed as described in the summary of the invention and provides a flat surface for the foot to rest upon and completes of the full length and shape of the custom moldedfoot plate 15. Thefore foot extension 28 is part of a unitary structure that is integral with the custom moldedfoot plate 15 of the present invention. - A mold will most closely conform to the sole of the foot when the mold is taken at the heel height that will be used. A mold that is taken of a foot without a heel will create a cast that has an inaccurate arch height when incorporated into a shoe with a heel. Conversely, a mold that is cast from a foot at a heel height higher than will be used will create an arch height that is ineffectively high. There is a need for casting a mold at the same height in which heels will be used. As the heel is raised off the ground, the height of the arch increases proportionally. It is imperative that the casting occur at the desired heel height such that the sole of the foot has continual contact with the upper portion of custom molded
foot plate 15. When negative mold (any ofcavities foot plate 15 with a more secure and contoured fit. The custom moldedfoot plate 15 formed from a cast with a heel riser equal to that of a heel in which the custom moldedfoot plate 15 will be used forms an inner sole that more closely conforms, and preferably exactly conforms, to the shape of the foot that made the casting. - A finished shoe has integral custom molded
foot plate 15 withuppers heels foot plate 15 to form a custom shoe. Unlike conventional orthotics, the custom molded foot plate of the present invention is not placed on top of a shoe insole, the custom moldedfoot plate 15 is the entire inner sole of a shoe. - The shoes of the present invention are custom made. They can be constructed and arranged to fit any foot type or deformity. For example, women with bunion deformities often have difficulty finding shoes that do not have a strap that sits over the bunion (a strap over a bunion may cause pain to the wearer).
Strap 23 in shoes of the present invention can be positioned to avoid the bunion. Additionally, any other bony prominences in the foot can be accommodated in the custom moldedfoot plate 15 and in any other parts of the shoe in which accommodation would be beneficial to the wearer. Apertures. can be placed in custom moldedfoot plate 15, as shown inFIG. 18 . Abony prominence 35 may be covered with acover 36 that will impart an aperture into negative mold (any ofcavities foot plate 15. The cover may be any suitable cover and may include, but would not be limited to a bandage or additional casting material placed overbony prominence 35. Custom moldedfoot plate 15 constructed and arranged to accommodate bony prominences will ultimately result in a custom molded foot plate and ultimately finished shoe which can offload painful bony prominences on the bottom of feet. The shoe and incorporated custom moldedfoot plate 15 will conform to any perturbance of the foot and would not be limited to accommodating bony prominences. - In another embodiment, a physical aperture may be formed on the custom molded
foot plate 15 by capturing the prominence on either thepositive mold 6 or negative mold. This can be done by forming either a prominence on the positive mold before molding or an indentation on the negative mold at the desired location. - Any modifications that are commonly used in the fabrication of conventional orthotics may be used as modification in custom molded
foot plate 15 of the present invention. - The shoes of the present invention can be made as wide or narrow as needed. This includes custom
fit uppers - With regard to high heeled shoes, as shown in
FIG. 15 , since the custom moldedfoot plate 15 is custom cast and formed at a height equal tohigh heel 18, a greater surface area of the sole of the foot will be in contact with custom moldedfoot plate 15 in comparison to conventional high heel shoes. The casting of the custom moldedfoot plate 15 at the height of the heels to be used forms a casting with the arch height being properly positioned for the specific heel height.FIG. 13 hasinterface 25 showing the sole and arch of the foot in continual and substantially or complete contact with custom moldedfoot plate 15 when used inflat shoe 20.FIG. 14 hasinterface 26 showing the sole and arch of the foot in continual and substantially or complete contact with custom moldedfoot plate 15 when used inlow heel 41 oflow heel shoe 21.FIG. 15 hasinterface 27 showing the sole and arch of the foot in continual and substantially or complete contact with custom moldedfoot plate 15 when used inhigh heel 18 ofhigh heel shoe 22. Custom moldedfoot plate 15 used in high heeled shoes will distribute the gravitational force more evenly throughout the sole of the foot and the shoe resulting in a significantly decrease in the amount of pain and/or pressure that people experience in the ball of their foot while wearing high heeled shoes. -
FIG. 19 showspositive mold 6 withheel riser 9. Forefoot extension mold 45 is filled with castingmaterial 2. Forefoot extension mold 45 has an inner cavity to receivecasting material 2 and may be shaped to conform to the type of shoe desired e.g. square toe, pointed, rounded, etc. After castingmaterial 2 is hardened,forefoot extension mold 45 is removed andforms plate 37.Plate 37 will impartfore foot extension 28 on the custom moldedfoot plate 15 after press molding. As stated above,fore foot extension 28 is unitary, contiguous and integral with moldedfoot plate 15. AlthoughFIG. 19 depicts use withheel riser 9, it is contemplated thatextension mold 45 may be used with any heel riser or without a heel riser. Forefoot extension mold 45 should be positioned and filled with castingmaterial 2 whilepositive mold 6 is at the heel height desired in the completed shoe.Positive mold 6 should remain at the desired heel height of the finished shoe until castingmaterial 2 inside forefoot extension mold 45 has hardened. - While the invention has been described in its preferred form or embodiment with some degree of particularity, it is understood that this description has been given only by way of example and that numerous changes in the details of construction, fabrication, and use, including the combination and arrangement of parts, may be made without departing from the spirit and scope of the invention.
Claims (22)
1.-15. (canceled)
16. A method of making a custom shoe having a desired shape, comprising:
forming a negative cast of a foot;
casting a positive mold from the negative cast;
adding a forefoot extension forming structure to the positive mold;
placing said positive mold on a vacuum forming base plate;
press molding a moldable material to form a custom foot plate using the positive mold;
removing the custom foot plate from upon the positive mold;
attaching uppers and outer sole to the custom foot plate.
17. (canceled)
18. The method recited in claim 16 , further comprising:
covering said positive mold with the moldable material; and
placing a vacuum mold head over said positive mold with the moldable material.
19. The method recited in claim 16 further comprising cutting said custom foot plate to the desired shape.
20. The method recited in claim 16 , further comprising shaping the fore foot extension into desired shape.
21. The method recited in claim 16 , further comprising placing a foot of a wearer of the shoe in a statically standing position prior to forming the negative cast.
22. The method recited in claim 21 , further comprising using a block to place the wearer's foot in a statically standing position.
23. The method recited in claim 16 , wherein the forefoot extension has a front, further comprising attaching a forefoot extension mold to the front of the positive cast.
24. The method recited in claim 23 , configuring the forefoot extension mold to resemble a pattern and size of a forefoot region of the custom shoe.
25. The method recited in claim 23 , further comprising placing the positive cast in the same position that the wearer's foot was held in during the forming of the negative cast prior to casting the positive cast.
26. The method recited in claim 19 , further comprising using a grinding wheel to perform the cutting.
27. The method recited in claim 2, further comprising adhering a template to the custom foot plate, wherein the template has the desired shape.
28. A method for creating a custom shoe having a desired shape, comprising:
positioning a foot of a wearer of the custom shoe in a statically standing position creating a negative cast of the wearer's foot in the statically standing position;
creating a positive cast of the wearer's foot from the negative cast;
adding a forefoot extension to the positive cast to create a custom foot plate cast;
molding a moldable material around the custom foot plate cast to create a custom foot plate;
shaping the custom foot plate to have the desired shape;
attaching uppers to the custom foot plate; and
attaching an outer sole to the custom foot plate.
29. The method recited in claim 28 , further comprising placing a block having a height of a high-heeled shoe under a heel of the wearer's foot prior to pouring the moldable material.
30. The method recited in claim 28 , further comprising using a casting material to create the negative cast.
31. The method recited in claim 28 , further comprising pouring a casting material into the negative cast to create the positive cast.
32. The method recited in claim 28 , further comprising shaping the forefoot extension in accordance with a shape of the custom shoe.
33. The method recited in claim 28 , wherein the pressure pressing, further comprising:
placing the positive cast with forefoot extension in a vacuum press machine; and
vacuum pressing the moldable material around the positive cast with forefoot extension to create the custom foot plate.
34. The method recited in claim 28 , further comprising attaching an insole to the custom foot plate.
35. The method recited in claim 28 , wherein adding the forefoot extension comprises:
using a forefoot extension forming structure that accepts casting;
placing the positive cast in the same position that the wearer's foot was held in during the forming of the negative cast prior to casting the positive cast into the forefoot extension forming structure;
pouring casting material into the forefoot extension forming structure such that when the casting material forms it extends the positive cast.
36. The method recited in claim 35 , further comprising:
using a grinder to shape the custom foot plate; and
using a template having the desired shape as a guide for grinding the custom foot plate when using the grinder.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US15/607,401 US20170325989A1 (en) | 2007-08-13 | 2017-05-26 | Shoe with Custom Molded Foot Plate and Method of Making |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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US95557107P | 2007-08-13 | 2007-08-13 | |
US12/190,579 US9662242B2 (en) | 2007-08-13 | 2008-08-12 | Shoe with custom molded foot plate and method of making |
US15/607,401 US20170325989A1 (en) | 2007-08-13 | 2017-05-26 | Shoe with Custom Molded Foot Plate and Method of Making |
Related Parent Applications (1)
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US12/190,579 Continuation US9662242B2 (en) | 2007-08-13 | 2008-08-12 | Shoe with custom molded foot plate and method of making |
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US15/607,401 Abandoned US20170325989A1 (en) | 2007-08-13 | 2017-05-26 | Shoe with Custom Molded Foot Plate and Method of Making |
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US12/190,579 Active 2033-05-01 US9662242B2 (en) | 2007-08-13 | 2008-08-12 | Shoe with custom molded foot plate and method of making |
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Families Citing this family (11)
Publication number | Priority date | Publication date | Assignee | Title |
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US20150282563A1 (en) * | 2009-04-15 | 2015-10-08 | Marie Smirman | Insert for rockered foot bed of footwear |
US8033393B2 (en) | 2009-09-18 | 2011-10-11 | Nike, Inc. | Method of custom fitting an article of footwear and apparatus including a container |
US7958993B2 (en) * | 2009-09-18 | 2011-06-14 | Nike, Inc. | Footwear customization kit |
US8627528B2 (en) | 2009-11-19 | 2014-01-14 | Nike, Inc. | Footwear customization kit |
US20130255109A1 (en) * | 2012-03-29 | 2013-10-03 | William J. Hyslop | Footwear |
DE102015009279A1 (en) * | 2015-07-21 | 2017-01-26 | Springer Aktiv Ag | Orthosis and method for producing such an orthosis |
US10576666B2 (en) | 2016-01-07 | 2020-03-03 | Nike, Inc. | Portable customization system for articles of footwear |
US11464278B2 (en) * | 2016-06-20 | 2022-10-11 | Superfeet Worldwide Llc | Methods of making an orthotic footbed assembly |
US10524535B2 (en) | 2018-09-20 | 2020-01-07 | Igor Vainer | Shoe insole replacement method |
US11832688B2 (en) * | 2019-09-13 | 2023-12-05 | DIY Custom Insoles LLC | System and method for forming custom insoles for use in footwear |
NL2026587B1 (en) * | 2020-09-30 | 2022-06-08 | Cys Group B V | Method for manufacturing a sole stiffener for an orthopedic shoe, sole stiffener and an orthopedic shoe provided with a sole stiffener |
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- 2008-08-12 US US12/190,579 patent/US9662242B2/en active Active
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US2924849A (en) * | 1956-08-16 | 1960-02-16 | Buchman Henry | Tray for making a corrective footmolded appliance |
US3825017A (en) * | 1973-01-31 | 1974-07-23 | J Scrima | Foot conforming insole for a shoe |
US3895405A (en) * | 1974-09-12 | 1975-07-22 | Clyde A Edwards | Adjustable insole and method |
US4756096A (en) * | 1985-11-27 | 1988-07-12 | Meyer Grant C | Footwear insole |
US4906425A (en) * | 1987-10-02 | 1990-03-06 | Poussou Alain A | Methods to obtain corrected impressions of feet so as to produce corrective soles |
US4868945A (en) * | 1987-11-02 | 1989-09-26 | Debettignies Jean | Biomechanically adapted custom footwear |
US5154173A (en) * | 1988-05-16 | 1992-10-13 | Aultman James A | Foot support |
US5282328A (en) * | 1989-12-13 | 1994-02-01 | Peterson Technology Trust | Custom foot beds for footwear |
US5958546A (en) * | 1996-07-08 | 1999-09-28 | Mardix; Bar-Cochva | Custom insoles |
US20060015050A1 (en) * | 2002-12-16 | 2006-01-19 | Daniel Bleau | Biomechanical custom made foot orthosis and method for making the same |
Also Published As
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US20090044426A1 (en) | 2009-02-19 |
US9662242B2 (en) | 2017-05-30 |
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