SHOE WITH A HIGH HEEL TO LOW HEEL CONVERSION

FIELD

This disclosure relates to footwear. More specifically, the disclosed embodiments relate to systems and methods for converting shoes and other footwear between high-heel and low-heel configurations.

INTRODUCTION

Style and comfort do not always go hand in hand. This is especially true when it comes to women’s footwear. High heels, though a mainstay in most women’s closets, fall short of being reasonably designed footwear. The height difference between the front and rear of these shoes causes wobbling and slipping even on unadorned, planar surfaces. Despite this, women continue to wear these fashion statements even though the original purpose of high heels, that of helping a rider secure their stance in the stirrups so they could shoot arrows more effectively from horseback, no longer exists. Through the years, high heels evolved into stilettos and pumps and have succumb to iconic branding such that many see such shoes as status symbols for success and perhaps femininity.

Unfortunately, continued use of elevated footwear leads to a plethora of physical problems manifesting itself in such things as planter fasciitis and neuroma while affecting other areas of the body such as the calves, knees and lower back. The American Podiatric Medical Association reports that women have four times as many foot issues as do men. High heels are dangerous to walk in and are subject to immediate frictional engagement with sidewalk grates and the like. The most common complaint about high heels is that they are slow and uncomfortable to walk in. For this reason, many working women carry a second pair of shoes, ones with a low heel or a shoe of a walking/running variety, to get them to and from the workplace. Since shoes accumulate dirt in use, this strategy not only requires one to carry a second set of shoes, it also requires a bag in which to transport them. For most women who carry a purse, this means both arms are full. The situation is worsened if there is a personal computing device such as a laptop computer or tablet that also must be transported daily to work. Accordingly, a single pair of shoes that could be converted between a fashionable high and a comfortable low heel would fulfill a long felt need in the footwear industry. This new invention utilizes and combines known and new technologies in a unique and novel configuration to develop a convertible shoe that overcomes the aforementioned problems and provides a solution to a common workplace dilemma.

SUMMARY

The present disclosure provides systems, apparatuses, and methods relating to convertible footwear.

In some embodiments, an article of footwear may include: a sole including a heel receiver having a fixed hook portion, a movable hook portion disposed opposite the fixed hook portion, and an actuator configured to move the movable hook portion between a retracted position and an extended position; a first heel portion and a second heel portion, each of the first and second heel portions having a first recess configured to engage the fixed hook portion and a second recess configured to engage the movable hook portion, such that, when the heel portion is engaged with the heel receiver: (a) the heel portion is secured to the heel receiver when the movable hook portion is in the extended position, and (b) the heel portion is releasable from the heel receiver when the movable hook portion is in the retracted position; wherein the article of footwear is transitionable between a first configuration, in which the first heel portion is secured to the heel receiver portion of the sole, and a second configuration, in which the second heel portion is secured to the heel receiver portion of the sole.

In some embodiments, an article of footwear may include: a sole including a heel receiver having a fixed hook portion, a movable hook portion disposed opposite the fixed hook portion, and an actuator configured to move the movable hook portion between a retracted position and an extended position; a first heel portion and a second heel portion, each of the first and second heel portions having a first lip configured to engage the fixed hook portion and a second lip configured to engage the movable hook portion; wherein the article of footwear is transitionable between a first configuration, in which the first heel portion is secured to the heel receiver portion of the sole, and a second configuration, in which the second heel portion is secured to the heel receiver portion of the sole. In some embodiments, an article of footwear may include: a sole including a heel receiver having a fixed hook portion, a movable hook portion disposed opposite the fixed hook portion, and an actuator configured to move the movable hook portion between a retracted position and an extended position; and a first heel portion having a first upper interface configured such that, when the first heel portion is engaged with the heel receiver: (a) the first heel portion is secured to the heel receiver when the movable hook portion is in the extended position, and (b) the first heel portion is releasable from the heel receiver when the movable hook portion is in the retracted position.

Features, functions, and advantages may be achieved independently in various embodiments of the present disclosure, or may be combined in yet other embodiments, further details of which can be seen with reference to the following description and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a side perspective view of an illustrative convertible shoe in a high heeled mode.

Fig. 2 is a side perspective view of an illustrative convertible shoe in a low heeled mode.

Fig. 3 is a side view of the convertible shoe in the high heeled mode.

Fig. 4 is a side view of the convertible shoe in the low heeled mode.

Fig. 5 is a bottom perspective view of the convertible shoe in the high heeled mode.

Fig. 6 is a bottom perspective view of the convertible shoe in the low heeled mode.

Fig. 7 is a bottom perspective exploded view of the convertible shoe in the high heeled mode.

Fig. 8 is a bottom perspective exploded view of the convertible shoe in the low heeled mode.

Fig. 9 is a front perspective of an illustrative sliding support shank showing a locking/adjustment lever.

Fig. 10 bottom perspective exploded view of the convertible shoe in the low heeled mode with an alternate heel locking mechanism. Fig. 11 is a perspective view of an illustrative support shank track.

Fig. 12 is an isometric view of another illustrative convertible shoe in a high heeled mode.

Fig. 13 is a top plan view of the shoe of Fig. 12.

Fig. 14 is a bottom plan view of the shoe of Fig. 12.

Fig. 15 is a left side elevation view of the shoe of Fig. 12.

Fig. 16 is a first exploded view of the shoe of Fig. 12.

Fig. 17 is a second exploded view of the shoe of Fig. 12.

Fig. 18 is a magnified isometric view of a heel receiver portion of the shoe of Fig. 12.

Fig. 19 is a sectional view of an illustrative high heel portion suitable for use with the shoe of Fig. 12.

Fig. 20 is a sectional view of an illustrative low heel portion suitable for use with the shoe of Fig. 12.

Fig. 21 is a sectional view of the shoe of Fig. 12, in the high heeled mode.

Fig. 22 is a partial sectional view of the shoe of Fig. 12, in a low heeled mode.

Fig. 23 is a partial sectional view of another illustrative convertible shoe in a low heeled mode.

Fig. 24 is a partial sectional view of the shoe of Fig. 23 in a high heeled mode.

Fig. 25 is an isometric view of another illustrative convertible shoe in a high heeled mode.

Fig. 26 is a top plan view of the shoe of Fig. 25.

Fig. 27 is a bottom plan view of the shoe of Fig. 25.

Fig. 28 is a left side elevation view of the shoe of Fig. 25.

Fig. 29 is an exploded view of the shoe of Fig. 25.

Fig. 30 is a magnified isometric view of a heel receiver portion of the shoe of Fig. 25.

Fig. 31 is a sectional view of an illustrative high heel portion suitable for use with the shoe of Fig. 25.

Fig. 32 is a sectional view of an illustrative low heel portion suitable for use with the shoe of Fig. 25.

Fig. 33 is a sectional view of the shoe of Fig. 25, in the high heeled mode.

Fig. 34 is a partial sectional view of the shoe of Fig. 25, in the high heeled mode. Fig. 35 is a partial sectional view of the shoe of Fig. 25, in a low heeled mode.

Fig. 36 is an exploded view of another illustrative convertible shoe.

Fig. 37 is a sectional view of an illustrative high heel portion suitable for use with the shoe of Fig. 36.

Fig. 38 is a sectional view of an illustrative low heel portion suitable for use with the shoe of Fig. 36.

Fig. 39 is a partial sectional view of the shoe of Fig. 36, in a high heeled mode.

DETAILED DESCRIPTION

Various aspects and examples of a shoe that is convertible between high-heel and low-heel modes and that has a support shank that is repositionable with respect to the shoe’s sole, as well as related methods, are described below and illustrated in the associated drawings. Unless otherwise specified, a convertible shoe in accordance with the present teachings, and/or its various components may, but are not required to, contain at least one of the structures, components, functionality, and/or variations described, illustrated, and/or incorporated herein. Furthermore, unless specifically excluded, the process steps, structures, components, functionalities, and/or variations described, illustrated, and/or incorporated herein in connection with the present teachings may be included in other similar devices and methods, including being interchangeable between disclosed embodiments. The following description of various examples is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses. Additionally, the advantages provided by the examples and embodiments described below are illustrative in nature and not all examples and embodiments provide the same advantages or the same degree of advantages.

This Detailed Description includes the following sections, which follow immediately below: (1 ) Definitions; (2) Overview; (3) Examples, Components, and Alternatives; (4) Illustrative Combinations and Additional Examples; (5) Advantages, Features, and Benefits; and (6) Conclusion. The Examples, Components, and Alternatives section is further divided into subsections A through F, each of which is labeled accordingly. Definitions

The following definitions apply herein, unless otherwise indicated.

“Substantially” means to be more-or-less conforming to the particular dimension, range, shape, concept, or other aspect modified by the term, such that a feature or component need not conform exactly. For example, a “substantially cylindrical” object means that the object resembles a cylinder, but may have one or more deviations from a true cylinder.

“Comprising,” “including,” and“having” (and conjugations thereof) are used interchangeably to mean including but not necessarily limited to, and are open-ended terms not intended to exclude additional, unrecited elements or method steps.

Terms such as“first”,“second”, and“third” are used to distinguish or identify various members of a group, or the like, and are not intended to show serial or numerical limitation.

“Resilient” describes a material or structure configured to be deformed elastically under normal operating loads (e.g., when compressed) and to return to an original shape or position when unloaded.

“Rigid” describes a material or structure configured to be stiff, non-deformable, or substantially lacking in flexibility under normal operating conditions.

“AKA” means“also known as,” and may be used to indicate an alternative or corresponding term for a given element or elements.

Directional terms, such as“inboard,”“outboard,”“front,” and“rear” (and the like) are intended to be understood in the context of the article of footwear on or in which components described herein may be mounted or otherwise attached. For example, “outboard” may indicate a relative position that is laterally farther from the centerline of a shoe, or a direction that is away from the shoe’s longitudinal centerline. Conversely, “inboard” may indicate a direction toward the centerline, or a relative position that is closer to the centerline. Similarly,“forward” or“front” means toward the toe portion of the footwear, and“rear” or“back” means toward the heel portion of the footwear. Similarly, the term“longitudinal” generally refers to the heel-to-toe (length) direction of the footwear, while the term“lateral” generally refers to the side-to-side (width) direction of the footwear. In the absence of a host article of footwear, the same directional terms may be used as if the article were present. For example, even when viewed in isolation, a component may have a“forward” side, based on the fact that the component would be installed with the side in question facing in the direction of the toe portion of a shoe.

“Coupled” means connected, either permanently or releasably, whether directly or indirectly through intervening components.

The following terms relate to portions of a shoe or other article of footwear: a. Breast: The forward facing part of the heel, under the arch of the sole.

b. Feather: The part of the shoe where the upper’s edge meets the sole.

c. Heel: The part of the sole that raises the rear of the shoe in relation to the front.

d. Heel Cap: The part of the heel that contacts the ground. Also called the top piece.

e. Insole: A layer of material that sits inside the shoe that creates a layer between the outsole (or any intervening soles e.g. midsole) and the wearer’s foot. f. Outsole: The exposed part of the sole that is contact with the ground.

g. Seat: Where the heel of the foot sits in the shoe.

h. Shank: A piece of rigid material inserted somewhere between the outer face of the sole and the inner face of the insole, to as to cause the sole assembly to lie against the arch of the foot.

i. Sole Assembly: The part of the shoe that sits below the wearer’s foot. The upper, sole, and heel make up the whole of the shoe.

j. Upper: The part of the shoe that covers the foot.

k. Welt: A strip of material that joins the upper to the sole. It may also be the midsole or eliminated in certain shoe designs.

Overview

When one shifts from walking on low heels to high heels the foot bends at the metatarsophalangeal joints located between the base of the proximal phalanx bones and the head of the metatarsal bones. The plantar fascia is then stretched beneath the tarsal bones. Thus, less of the weight of the person is carried by the calcaneus bone and more of the weight is carried by the metatarsal bones. Like walking on tip toes, this leaves this plantar fascia under tension. Over periods of time, this tension fatigues the foot, For this reason, high heeled shoes generally have a support shank made of a rigid material that runs down the longitudinal centerline of the shoe to transfer some of the load off of the heads of the metatarsal bones and back onto the remainder of the foot’s bone structure. The support shank also generally has a slight arc along its length that serves to flex the plantar fascia slightly and reduce the point stress at its center. In normal walking, whether in high heels or low heels, the foot must flex and bend at the metatarsophalangeal joint. For this reason (to allow the flexing of the shoe with the foot) the support shank’s proximal end begins somewhere behind the base of the proximal phalanx bones and its distal end terminates somewhere under the calcaneus bone. For obvious reasons this support shank must both be thin (to keep the thickness of the outsole/midsole/insole assembly to a minimum) and lightweight (to keep leg fatigue to a minimum). In a high heeled shoe the proximal end of the support shank begins just behind the base of the proximal phalanx bones, while in a low heeled shoe, the proximal end of the support shank is located further away from the base of the proximal phalanx bones and the distal end is located closer to the back of the calcaneus bone. So when walking in low heels the support shank shifts some of the load from the front of the foot and when walking in high heels the support shank shifts some of the load from the back of the foot. It also helps the shoe keep its overall shape, so that the heel cap meets the ground evenly across its face.

The longitudinal arc that the support shank traces varies with the shoe design and the height of the heel. Without the support shank the shoe may quickly break down and walking may become tedious and uncomfortable. Support of the foot may be moved more forward (toward the metatarsophalangeal joints) as the height of the heel increases to properly support both the foot and the shoe’s body. For this reason the structural design of high heeled shoes and low heeled shoes can require different internal placements of the support shank.

In general, convertible footwear as disclosed herein may include a heel attachment mechanism that allows heel portions to be easily interchanged by the user, thereby converting the footwear between high-heel and low-heel configurations or modes. As discussed above, a support shank (also referred to as a support and/or a stiffener) is present in shoes and other footwear of the present disclosure, and this support shank is at least partially movable with respect to one or more remaining portions of the shoe. Furthermore, the movable support shank may be locked into selected positions (e.g., a forward position and a rearward position) by a locking mechanism that passes through the sole of the shoe and ensures the selected position is maintained during use. In some examples, the locking mechanism is externally accessible. In some examples, at least part of the locking mechanism is integrated into the interchangeable heel portions.

Examples, Components, and Alternatives

The following sections describe selected aspects of exemplary convertible shoes, as well as related systems and/or methods. The examples in these sections are intended for illustration and should not be interpreted as limiting the entire scope of the present disclosure. Each section may include one or more distinct embodiments or examples, and/or contextual or related information, function, and/or structure.

A. First Illustrative Convertible Shoe

As shown in Figs. 1 -1 1 , this section describes an illustrative convertible shoe 1 . Shoe 1 is an example of the convertible shoe described in the Overview above.

Looking at Figs. 1 , 3, and 5, the general outward appearance of convertible shoe 1 in a high-heeled mode can best be seen. Looking at Figs. 2, 4, and 6, the general outward appearance of convertible shoe 1 in a low-heeled mode can best be seen.

Convertible shoe 1 has an upper 2, a sole assembly 8, and a lockable sliding shank assembly 12 (see Fig. 7), a shank locking means, a removable high heel 4, a removable low heel 6, and a heel locking means 14. Heels 4 and 6 are interchangeable and utilize the same locking means for securement to the shoe. Upper 2 is lasted may be affixed to sole assembly 8 as per conventional shoe fabrication methodology.

Lockable sliding shank assembly 12 includes a rigid shank 14, a track 16, and a shank locking means. Generally, these will each comprise a rigid material, such as a metal (e.g., steel) or a polymer. Looking at Fig. 9, it can be seen that shank 16 in this example is a linear, curved member, contoured for sliding operation tracing the arch of the specific shoe it is mated to. Although shank 16 may simply be a solid steel bent plate, in a preferred embodiment shank 16 is of a thinner fabrication and has a nonlinear axial cross section. This corrugated style configuration adds strength with a reduction in weight. Taking into consideration Figs. 9, 10, and 1 1 together, it is understood that shank 16 has a central raised rib 20 flanked on either side by a depressed flange 22. Extending normally from the central rib 20 is the shank locking means, which in the preferred embodiment is a threaded stud 24 that threadingly engages the internal thread on locking lever 26. Locking lever 26 has a widened head with a flange 28 extending therefrom. In alternate embodiments there is a plethora of other styles and types of locking mechanisms that may be used with or separately from the lever.

Track 16 may take different structural configurations. However, in the preferred embodiment it resembles a“T” track. Depressed flanges 22 reside under the edges of track 16, and serve as the sliding contact interface between shank 14 and track 16. The track may be affixed in sole assembly 8 by gluing, stitching, mechanical fastening (see provided orifices 30), and/or the like. The ends of track 16 have caps 32, under which the distal or proximal ends of shank 14 reside when the shoe is in the high- heeled or low-heeled configuration. This mechanically prevents any separation between shank 14 and track 16 at their ends, functionally strengthening sliding shank assembly 12 during walking.

Looking at Fig. 8, sole assembly 8 includes an outer sole 34 and an inner sole 36 bonded together, and may optionally contain a midsole 38 (or a welt) bonded on one of its faces to outer sole 34 and bonded on its other face to inner sole 36, so as to join the inner sole, midsole and outer sole into the sole assembly 8. In a preferred embodiment, track 16 and shank 14 reside in midsole 38, although as discussed herein, their placement will vary within sole assembly 8 depending on the shoe’s design. Outer sole 34 has a slot 40 through which threaded stud 24 can pass to threadingly engage locking lever 26.

Sole assembly 8 may attach to either heel by any suitable method. Two such methods are discussed and illustrated herein. In a preferred embodiment (see Fig. 10) outer sole 34 has a raised detent 42 that conforms to a matingly conforming depression formed in the top of the heel. Both the heel and raised detent 42 have orifices therein that align upon assembly to accept a locking pin. In some embodiments (see Fig. 10), a threaded pin 44 that passes through an aligned orifice in outer sole 34 matingly engages a threaded recess in the heel. Similar style bayonet pins/fittings may be substituted.

In some embodiments, depending on the materials and design of sole assembly 8, track 16 may be eliminated and replaced by a groove 18 (see Fig. 8) partially or fully formed in the outsole, midsole, insole, or any combination thereof. This track will be sized to allow for the sliding, lockable movement of shank 14 therein. Generally the elimination of the track and substitution of a groove works well with thicker sole assemblies 8 made of very resilient materials.

In operation, the wearer selects the high-heel mode or the low-heel mode. If the low-heeled mode is desired, low heel 6 is affixed over raised detent 42, and a locking pin is inserted into the aligned orifices. Locking lever 26 is slid toward the back (heel side) of shoe 1 . This causes shank 14 to slide in track 16 until the distal end of the shank reaches the distal end of track 16 and resides under the rear cap (not visible in the perspective drawings of Figs. 8 and 10). Shank locking lever 26 is then screwed down tight such that its flange 28 frictionally engages outer sole 34, securing shank 14 in the low heel position. (Although it is to be noted that the action of walking, once the appropriate heel for the shank position button is installed, acts to keep the shank 14 in its position. The locking feature of lever 26 is a redundant feature and need not be utilized in all embodiments.) To switch to the high-heeled mode, the heels are swapped by the reverse process, lever 26 is unlocked and slid toward the front (toe side) of shoe 1 , until the proximal end of shank 14 resides under front cap 32. Lever 26 is screwed tight.

The process as described for the low-heeled mode moves shank 26, resulting in the shoe’s arch support shifting from under the metatarsophalangeal joints further back in shoe 1 , under the calcaneus bone so as to allow more of the weight to be carried by the metatarsal bones and supporting the middle of the plantar fascia. Many styles of shoes incorporate the thickness of the sole into the design“look” and use platforms (thick midsoles), while other styles focus on minimalism and keep the sole to a minimal thickness, eliminating any midsoles. For this reason, although the preferred embodiment illustrates support shank track 16 and support shank 14 in midsole 38, they may alternately be located in insole 36 or outsole 34, or in any combination of the three sole parts.

In a similar manner, the system/mechanism for swapping the high and low heels will be dictated by the design of the shoe. While illustrated with a simple threaded centrally located pin 44, other suitable heel locking devices may be utilized (e.g., locking plates, dovetailed bases, moveable pins, bayonet fittings, and/or the like). B. Second Illustrative Convertible Shoe

As shown in Figs. 12-22, this section describes an illustrative convertible shoe 100. Shoe 100 is another example of the convertible shoe described in the Overview above.

Shoe 100 is depicted in an orthogonal view in Fig. 12, a top plan view in Fig. 13, a bottom plan view in Fig. 14, and a side view in Fig. 15. Figs. 16 and 17 depict exploded views of various components of shoe 100. Fig. 18 is a magnified view of a heel receiver portion of the shoe, and Figs. 19 and 20 are sectional views of two different heel portions suitable for use with shoe 100. Fig. 21 is a sectional view of the assembled shoe, showing how the heel portion of Fig. 19 attaches to the heel receiver, and Fig. 22 is a partial sectional view showing a similar connection between the heel portion of Fig. 20 and the heel receiver. Although this example refers to a shoe, the features of the present disclosure can be used with any suitable article of footwear, e.g., boots, shoes, sandals, etc.

Shoe 100 includes a sole 102 and a number of interchangeable heel portions that are releasably securable to the sole. In the present example, shoe 100 includes a high heel portion 104 and a low heel portion 106, also referred to as a tall heel portion and a short heel portion, respectively. Shoe 100 may also include an upper, as described above with respect to shoe 1 , or any other suitable portion configured to hold a foot of the user. For example, shoe 100 includes a toe strap 108 and a heel strap 1 10, affixed to the sole and optionally adjustable to fit the foot. More or fewer straps may be utilized.

Sole 102 includes an insole portion 1 12 generally layered atop an outsole portion 1 14. As described above, the insole and outsole may comprise any suitable materials, and may be affixed together using known methods. In some examples, however, sole 102, including both insole portion 1 12 and outsole portion 1 14, may be generated in a single process, such as multi-material 3-D printing, in which the sole is built in an additive manufacturing process. In general, outsole portion 1 14 may include a tougher, less resilient material than insole portion 1 12, e.g., for wear-resistance. Insole portion 1 12 may include a softer, more resilient material, e.g., for comfort. In some examples, sole 102 may include more or fewer layers.

A support shank 1 16 is housed at least partially within a pocket or cavity 1 18 formed in sole 102. Because the support shank and sole may be made of different materials, and because relative movement between the support and the sole may be desirable, support shank 1 16 and sole 102 are at least partially movable relative to each other. In other words, at least some portion (in some examples, the entirety) of the support shank is free to slide longitudinally with respect to the sole. In some embodiments, it may be more useful to consider that the sole is at least partially free to move with respect to the support shank, as described further below. Support shank 1 16 is analogous to support shank 14, described above, and has similar functionality. Support shank 1 16 may include any suitable materials, such as steel (e.g., spring steel). In the present example, support shank 1 16 may have a degree of flexibility rather than being completely rigid. This is best seen in Figs. 16 and 17, where an example of a high-heel configuration A and a low-heel configuration B of the support are both depicted.

In this example, cavity 1 18 is formed entirely in insole portion 1 12, as best indicated in Fig. 21 . Flowever, other suitable configurations may be utilized. For example, cavity 1 18 may be formed between insole 1 12 and outsole 1 14, or partially in each. Shoe 100 further includes an flexible insert portion 120, which lies under support shank 1 16 proximate a bend in shoe 100 where additional flex and softer support may be needed for the ball of the foot.

In the example of shoe 100, a front end portion 122 of support 1 16 is secured to sole 102, such that a longitudinal position of the front end portion of the support shank is fixed relative to the sole. A rear end portion 124 of the support remains freely movable within cavity 1 18. Front end portion 122 of support 1 16 may be secured by any suitable structure or device. Flere, a clamp plate 126 is utilized to secure front end portion 122 to a clamp plate receiver 128 of insole 1 12. As depicted, for example, in Fig. 17, a plurality of pins in clamp plate 126 pass through corresponding apertures in front end portion 122 and into receiving holes in receiver 128 to secure the support to the insole. Alternatively or additionally, other securing methods may be utilized, such as adhesives, bonding, and/or the like. As described, for example, in Sections A and C, some embodiments of the convertible shoes described herein do not include securing front end portion 122 to sole 102 (i.e. , in some examples, the entire support shank is movable in a longitudinal direction relative to the sole).

In similar fashion, toe strap 108 and heel strap 1 10 may be secured to sole 102 using any suitable method or device. In this example, toe strap 108 is secured to sole 102 by clamping (and/or adhering, bonding, etc.) the ends of the strap between clamp plates 180, 182 and corresponding clamp plate receivers 184, 186, as shown in Fig. 17. Likewise, heel strap 1 10 is secured to sole 102 by clamping (and/or adhering, bonding, etc.) the ends of the strap between clamp plates 188, 190 and corresponding clamp plate receivers 192, 194.

A block 130 is affixed to rear end portion 124 of support shank 1 16, extending generally downward through an opening or aperture 132 in sole 102. As depicted in the drawings, block 130 is substantially cuboidal. However, block 130 may have any suitable shape and/or size. Aperture 132 is larger than the block, at least in a longitudinal dimension, such that block 130 can move longitudinally from a front side 134 of the aperture to a rear side 136 of the aperture. This longitudinal dimension may be selected to determine the limits of such movement, and thereby to determine the limits of movement of the support relative to the sole.

Block 130 may be secured to support shank 1 16 using any suitable structure or device. In this example, support 1 16 is held between a clamp plate 138 and block 130, and fastened using a pair of screws 140, e.g., as shown in Fig. 17. An access plate 142 is used to cover the opening in sole 102 above this portion of the support shank and prevent interference and discomfort with respect to the user’s foot. In general, a function of block 130 is to interface with a corresponding feature of the heel portion to establish and/or secure the longitudinal position of the support shank relative to the sole. As best shown in Fig. 22, when shoe 100 is converted to a low-heel configuration, sole 102 extends rearward slightly with respect to support shank 1 16, which is secured at its front end. This leaves an empty space at the back end of cavity 1 18. Block 130 and the heel portion interact to secure this arrangement and prevent further movement. As described further in Section C, block 130 has similar functionality when support shank 1 16 is free at both ends, in that embodiment both repositioning and securing the support with respect to the sole.

A heel attachment mechanism 144 is included in shoe 100, comprising features of the heel portion as well as of the sole. Heel attachment mechanism 144 may include any suitable structure and/or device configured to releasably secure the heel portion to the sole. For example, one or more of the heel attachment mechanisms described in Section A may be used with shoe 100. In this example, heel attachment mechanism 144 includes a heel receiver 146 attached to sole 102. Heel receiver 146 may be affixed to sole 102 using any suitable method, and in this example is formed as a part of sole 102 (e.g., as a part of insole 1 12 extending downward through outsole 1 14. Specifically, heel receiver includes a fixed hook portion 148 which extends from a base 149 of the heel receiver, a movable hook portion 150 disposed opposite the fixed hook portion, and an actuator 152 configured to move the movable hook portion between a retracted position and an extended position.

Hook portions 148 and 150 may be oriented in any direction, e.g., with the fixed hook facing forward, left, right, or rearward, and the movable hook facing in the opposite direction. Here, fixed hook portion 148 faces toward the rear, and movable hook portion 150 faces toward the front of the shoe. Movable hook portion 150 is biased toward the extended, or forward, position. Any suitable biasing device may be used. Here, a coil spring 154 is used, as shown in Figs. 16, 17, 21 , and 22.

Actuator 152 is connected to movable hook portion 150, such that operation (e.g. , manual operation) of actuator 152 against the biasing force of spring 154 causes the movable hook to retract. In the example shown in the drawings, actuator 152 is of a single piece with movable hook portion 150, and has a pair of channels 156 that permit longitudinal sliding of the actuator, as guided by the screws and/or guidepins of a retainer plate 158 that holds the actuator and movable hook against a bottom surface of the heel receiver base.

Heel portions 104 and 106 each include an upper mounting surface, namely upper mounting surface 160 and upper mounting surface 162, respectively, for attaching the heel portion to the heel receiver. Each of these upper mounting surfaces includes a first recess 164, 166 configured to engage fixed hook portion 148 and a second recess 168, 170, configured to engage movable hook portion 150, such that, when the heel portion is engaged with the heel receiver, the heel portion is secured to the heel receiver when the movable hook portion is in the extended position and the heel portion is releasable from the heel receiver when the movable hook portion is in the retracted position.

As shown in the drawings, aperture 132 extends through sole 102 between fixed hook portion 148 and movable hook portion 150. More specifically, aperture 132 passes in a generally vertical direction through the sole and through base 149, forming a walled channel or passageway. Each of upper mounting surfaces 160 and 162 further includes an upward- protruding wedge, namely wedge 172 of high heel portion 104 and wedge 174 of low heel portion 106. Each of these wedges is configured to penetrate aperture 132 and interface with block 130, albeit in a different manner. Specifically, installing a heel portion onto the heel receiver causes wedge 172 or 174 to abut a forward or rear face of block 130, forcing block 130 in a selected longitudinal direction. When installed, the geometric relationship of wedges 172 and 174 relative to aperture 132 determines whether block 130 is wedged against front side 134 or rear side 136 of aperture 132. In other words, the fore-and-aft position of the upward-protruding wedge on the heel portion determines the direction in which it applies force to block 130, locking the block between the wedge and the wall of the aperture. In this example, wedge 172 of high heel portion 104 sits further forward on mounting surface 160 than wedge 174 of low heel portion 106 does on mounting surface 162. Accordingly, with shoe 100, installing high heel portion 104 will lock block 130 against rear side 136 of aperture 132. Similarly, installing low heel portion 106 will lock block 130 against front side 134 of aperture 132.

In operation, shoe 100 may be converted between two or more interchangeable heels as follows. Starting with sole portion 102 having no heel attached, upper mounting surface 160 of high heel portion 104 may be placed into engagement with heel receiver 146. Specifically, heel portion 104 may be placed at an angle such that fixed hook 148 inserts into rear hook-receiving recess 164 and engages therein. The heel portion may then be pivoted upward, such that movable hook 150 comes into contact with the upper mounting surface, forcing the movable hook to retract against spring 154 and allowing the heel portion to fully engage the heel receiver. Once fully engaged, spring 154 will force movable hook 150 to extend into front hook-receiving recess 148. This may be experienced by the user as the heel“snapping” into place. If necessary, actuator 152 may be utilized to aid in the process of retracting and/or extending movable hook 150. Furthermore, support shank 1 16 and block 130 may require manual positioning before or during full engagement of the heel portion with the heel receiver, to permit proper engagement of wedge 172 with block 130. In some examples, wedge 172 automatically positions block 130 and therefore support shank 1 16. Fig. 21 shows how the various components relate to each other when high heel portion 104 is installed on shoe 100. Reversing the process to remove high heel portion 104, actuator 152 is manipulated rearward to retract movable hook 150, permitting disengagement of the front side of the heel portion. Heel portion 104 can then be pivoted and removed from fixed hook 148, thereby removing the heel portion altogether.

Similarly, low heel portion 106 can then be installed by placing upper mounting surface 162 of low heel portion 106 into engagement with heel receiver 146. Specifically, heel portion 106 may be placed at an angle such that fixed hook 148 inserts into rear hook-receiving recess 166 and engages therein. The heel portion may then be pivoted upward, such that movable hook 150 comes into contact with the upper mounting surface, forcing the movable hook to retract against spring 154 and allowing the heel portion to fully engage the heel receiver. Once fully engaged, spring 154 will force movable hook 150 to extend into front hook-receiving recess 170. Again, if necessary, actuator 152 may be utilized to aid in the process of retracting and/or extending movable hook 150. As above, support shank 1 16 and block 130 may require manual positioning before or during full engagement of the heel portion with the heel receiver, to permit proper engagement of wedge 174 with block 130. In some examples, wedge 174 automatically positions block 130 and therefore support shank 1 16. Fig. 22 shows how various components relate to each other when low heel portion 106 is installed on shoe 100.

Although a high heel and a low heel are described in the various embodiments herein, any combination of heights, whether different or the same, may be used. For example, shoe 100 may be convertible between similar as well as different heel heights. For example, two high heels, one slightly higher than the other, may be included with sole 102, and both may include an upward-protruding wedge substantially similar to wedge 172.

C. Third Illustrative Convertible Shoe

As shown in Figs. 13, 23, and 24, this section describes an illustrative convertible shoe 200. Shoe 200 is another example of the convertible shoe described in the Overview above, having selected characteristics of shoe 1 and of shoe 100, as further described below. Fig. 13 is an overhead view of shoe 100 (see Section B), showing where an illustrative support shank may be positioned on shoe 200, which is substantially identical to shoe 100 in this view otherwise. Fig. 23 is a partial sectional view showing a low heel installed on shoe 200, and Fig. 24 is a partial sectional view showing a high heel installed on shoe 200.

In general, shoe 200 is substantially identical to shoe 100, other than with respect to the support shank and the upward protruding wedges of the heel portions. Regarding operation of the support shank, shoe 200 may be regarded as more similar to shoe 1 , in that the entirety of the support shank is longitudinally movable with respect to the sole, with its attendant advantages.

Specifically, shoe 200 includes a sole 202 and a number of interchangeable heel portions that are releasably securable to the sole (e.g., a high heel portion 204 and a low heel portion 206). As with shoe 100, shoe 200 may include an upper or any other suitable portion configured to hold a foot of the user.

Sole 202 may be unitary, but in this example includes an insole portion 212 generally layered atop an outsole portion 214. More or fewer layers may be included.

A support shank 216 is housed at least partially within a pocket or cavity 218 formed in sole 202. As with shoe 100, support shank 216 and sole 202 are at least partially movable relative to each other. In this example, the entirety of the support shank is free to slide longitudinally with respect to the sole, within limits. With reference to Fig. 13, an example of support shank 216 is depicted in a forward position C and a rearward position D.

In this example, cavity 218 is formed entirely in insole portion 212. Flowever, other suitable configurations may be utilized. For example, cavity 218 may be formed between insole 212 and outsole 214, or partially in each. In the example of shoe 200, the entire support shank is movable in a longitudinal direction within cavity 218, relative to the sole.

A block 230 is affixed to a rear end portion 224 of support shank 216, extending generally downward through an opening or aperture 232 in sole 202. Block 230 and aperture 232 are substantially identical to corresponding block 130 and aperture 132 of shoe 100. As described above, block 230 can move longitudinally from a front side 234 of the aperture to a rear side 236 of the aperture. A longitudinal dimension between front side 234 and rear side 236 may be selected to determine the limits of such movement, and thereby to determine the limits of movement of the support relative to the sole. As shown in Fig. 23, when shoe 200 is converted to a low-heel configuration, support shank 216 is shifted rearward within cavity 218, into position D. Block 230 and the heel portion interact to secure this arrangement and prevent further movement. As described further below, this interaction both repositions and secures the support with respect to the sole.

A heel attachment mechanism 244 is included in shoe 200, and is substantially identical to heel attachment mechanism 144, described above. As mentioned in Section B, one or more of the heel attachment mechanisms described in Section A may be used with shoe 200. However, in this example, heel attachment mechanism 244 includes a heel receiver 246 attached to sole 202. As described with respect to heel receiver 146, heel receiver 246 includes a fixed hook portion 248 which extends from a base 249 of the heel receiver, a movable hook portion 250 disposed opposite the fixed hook portion, and an actuator 252 configured to move the movable hook portion between a retracted position and an extended position. All of the components of heel receiver 246 are substantially identical to those of heel receiver 146, and movable hook portion 250 is again biased toward the extended, or forward, position by a coil spring 254.

Heel portions 204 and 206 each include an upper mounting surface for attaching the heel portion to the heel receiver. Each of these upper mounting surfaces is substantially similar to the upper mounting surfaces of heel portions 104 and 106, with the exception of the placement of the upward-protruding wedges. Accordingly, each heel portion includes a first (front) recess and a second (rear) recess for engaging the fixed and movable hooks of heel receiver 246. However, a wedge 272 of high heel portion 204 and a wedge 274 of low heel portion 206 are positioned differently than their corresponding components in shoe 100. Each of these wedges is again configured to penetrate aperture 232 and interface with block 230. Installing a heel portion onto the heel receiver again causes wedge 272 or 274 to abut a forward or rear face of block 230, forcing block 230 in a selected longitudinal direction. In this example, wedge 272 of high heel portion 204 sits further rearward on the mounting surface than wedge 274 of low heel portion 206 does on its mounting surface. Accordingly, with shoe 200, installing high heel portion 204 will position and lock block 230 against rear side 236 of aperture 232. Similarly, installing low heel portion 206 will position and lock block 230 against front side 234 of aperture 232. In operation, shoe 200 may be converted between two or more interchangeable heels as follows. Starting with sole portion 202 having no heel attached, the upper mounting surface of high heel portion 204 may be placed into engagement with heel receiver 246. Specifically, heel portion 204 may be placed at an angle such that fixed hook 248 inserts into the rear hook-receiving recess and engages therein. The heel portion may then be pivoted upward, such that movable hook 250 comes into contact with the upper mounting surface, forcing the movable hook to retract against spring 254 and allowing the heel portion to fully engage the heel receiver. Once fully engaged, spring 254 will force movable hook 250 to extend into the front hook-receiving recess. This may again be experienced by the user as the heel “snapping” into place. If necessary, actuator 252 may be utilized to aid in the process of retracting and/or extending movable hook 250. Furthermore, support shank 216 and block 230 may require manual positioning before or during full engagement of the heel portion with the heel receiver, to permit proper engagement of wedge 272 with block 230. In other words, the user may manually force block 230 forward in aperture 232 before installing the heel. In some examples, wedge 272 automatically positions block 230 and therefore support shank 216. Fig. 24 shows how various components relate to each other when high heel portion 204 is installed on shoe 200.

Reversing the process to remove high heel portion 204, actuator 252 is manipulated rearward to retract movable hook 250, permitting disengagement of the front side of the heel portion. Fleel portion 204 can then be pivoted and removed from fixed hook 248, thereby removing the heel portion altogether.

Similarly, low heel portion 206 can then be installed by placing the upper mounting surface of low heel portion 206 into engagement with heel receiver 246. Specifically, heel portion 206 may be placed at an angle such that fixed hook 248 inserts into the rear hook-receiving recess and engages therein. The heel portion may then be pivoted upward, such that movable hook 250 comes into contact with the upper mounting surface, forcing the movable hook to retract against spring 254 and allowing the heel portion to fully engage the heel receiver. Once fully engaged, spring 254 will force movable hook 250 to extend into the front hook-receiving recess. As above, support shank 216 and block 230 may require manual positioning before or during full engagement of the heel portion with the heel receiver, to permit proper engagement of wedge 274 with block 230. In other words, the user may manually force block 230 rearward in aperture 232 before installing the heel. In some examples, wedge 274 automatically positions block 230 and therefore support shank 216 (i.e. , into rearward position D). Fig. 23 shows how various components relate to each other when low heel portion 206 is installed on shoe 200.

D. Fourth Illustrative Convertible Shoe

As shown in Figs. 25-35, this section describes an illustrative convertible shoe 300. Shoe 300 is another example of the convertible shoe described in the Overview above. Features of shoe 300 may be combined with features of shoes 1 , 100, and/or 200, as desired.

Shoe 300 is depicted in an orthogonal view in Fig. 25, a top plan view in Fig. 26, a bottom plan view in Fig. 27, and a side view in Fig. 28. Fig. 29 depicts an exploded view of various components of shoe 300. Fig. 30 is a magnified view of a heel receiver portion of the shoe, and Figs. 31 and 32 are sectional views of two different heel portions suitable for use with shoe 300. Figs. 33 and 34 are sectional views of the assembled shoe, showing how the heel portion of Fig. 31 attaches to the heel receiver, and Fig. 35 is a partial sectional view showing a similar connection between the heel portion of Fig. 32 and the heel receiver. Although this example refers to a shoe, the features of the present disclosure can be used with any suitable article of footwear, e.g., boots, shoes, sandals, etc.

Shoe 300 includes a sole 302 and a number of interchangeable heel portions that are releasably securable to the sole. In the present example, shoe 300 includes a high heel portion 304 and a low heel portion 306, also referred to as a tall heel portion and a short heel portion, respectively. Shoe 300 may also include an upper, as described above with respect to shoe 1 , or any other suitable portion configured to hold a foot of the user. For example, shoe 300 may include a toe strap and/or a heel strap as described with respect to shoe 100.

Sole 302 includes an insole portion 312 generally layered atop an outsole portion 314. As described above, the insole and outsole may comprise any suitable materials, and may be affixed together using known methods. In some examples, however, sole 302, including both insole portion 312 and outsole portion 314, may be generated in a single process, such as via multi-material 3-D printing, in which the sole is built in an additive manufacturing process (e.g., all layers of the sole). In general, outsole portion 314 may include a tougher, less resilient material than insole portion 312, e.g., for wear-resistance. Insole portion 312 may include a softer, more resilient material, e.g., for comfort. In some examples, sole 302 may include more or fewer layers.

Straps or other components may be secured to sole 302 by one or more clamp plates. For example, as best shown in Figs. 25, 26, and 29, clamp plates 380, 382 and corresponding recessed clamp plate receivers 384, 386, may be utilized on a front (i.e. , toe) end of the sole. Likewise, clamp plates 388, 390 may be secured in corresponding receivers on a heel end of the sole. Clamp plates and receivers may further add to the stability of the layered sole by preventing lateral movement of the layers relative to each other.

In this example, insole portion 312 includes a cushioning wedge 316 disposed in a region of the insole where a user’s metatarsophalangeal (MTP) joints (i.e., the heads of the metatarsal bones) would typically exert pressure, e.g., just rearward of the toes, at the ball of the foot. Wedge 316 may comprise the softer, more resilient material of insole 312, and may be unitary with the insole portion. As depicted in this example, wedge 316 is received by a corresponding wedge receiver 318 in outsole portion 314. Wedge 316 and wedge receiver 318 are keyed together for additional security. As described above, the insole and outsole portions may be manufactured additively, e.g., in a single operation. In any event, the keying feature here includes a pair of ridges 320 on wedge 316 and corresponding pair of channels 322 in wedge receiver 318, configured to mate together and lock the wedge into the wedge receiver. Other suitable keying features may be utilized, including those amenable to 3-D printing.

A heel attachment mechanism 344 is included in shoe 300, comprising features of the heel portion as well as of the sole. Heel attachment mechanism 344 may include any suitable structure and/or device configured to releasably secure the heel portion to the sole. For example, one or more of the heel attachment mechanisms described in Section A , B, or C may be used with shoe 300. In this example, heel attachment mechanism 344 includes a heel receiver 346 attached to sole 302. Heel receiver 346 may be affixed to sole 302 using any suitable method (e.g., by an adhesive), and in this example is formed as a part of sole 302 (e.g., as a downward-extending part of outsole portion 314). Specifically, heel receiver 346 includes a fixed hook portion 348 which extends from a base 349 of the heel receiver, a movable hook portion 350 disposed opposite the fixed hook portion, and an actuator 352 configured to move the movable hook portion between a retracted position and an extended position. As shown in the drawings, a recess 332 for receiving a wedge of the heel portion (described below) extends into heel receiver 346 between fixed hook portion 348 and movable hook portion 350.

Hook portions 348 and 350 may be oriented in any direction, e.g., with the fixed hook facing forward, left, right, or rearward, and the movable hook facing in the opposite direction. Here, as in shoe 100, fixed hook portion 348 faces toward the rear, and movable hook portion 350 faces toward the front of the shoe. Movable hook portion 350 is biased toward the extended, or forward, position. Any suitable biasing device may be used (see below).

Actuator 352 is operatively connected to movable hook portion 350, such that operation (e.g., manual operation) of actuator 352 against the force of the biasing device causes the movable hook to retract. In this embodiment, actuator 352 is of a single piece with movable hook portion 350. Specifically, the combined movable hook portion 350 and actuator 352 includes a generally triangular manual handle 324, textured for enhanced grippability, as well as an elongate body 326 on which is formed a hook 328 and an integral spring member 354. Manual handle 324 is exposed on the underside of the shoe, and accessible by the user.

Body 326 has a generally planar top, configured to slide while in contact with an underside of the outsole. A rear portion of the body is received into a cavity 330 formed in heel receiver 346, such that spring member 354 is disposed in cavity 330, and is in contact with a wall of the cavity. In this example, spring member 354 includes a plurality of resilient fingers or protrusions extending generally sideways or laterally across the rear of body 326, such that distal ends of the resilient fingers are spaced from the rear of the body. In some examples, the fingers may extend vertically or diagonally, rather than horizontally / laterally. In general, any suitable number and orientation of finger extensions may be utilized, such that the resilient fingers are configured to apply a biasing force by bending or pivoting toward the body when under load and resiliently returning (automatically) when the load is released. As mentioned above, these finger extensions may be integral with the body of movable hook portion 350, e.g., being simultaneously 3-D printed as a unitary part of the movable hook portion. Actuator 352 and movable hook 350 are guided and retained against outsole portion 314 by a pair of side guides 356 and a retainer bar 358, although any suitable retainer/guide mechanism may be utilized (see section B).

Heel portions 304 and 306 each include an upper mounting surface, namely upper mounting surface 360 and upper mounting surface 362, respectively, for attaching the heel portion to the heel receiver. Each of these upper mounting surfaces includes a first recess 364, 366 configured to engage fixed hook portion 348 and a second recess 368, 370, configured to engage movable hook portion 350, such that, when the heel portion is engaged with the heel receiver, the heel portion is secured to the heel receiver when the movable hook portion is in the extended position and the heel portion is releasable from the heel receiver when the movable hook portion is in the retracted position. Recesses 364 and 366 form corresponding lips 376A, 378A of heel portion 304, and lips 376B, 378B, of heel portion 306 (see Figs. 31 and 32).

Each of upper mounting surfaces 360 and 362 further includes an upward- protruding wedge, namely wedge 372 of high heel portion 304 and wedge 374 of low heel portion 306. Each of these wedges is configured to be received snugly in recess 332 of the heel receiver. Specifically, installing a heel portion onto the heel receiver causes wedge 372 or 374 to mate with recess 332, adding further security and stability to the heel-shoe connection.

In operation, shoe 300 may be converted between two or more interchangeable heels as follows. Starting with sole portion 302 having no heel attached, upper mounting surface 360 of high heel portion 304 may be placed into engagement with heel receiver 346. Specifically, heel portion 304 may be placed at an angle such that fixed hook 348 inserts into rear hook-receiving recess 364 (i.e. , under lip 376A) and engages therein. The heel portion may then be pivoted upward, such that movable hook 350 comes into contact with the upper mounting surface (e.g., with lip 378A), forcing the movable hook to retract against spring member 354 and allowing the heel portion to fully engage the heel receiver.

Once fully engaged, spring member 354 forces movable hook 350 to extend into front hook-receiving recess 348 (i.e., under lip 376A). This may be experienced by the user as the heel“snapping” into place. If necessary, actuator 352 may be manually shifted to aid in the process of retracting and/or extending movable hook 350. Figs. 33-34 show how the various components relate to each other when high heel portion 304 is installed on shoe 300.

Reversing the process to remove high heel portion 304, actuator 352 is manipulated rearward to retract movable hook 350 against the biasing force of spring member 354, permitting disengagement of lip 376 and the front side of the heel portion. Heel portion 304 can then be pivoted and removed from fixed hook 348, thereby removing the heel portion altogether.

Similarly, low heel portion 306 can then be installed by placing upper mounting surface 362 of low heel portion 306 into engagement with heel receiver 346. Specifically, heel portion 306 may be placed at an angle such that fixed hook 348 inserts into rear hook-receiving recess 366 (i.e. , under lip 376B) and engages therein. The heel portion may then be pivoted upward, such that movable hook 350 comes into contact with the upper mounting surface (e.g., with lip 378B), forcing the movable hook to retract against spring member 354 and allowing the heel portion to fully engage the heel receiver. Once fully engaged, spring 354 forces movable hook 350 to extend into front hook-receiving recess 370 (i.e., under lip 376B). Again, if necessary, actuator 352 may be utilized to aid in the process of retracting and/or extending movable hook 350. Fig. 35 shows how various components relate to each other when low heel portion 306 is installed on shoe 300.

Although a high heel and a low heel are described in the various embodiments herein, any combination of heights, whether different or the same, may be used. For example, shoe 300 may be convertible between similar as well as different heel heights. For example, two high heels, one slightly higher than the other, may be included with sole 302.

E. Fifth Illustrative Convertible Shoe

As shown in Figs. 36-39, this section describes an illustrative convertible shoe 400. Shoe 400 is another example of the convertible shoe described in the Overview above, and may be considered a variation of shoe 300, as further described below. Fig. 36 is an exploded view of shoe 400, analogous to Fig. 29. Figs. 37 and 38 are sectional views of high and low heel portions, analogous to Figs. 31 and 32. Fig. 39 is a partial sectional view showing a high heel installed on shoe 400. In general, shoe 400 is substantially identical to shoe 300, other than with respect to the differences described below. Generally speaking, portions of the heel connection mechanism of shoe 400 are inverted as compared with shoe 300, and the sole is more conducive to injection molding.

As with shoe 300, shoe 400 includes a sole 402 and a number of interchangeable heel portions that are releasably securable to the sole. In the present example, shoe 400 includes a high heel portion 404 and a low heel portion 406, also referred to as a tall heel portion and a short heel portion, respectively. Shoe 400 may also include an upper, as described above with respect to shoe 1 , or any other suitable portion configured to hold a foot of the user. For example, shoe 400 may include a toe strap and/or a heel strap as described with respect to shoe 100.

Sole 402 includes an insole portion 412 generally layered atop an outsole portion 414. As described above, the insole and outsole may comprise any suitable materials, and may be affixed together using known methods. In this example, fixing the layers of the sole together may be facilitated by a plurality of pins or protrusions 496 on insole portion 412 configured to mate with corresponding apertures 498 formed in outsole portion 414. In general, outsole portion 414 may include a tougher, less resilient material than insole portion 412, e.g., for wear-resistance. Insole portion 412 may include a softer, more resilient material, e.g., for comfort. In some examples, sole 402 may include more or fewer layers.

Straps or other components may be secured to sole 402 by one or more clamp plates. For example, as best shown in Fig. 36, clamp plates 480, 482 and corresponding recessed clamp plate receivers 484, 486, may be utilized on a front (i.e. , toe) end of the sole. Likewise, clamp plates 488, 490 may be secured in corresponding receivers on a heel end of the sole. Clamp plates and receivers may further add to the stability of the layered sole by preventing lateral movement of the layers relative to each other.

In this example, insole portion again 412 includes an extension or enlargement in the form of a cushioning wedge 416 disposed in a region of the insole where a user’s metatarsophalangeal (MTP) joints (i.e., the heads of the metatarsal bones) would typically exert pressure. Wedge 416 may comprise the softer, more resilient material of insole 412, and may be unitary with the insole portion. As depicted in this example, wedge 416 is received by a corresponding wedge receiver 418 in outsole portion 414. Wedge 416 and wedge receiver 418 may be keyed together for additional security. Accordingly, as with shoe 300, a thicker portion of the insole extends into a recess of the outsole in a region of the sole corresponding to metatarsophalangeal joints of a user.

A heel attachment mechanism 444 is included in shoe 400, comprising features of the heel portion as well as of the sole. Heel attachment mechanism 444 may include any suitable structure and/or device configured to releasably secure the heel portion to the sole. For example, one or more of the heel attachment mechanisms described in Section A , B, C, or D may be used with shoe 400. In this example, heel attachment mechanism 444 includes a heel receiver 446 attached to sole 402. Heel receiver 446 may be affixed to sole 402 using any suitable method (e.g., by an adhesive), and in this example is formed as a part of sole 402 (e.g., as a downward-extending part of outsole portion 414).

Specifically, heel receiver 446 includes a fixed hook portion 448 which extends from a base 449 of the heel receiver, a movable hook portion 450 disposed opposite the fixed hook portion, and an actuator 452 configured to move the movable hook portion between a retracted position and an extended position. As shown in the drawings, a wedge 472 for insertion into a corresponding recess of the heel portion (described below) extends from heel receiver 446 between fixed hook portion 448 and movable hook portion 450. This is in contrast to the recess of heel receiver 346, described above.

Furthermore, in some examples (see Fig. 36) a recess 492 is formed in an upper side of outsole portion 414, e.g., to reduce material usage. Recess 492 is capped by a cover plate 494, which may comprise a same material as the outsole or any other suitable material.

As with other shoes described herein, hook portions 448 and 450 may be oriented in any direction. Here, as in shoe 100 and 300, fixed hook portion 448 faces toward the rear, and movable hook portion 450 faces toward the front of the shoe. Movable hook portion 450 is biased toward the extended, or forward, position. Any suitable biasing device may be used (see below).

Actuator 452 is operatively connected to movable hook portion 450, such that operation (e.g., manual operation) of actuator 452 against the force of the biasing device causes the movable hook to retract. In this embodiment, actuator 452 is of a single piece with movable hook portion 450. Specifically, the combined movable hook portion 450 and actuator 452 includes a generally triangular manual handle 424, textured for enhanced grippability, as well as an elongate body 426 on which is formed a hook 428 and an integral spring member 454. Manual handle 424 is exposed on the underside of the shoe, and accessible by the user.

Body 426 has a generally planar top, configured to slide while in contact with an underside of the outsole. A rear portion of the body is received into a cavity 430 formed in heel receiver 446, such that spring member 454 is disposed in cavity 430, and is in contact with a wall of the cavity. In this example, spring member 454 is substantially as described with respect to spring member 354, and therefore includes a plurality of resilient fingers or protrusions extending generally sideways or laterally across the rear of body 426, such that distal ends of the resilient fingers are spaced from the rear of the body

Actuator 452 and movable hook 450 are guided and retained against outsole portion 414 by a pair of side guides 456 and a retainer bar 458, although any suitable retainer/guide mechanism may be utilized.

Heel portions 404 and 406 each include an upper mounting surface 460, 462 for attaching the heel portion to the heel receiver. Each of these upper mounting surfaces includes a first recess 464, 466 configured to engage fixed hook portion 448 and a second recess 468, 470, configured to engage movable hook portion 450, such that, when the heel portion is engaged with the heel receiver, the heel portion is secured to the heel receiver when the movable hook portion is in the extended position and the heel portion is releasable from the heel receiver when the movable hook portion is in the retracted position. Recesses 464 and 466 form corresponding lips 476A, 478A of heel portion 404, and lips 476B, 478B, of heel portion 406 (see Figs. 41 and 42).

Each of upper mounting surfaces 460 and 462 further includes a wedge receiver 432, 434. Each of these wedge receivers is configured to snugly mate with wedge 472 of the heel receiver. Specifically, installing a heel portion onto the heel receiver causes wedge 472 to mate with recess 432 or 434, adding further security and stability to the heel-shoe connection.

In operation, shoe 400 may be converted between two or more interchangeable heels as substantially as described above, with respect to shoe 300. Fig. 39 shows how the various components relate to each other when high heel portion 404 is installed on shoe 400.

F. Illustrative Combinations and Additional Examples

This section describes additional aspects and features of convertible footwear of the present teachings, presented without limitation as a series of paragraphs, some or all of which may be alphanumerically designated for clarity and efficiency. Each of these paragraphs can be combined with one or more other paragraphs, and/or with disclosure from elsewhere in this application, in any suitable manner. Some of the paragraphs below expressly refer to and further limit other paragraphs, providing without limitation examples of some of the suitable combinations.

A0. An article of footwear comprising:

a sole including a heel receiver having a fixed hook portion, a movable hook portion disposed opposite the fixed hook portion, and an actuator configured to move the movable hook portion between a retracted position and an extended position; a first heel portion and a second heel portion, each of the first and second heel portions having a first recess configured to engage the fixed hook portion and a second recess configured to engage the movable hook portion, such that, when the heel portion is engaged with the heel receiver: (a) the heel portion is secured to the heel receiver when the movable hook portion is in the extended position, and (b) the heel portion is releasable from the heel receiver when the movable hook portion is in the retracted position;

wherein the article of footwear is transitionable between a first configuration, in which the first heel portion is secured to the heel receiver portion of the sole, and a second configuration, in which the second heel portion is secured to the heel receiver portion of the sole.

A1 . The article of footwear of A0, wherein the heel receiver further comprises a third recess between the fixed hook portion and the movable hook portion, and each of the first and second heel portions further comprises a wedge protruding from between the first recess and the second recess, such that the wedge is configured to mate with the third recess of the heel receiver.. A2. The article of footwear of A0 or A1 , wherein the first heel portion is taller than the second heel portion, such that the article of footwear comprises a higher- heeled shoe when in the first configuration as compared to the second configuration.

A3. The article of footwear according to any one of paragraphs A0 through A2, wherein the movable hook portion is biased toward the extended position.

A4. The article of footwear of A3, wherein the movable hook portion comprises a body received by an internal cavity of the heel receiver, and the movable hook portion is biased toward the extended position by a resilient member extending between the body of the movable hook portion and a wall of the cavity.

A5. The article of footwear of A4, wherein the resilient member comprises one or more resilient fingers protruding from and unitary with the movable hook portion.

A6. The article of footwear of A5, wherein the one or more fingers extend laterally across a rear face of the movable hook portion, such that distal ends of the one or more fingers are resiliently pivotable toward the body.

A7. The article of footwear according to any one of paragraphs A0 through A6, the sole further including an insole coupled to an outsole, wherein a thicker portion of the insole extends into a recess of the outsole in a region of the sole corresponding to metatarsophalangeal joints of a user.

B0. An article of footwear comprising:

a sole including a heel receiver having a fixed hook portion, a movable hook portion disposed opposite the fixed hook portion, and an actuator configured to move the movable hook portion between a retracted position and an extended position; a first heel portion and a second heel portion, each of the first and second heel portions having a first lip configured to engage the fixed hook portion and a second lip configured to engage the movable hook portion;

wherein the article of footwear is transitionable between a first configuration, in which the first heel portion is secured to the heel receiver portion of the sole, and a second configuration, in which the second heel portion is secured to the heel receiver portion of the sole.

B1 . The article of footwear of B0, wherein the heel receiver further comprises a recess between the fixed hook portion and the movable hook portion, and each of the first and second heel portions includes a wedge protruding from the respective heel portion between the first lip and the second lip, such that the recess is configured to receive the wedge.

B2. The article of footwear of BO or B1 , wherein the first heel portion is taller than the second heel portion, such that the article of footwear comprises a higher- heeled shoe when in the first configuration as compared to the second configuration.

B3. The article of footwear according to any one of paragraphs BO through B2, wherein the movable hook portion is biased toward the extended position.

B4. The article of footwear of B3, wherein the movable hook portion 4comprises a body received by an internal cavity of the heel receiver, and the movable hook portion is biased toward the extended position by a resilient member extending between the body of the movable hook portion and a wall of the cavity.

B5. The article of footwear of B4, wherein the resilient member comprises one or more resilient fingers protruding from and unitary with the movable hook portion.

B6. The article of footwear of B5, wherein the one or more fingers extend laterally across a rear face of the movable hook portion, such that distal ends of the one or more fingers are resiliently bendable toward the body.

CO. An article of footwear comprising:

a sole including a heel receiver having a fixed hook portion, a movable hook portion disposed opposite the fixed hook portion, and an actuator configured to move the movable hook portion between a retracted position and an extended position; and a first heel portion having a first upper interface configured such that, when the first heel portion is engaged with the heel receiver: (a) the first heel portion is secured to the heel receiver when the movable hook portion is in the extended position, and (b) the first heel portion is releasable from the heel receiver when the movable hook portion is in the retracted position.

C1 . The article of footwear of CO, further comprising a second heel portion having a second upper interface, wherein each of the upper interfaces comprises a first lip configured to engage the fixed hook portion and a second lip configured to engage the movable hook portion.

C2. The article of footwear of C1 , the heel receiver further comprising a wedge protruding between the fixed hook portion and the movable hook portion, each of the first and second heel portions further comprising a recess between the first lip and the second lip, wherein the recess is configured to receive the wedge. C3. The article of footwear according to any one of paragraphs CO through C2, wherein the movable hook portion is biased toward the extended position.

C4. The article of footwear of C3, wherein the movable hook portion comprises a body received by an internal cavity of the heel receiver, the movable hook portion is biased toward the extended position by a resilient member extending between the body of the movable hook portion and a wall of the cavity, and the resilient member comprises one or more resilient fingers protruding from and unitary with the movable hook portion.

C5. The article of footwear of C4, wherein the one or more fingers extend laterally across a rear face of the movable hook portion, such that distal ends of the one or more fingers are resiliently pivotable toward the body.

C6. The article of footwear according to any one of paragraphs CO through C5, wherein the fixed hook portion faces rearward and the movable hook portion faces forward.

D. The article of footwear of any paragraph in this section, wherein the insole has a shape that provides improved comfort on the areas of the user’s foot that need it the most (e.g., calcaneus bones, arch, metatarsal bones).

E. The article of footwear of any paragraph in this section, wherein the actuator protrudes from a bottom surface of the sole and has a triangular cross section that has been textured to prevent slipping. This facilitates usage by users who have long fingernails and different finger sizes.

F. The article of footwear of any paragraph in this section, wherein the insole comprises soft and flexible materials, including a wedge-shaped area by the metatarsal bones and toes, where the user bends the foot.

G. The article of footwear of any paragraph in this section, wherein the insole comprises harder and toucher materials as compared with the insole.

Advantages Features and Benefits

The different embodiments and examples of the convertible footwear described herein provide several advantages over known solutions. For example, illustrative embodiments and examples described herein allow simple and secure interchange of different-height heels. Additionally, and among other benefits, illustrative embodiments and examples described herein automatically reposition and/or secure a position of a support shank relative to the sole of the footwear as a result of replacing one heel with another.

Additionally, and among other benefits, illustrative embodiments and examples described herein allow conversion between a high heel and a low heel without the need for tools.

No known system or device can perform these functions. However, not all embodiments and examples described herein provide the same advantages or the same degree of advantage.

Conclusion

The disclosure set forth above may encompass multiple distinct examples with independent utility. Although each of these has been disclosed in its preferred form(s), the specific embodiments thereof as disclosed and illustrated herein are not to be considered in a limiting sense, because numerous variations are possible. To the extent that section headings are used within this disclosure, such headings are for organizational purposes only. The subject matter of the disclosure includes all novel and nonobvious combinations and subcombinations of the various elements, features, functions, and/or properties disclosed herein. The following claims particularly point out certain combinations and subcombinations regarded as novel and nonobvious. Other combinations and subcombinations of features, functions, elements, and/or properties may be claimed in applications claiming priority from this or a related application. Such claims, whether broader, narrower, equal, or different in scope to the original claims, also are regarded as included within the subject matter of the present disclosure.