The disclosed processes, methods, and systems are directed to modifying the comfort, fit, and performance characteristics of a shoe.
While shoes are often fashion statements, a well-designed shoe should protect the foot without causing discomfort. In general, the comfortability of a shoe is determined by the fit (for example the size) and the footbed. The footbed comprises an insole and an outer sole. The footbed being positioned below the foot to provide support and cushioning when the shoe contacts a walking surface (pavement, ground, etc.). The insole is designed to be in direct contact with the lower surface of the foot and the outer sole is designed to contact the walking surface (e.g. the ground). However, the footbeds of most shoes do not offer enough support for the foot, in general or the arch, ball, or heel of the foot, in particular. Additionally, some outsoles may not provide for enough traction with the ground.
Studies demonstrate that the positioning of a foot inside a shoe is a large determinant in the overall long-term health of the foot. Additionally, the angle at which a foot rests inside a shoe often determines the comfortability of a shoe for the wearer. This may be due to the angle at which a person's foot should rest inside a shoe differs from person to person.
As a result, there is need for shoes that contain footbeds that are adjustable. The present disclosure is designed to address that need.
Disclosed herein are devices and methods for increasing the comfort of a shoe. In one embodiment the device comprises, a sole having a first and a second surface, two or more shocks, extending away from the first surface of the sole, the shocks defining a first end positioned at or near the first surface of the sole and a second end positioned away from the first surface of the sole, a shock cavity defined by two adjacent shocks and the first surface of the sole, wherein the two or more shocks define two or more shock angles, and the shock cavity defines a shock cavity angle, and wherein the sole is an insole that lies along a footbed of the shoe and designed to contact a user's foot, or the sole is an outsole positioned at a bottom of the shoe and makes contact with the walking surface. In some embodiments, the sole may further comprise a bumper material to allow the sole to be used within a series of shoes sizes, and the device may further comprise at least one displacement translator positioned within at least one cavity, and at least one support structure, wherein the displacement translator is substantially flat and connected to the support structure.
Also disclosed are methods of embedding additional shock absorption properties to a material, the method comprising the steps of creating a sole of a shoe comprising a first material having a first shock absorption property, altering the first shock absorption property of the sole through the creation of the individual shock cavities within the sole, and adding a shock cavity insert into an individual shock cavity and further altering the first shock absorption property, wherein the shock defines a first shock angle, and the shock cavity insert defines a first shock cavity angle, and a plurality of shock cavity inserts are added to the individual shock cavity, which are dissimilarly shaped. In some embodiments the shock cavity insert is made of a second material having a second shock absorption property, or the first material and the second material are the same, or the second material is made from a plurality of materials. In some embodiments, the first shock absorption property and the second shock absorption property are similar.
Also disclosed is a device to modify the shock impact absorption properties of an item worn on a foot, the device comprising, an insole having a first layer positioned above a second layer, the first layer having an upper surface and a lower surface, the second layer having an upper surface and a lower surface, an outsole positioned below the insole and having an upper surface and a lower surface, wherein a plurality of a first shock cavities are formed beneath openings in the lower surface of the second layer and between first shocks, the cavities extending towards the upper surface of the second layer, wherein the first shock defines a first shock angle, and the first shock cavity defining a first shock cavity angle, and, in some embodiments. further comprising a first shock cavity insert positioned within a portion of at least one of the first shock cavities, or a plurality of second shock cavities formed beneath openings in the upper surface of the surface of the second layer and between the second shocks, the cavities extending towards the lower surface of the second layer, which may further comprise a second shock cavity insert positioned within a portion of at least one of the second shock cavities. In some embodiments, the device further comprises a first leaf spring insert positioned adjacent to and beneath the lower surface of the second layer, wherein a portion of the first leaf spring insert extends into the first shock cavities, or the second leaf spring insert is positioned adjacent to and above the upper surface of the second layer, wherein a portion of the second leaf spring insert extends into the second shock cavities. In some embodiments, the device may further comprise a plurality of third shock cavities formed beneath openings in the lower surface of the outsole, the third shock cavities extending towards the upper surface of the outsole, or a plurality of fourth shock cavities formed beneath openings in the upper surface of the outsole, the fourth shock cavities extending towards the lower surface of the outsole.
Disclosed herein are devices, methods, and systems for increasing the comfortability of a shoe. In some embodiments, the shoes allow for customization of the shoe to conform to the wearers' wishes and needs.
Several problems are solved or reduced by the presently disclosed devices and methods. In some embodiments, the disclosed devices, methods, and systems allow for dynamic shock absorption. For example the disclosed methods and devices may aid in (1) reducing foot, knee, or pelvic/hip joint pain, (2) reducing pain at prostheses-limb contact surfaces, (3) adjusting leg length for people with unequal length legs, (4) allowing the user to feel as if they were walking on an air mattress or a gymnastics mat, (5) improving and adjusting foot support due to shock cavity and shock cavity inserts properties, (6) auto-ventilating the shoe and or foot to reduce foot and shoe odors as well as moisture buildup in the shoe, (7) reducing the abrasive friction of heel and shoe, (8) solving an age-old problem of the lack of high-displacement dynamic shock absorption insoles.
The present disclosure relates to an adjustable sole consisting of multiple shocks protruding away from the sole, creating a number of crevices in between the shocks known as shock cavities. Within these shock cavities, adjustable shock cavity inserts can be placed to control the comfortability and shock absorption.
Sole
Shock cavities 112 may be defined in a top surface 110, 120 (see
One embodiment of an insole 102 is depicted in
Shock
Shocks 114 may aid in providing support for the sole 100 of a shoe, as well as providing for the creation of shock cavities 112 to adjust the shock force absorption of the sole 100 and the shoe and other material properties. Shock cavity inserts 116a, 116b may be positioned within a shock cavity 112, as shown in
One embodiment of a shock 114 is depicted in
The shock may be comprised of various parts. As depicted in
Shock Cavity
The property of a shock cavity 112 may depend on orientation (angle), dimensions shape, grid pattern (e.g. distance between adjacent shock cavities 112, number of cavities 112 per unit of area), and properties of the material between the shock cavities 112 (e.g., shock 114 material). These properties—such as density, elasticity, and rebound—as well as shock cavity insert 116 dimensions may help to control feel, displacement (horizontal and height) and shock force absorption.
Referring again to
In some embodiments, the shock cavity 112 defines a cylindrical shape. In other embodiments, the shock cavity 112 defines various other shapes. In some embodiments, as shown in
The shock cavity 112 may be designed to accept a shock cavity insert 116. In many embodiments, the shock cavity 112 insert 116 may define a shape that may aid in retaining a shock cavity insert within the shock cavity. One embodiment of a shock cavity 112 for retaining a shock cavity insert 116 is depicted in
Referring to the shock cavity 114 embodiment of
Shock Cavity Insert
Shock cavity inserts 116 may be designed to occupy a volume of the shock cavity 112 defined by the surrounding shocks 114. With reference to
In many embodiments, the dimensions of the shock cavity insert may be similar to the dimensions, D2 and L2, of the shock cavity. In other embodiments, the shock cavity insert's dimensions may be a percentage of the corresponding dimensions of the shock cavity. For example the dimensions of the shock cavity insert may be from about 80%-105% of the corresponding dimensions of the shock cavity in any one or more positions. In some embodiments, the dimensions may be uniformly different, and in other embodiments, one dimension may be one value and a second dimension may be another—for example the depth may be about 90% while the width is 101%. In many embodiments, the dimensions of the shock cavity insert may be greater than about 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, 100%, 101%, 102%, 103%, or 104%, and less than about 105%, 104%, 103%, 102%, 101%, 100%, 99%, 98%, 97%, 96%, 95%, 9.4%, 93%, 92%, 91%, 90%, or 85% that of the corresponding dimension of the shock cavity. In some embodiments, for example embodiments where a shock insert is compressible, such as where the insert is made of a compressible foam material, the shock insert may define a volume, when uncompressed, that is greater than 100% the volume of the cavity. For example, in these embodiments, the difference may be greater than 105%, 110%, 120%, 130%, 140%, 150%, 160%, 170%, 180%, 190%, 200%, or 300%, and less than about 350%, 300%, 250%, 200%, 190%, 180%, 170%, 160%, 150%, 140%, 130%, 120%, or 110%. In some embodiments, for example wherein the density of the insert's material is the same or similar to the sole material's density, the volume difference may be from about 80% to about 120%. In embodiments wherein the insert is made of a silicone or a gel material, the volume of the shock insert may be about 95% to about 105% of the shock cavity's volume.
The shock cavity insert 116 may define various shapes, which may correspond to the shapes defined by the shock cavity 112. While many embodiments of shock cavity insert 116 may be cylindrical to correspond to a cylindrical shock cavity shape, such as shock cavity insert 116g of
Shock cavity inserts 116 may be comprised of various materials. In some embodiments, the shock cavity insert 116 may be hollow, such as the cross-sectional view of 116i of
Shock cavity inserts may also define an angle similar to Θ. In many embodiments, this angle, ω, may correspond to the angle Θ for the cavity where a specific shock cavity insert resides. In many embodiments, such as the embodiment of
Referring to
Referring to
The embodiments of
There are two embodiments of the presently claimed sole shown in
Leaf-Spring Shocks
In some embodiments, the shocks 114 may define a leaf-spring structure, as depicted in
The leaf spring shock embodiments depicted in
Displacement Translator
The disclosed shock structures 114, which in some embodiments may be positioned between shock cavities 112, may further define a second cavity 200. The embodiments in
Exemplary embodiments of secondary displacement translators 202 are depicted in
Swappable Insole
Yet another embodiment is wherein the insoles can be swapped between different degrees of firmness from relatively soft to extra firm. The ability to swap the insole gives a user the ability to experience a range of foot sensations up to feel of barefoot walking or running. If insole is extra firm and flat, It can give a feeling of walking or running barefooted, regardless of shoe fitting.
Bumpered Insoles
Another aspect of the current disclosure is an embodiment that allows a user to convert larger insoles to fit smaller shoes, and to convert larger shoes sizes to fit smaller feet. The purpose of this innovation is to initially reduce tooling costs by reducing number of manufactured shoe sizes and also reduce inventory costs. A strip of padding bumper can be added to the top surface of an insole on the front side of the toes along the insole's front (toe side) circumference. In one embodiment, the bumper may cover a lateral depth of up to ½ or 1 shoe size corresponding to shoe size of 9½ and 9, as an example. In another embodiment, the bumpered insole would also comprise integral cutting marks at the front and the rear of the insole to allow for the original insole to be trimmed down to accommodate a smaller shoe size.
While multiple embodiments are disclosed, still other embodiments of the present disclosure will become apparent to those skilled in the art from the following detailed description. As will be apparent, the disclosure is capable of modifications in various obvious aspects, all without departing from the spirit and scope of the present disclosure. Accordingly, the detailed description is to be regarded as illustrative in nature and not restrictive.
All references disclosed herein, whether patent or non-patent, are hereby incorporated by reference as if each was included at its citation, in its entirety. In case of conflict between reference and specification, the present specification, including definitions, will control.
Although the present disclosure has been described with a certain degree of particularity, it is understood the disclosure has been made by way of example, and changes in detail or structure may be made without departing from the spirit of the disclosure as defined in the appended claims.
This application claims the benefit under 35 U.S.C. § 119 of the earlier filing date of U.S. Provisional Application Ser. No. 62/279,343 filed on Jan. 15, 2016, the entire contents of which are hereby incorporated by reference in their entirety for any purpose.
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