Rapid-entry footwear having a rotating rear portion and a fulcrum

Abstract

A rapid-entry shoe having a rotating rear portion configured to be rotated around an axis of rotation and deflected at a fulcrum to create a stress in the rotating rear portion when the shoe is in a collapsed configuration to bias the shoe toward an uncollapsed configuration.

Description

FIELD

The present disclosure relates to footwear, and more particularly to rapid-entry footwear having a rotating rear portion and a fulcrum.

BACKGROUND

Whether due to inconvenience or inability, donning and doffing of shoes, including tying or otherwise securing the same, may be undesirable and/or present difficulties to some individuals. The present disclosure addresses this need.

SUMMARY

A rapid-entry shoe in accordance with example embodiments of the present disclosure comprises a sole portion, an upper, a rotating rear portion coupled to the upper at an axis of rotation, a fulcrum, and a rear stabilizer coupled to the rotating rear portion. In example embodiments, the rear stabilizer is configured to prevent inward deflection of the rotating rear portion.

In example embodiments, the rapid-entry shoe has an uncollapsed configuration and further has a collapsed configuration to facilitate donning and doffing of the rapid-entry shoe. In example embodiments, in the collapsed configuration, the rotating rear portion is rotated around the axis of rotation toward the sole portion and deflected at the fulcrum to create a stress in the rotating rear portion. In example embodiments, the rapid-entry shoe is biased by the stress toward the uncollapsed configuration.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings may provide a further understanding of example embodiments of the present disclosure and are incorporated in, and constitute a part of, this specification. In the accompanying drawings, only one rapid-entry shoe (either a left shoe or a right shoe) may be illustrated, however, it should be understood that in such instances, the illustrated shoe may be mirror-imaged so as to be the other shoe. The use of like reference numerals throughout the accompanying drawings is for convenience only, and should not be construed as implying that any of the illustrated embodiments are equivalent. The accompanying drawings are for purposes of illustration and not of limitation.

FIGS. 1A and 1B illustrate an example embodiment of a rapid-entry shoe having a fulcrum coupled to an upper, in uncollapsed and collapsed configurations, respectively.

FIGS. 2A and 2B illustrate an example embodiment of a rapid-entry shoe having a fulcrum having a curved or rounded or elongated upper edge, and being coupled to an upper, in uncollapsed and collapsed configurations, respectively.

FIGS. 3A and 3B illustrate an example embodiment of a rapid-entry shoe having a fulcrum comprising a slot or lateral flange, and being coupled to an upper, in uncollapsed and collapsed configurations, respectively.

FIGS. 3C and 3D illustrate cross sections of a fulcrum comprising a slot and a fulcrum comprising a lateral flange, respectively.

FIGS. 4A and 4B illustrate an example embodiment of a rapid-entry shoe having a fulcrum coupled to a rotating rear portion, in uncollapsed and collapsed configurations, respectively.

FIG. 4C illustrates a cross section of the embodiment illustrated in FIGS. 4A-4B.

FIGS. 5A and 5B illustrate another example embodiment of a rapid-entry shoe having a fulcrum coupled to a rotating rear portion, in uncollapsed and collapsed configurations, respectively.

FIG. 5C illustrates a cross section of the embodiment illustrated in FIGS. 5A-5B.

DETAILED DESCRIPTION

Example embodiments of the present disclosure are described in sufficient detail in this detailed description to enable persons having ordinary skill in the relevant art to practice the present disclosure, however, it should be understood that other embodiments may be realized and that mechanical and chemical changes may be made without departing from the spirit or scope of the present disclosure. Thus, this detailed description is for purposes of illustration and not of limitation.

For example, unless the context dictates otherwise, example embodiments described herein may be combined with other embodiments described herein. Similarly, references to “example embodiment,” “example embodiments” and the like indicate that the embodiment(s) described may comprise a particular feature, structure, or characteristic, but every embodiment may not necessarily comprise the particular feature, structure, or characteristic.

Moreover, such references may not necessarily refer to the same embodiment(s). Any reference to singular includes plural embodiments, and any reference to plural includes singular embodiments.

Any reference to coupled, connected, attached or the like may be temporary or permanent, removeable or not, non-integral or integral, partial or full, and may be facilitated by one or more of adhesives, stitches, hook and loop fasteners, buttons, clips, grommets, zippers and other means known in the art or hereinafter developed.

As used herein, the transitional term “comprising”, which is synonymous with “including,” “containing,” or “characterized by,” is inclusive or open-ended and does not exclude additional, unrecited elements or method steps. The transitional phrase “consisting of” excludes any element, step, or ingredient not specified in the claim. The transitional phrase “consisting essentially of” limits the scope of a claim to the specified materials or steps “and those that do not materially affect the basic and novel characteristic(s)” of the claimed invention.

No claim limitation is intended to invoke 35 U.S.C. 112(f) or pre-AIA 35 U.S.C. 112, sixth paragraph or the like unless it explicitly uses the term “means” and includes functional language.

In describing example embodiments of the rapid-entry footwear, certain directional terms may be used. By way of example, terms such as “right,” “left,” “medial,” “lateral,” “front,” “back,” “forward,” “backward,” “rearward,” “top,” “bottom,” “upper,” “lower,” “up,” “down,” and the like may be used to describe example embodiments of the rapid-entry footwear. These terms should be given meaning according to the manner in which the rapid-entry footwear is most typically designed for use, with the rapid-entry footwear on a user's foot and with the user's shod foot disposed on or ready for placement on an underlying surface. Thus, these directions may be understood relative to the rapid-entry footwear in such use. Similarly, as the rapid-entry footwear is intended primarily for use as footwear, terms such as “inner,” “inward,” “outer,” “outward,” “innermost,” “outermost,” “inside,” “outside,” and the like should be understood in reference to the rapid-entry footwear's intended use, such that inner, inward, innermost, inside, and the like signify relatively closer to the user's foot, and outer, outward, outermost, outside, and the like signify relatively farther from the user's foot when the rapid-entry footwear is being used for its intended purpose. Notwithstanding the foregoing, if the foregoing definitional guidance is contradicted by an individual use herein of any of the foregoing terms, the term should be understood and read according to the definition that gives life and meaning to the particular instance of the term.

As used herein, unless the context dictates otherwise, a “rapid-entry shoe” refers to an athleisure shoe, a casual shoe, a formal shoe, a dress shoe, a heel, a sports/athletic shoe (e.g., a tennis shoe, a golf shoe, a bowling shoe, a running shoe, a basketball shoe, a soccer shoe, a ballet shoe, etc.), a walking shoe, a sandal, a boot, or other suitable type of shoe. Additionally, a rapid-entry shoe can be sized and configured to be worn by men, women, or children.

As used herein, unless the context dictates otherwise, a “sole portion” of a rapid-entry shoe refers to an outsole or portions thereof, a midsole or portions thereof, an insole or portions thereof, a wedge or portions thereof, or other suitable structure disposed between and/or adjacent to the foregoing parts of a rapid-entry shoe, for example, an insole or an internal cushion.

With reference to the drawings, a rapid-entry shoe 100 in accordance with the present disclosure comprises a sole portion, an upper 106 coupled to the sole portion, a rotating rear portion 102 coupled to the upper 106 (e.g., at an axis of rotation), and a fulcrum 104.

In example embodiments, the rotating rear portion 102 extends between opposing sides of the rapid-entry shoe 100 (e.g., rotating rear portion 102 is v-shaped, u-shaped or horse-shoe-shaped (with consistent or inconsistent curvature as it rounds a rear portion of an upper)). In other embodiments, the rotating rear portion 102 is on a single side of the rapid-entry shoe 100 (e.g., rotating rear portion 102 is j-shaped, I-shaped).

In example embodiments, the rotating rear portion 102 is a strap, such that there is a window defined between the rotating rear portion 102 and a rear portion of the upper 106. In other embodiments, the rotating rear portion 102 is a heel cup.

In example embodiments, the rotating rear portion 102 has a perimeter greater than a perimeter of a rear portion of the upper 106 such that the rotating rear portion 102 could be rotated downward past the rear portion of the upper 106 (but for the intervention of fulcrum 104). In example embodiments, the rotating rear portion 102 has a perimeter greater than a perimeter of a rear portion of the sole portion such that the rotating rear portion 102 could be rotated downward past the rear portion of the sole portion (but for the intervention of fulcrum 104).

In example embodiments, a rapid-entry shoe 100 in accordance with the present disclosure comprises a coupling 112 between the rotating rear portion 102 and the upper 106. The coupling 112 can be fixed (e.g., and permit only resilient deformation of the rotating rear portion 102 relative to the upper 106) or the coupling 112 can permit rotational relative movement (e.g., 360 degrees, or at least until movement of the rotating rear portion 102 is prevented by the upper 106 or the sole portion) between the rotating rear portion 102 and the upper 106. In this regard, a single coupling 112 (or a pair of opposing couplings 112) can define an axis of rotation between a rotating rear portion 102 and an upper 106.

In example embodiments, the fulcrum 104 is a protrusion, extension or other structure configured to act as a pivot, deflector or stopper. In this regard, in some example embodiments, the fulcrum 104 has a hardness greater than a hardness of the rotating rear portion 102, and in other example embodiments, a topline edge of upper 106 has a hardness greater than a hardness of the fulcrum 104. In example embodiments, the fulcrum 104 is spaced apart from the coupling 112.

While the rapid-entry shoe 100 may be described herein in connection with a single fulcrum, it will be apparent to those skilled in the art that a plurality of fulcrums 104 are also contemplated (e.g., two fulcrums 104, on opposing sides of the rapid-entry shoe 100, but otherwise structurally the same).

With reference to FIGS. 1A and 1B, in example embodiments a fulcrum 104 is coupled to a lateral side of the upper 106 (i.e., and not coupled to the rotating rear portion 102) and a stress in the rotating rear portion 102 (as described below) results from a force applied against the fulcrum 104 by the rotating rear portion 102.

In some embodiments, and with reference to FIGS. 2A and 2B, the fulcrum 104 comprises a curved, rounded and/or elongated upper edge to distribute the force applied by it to the rotating rear portion 102.

In example embodiments, the fulcrum 104 has a thickness greater than a thickness of the rotating rear portion 102 at their respective contact surfaces, so as to prevent the rotating rear portion 102 from rotating beyond the fulcrum 104 (or otherwise prevent lateral motion).

In some embodiments, and with reference to FIGS. 3A and 3B, the fulcrum 104 (e.g., an upper edge of the fulcrum 104) comprises a slot 105 within which to receive (e.g., as illustrated in FIG. 3C) or lateral flange 107 with which to support (e.g., as illustrated in FIG. 3D) the rotating rear portion 102 so as to prevent the rotating rear portion 102 from rotating beyond the fulcrum 104 (or otherwise prevent lateral motion of the rotating rear portion 102). In example embodiments, the depth of the slot 105 is less than the width of the rotating rear portion 102, while in other embodiments, the depth of the slot 105 is greater than such width. In example embodiments, the height of the lateral flange 107 is less than the width of the rotating rear portion 102, while in other embodiments, the height of the lateral flange 107 is greater than such width. In example embodiments, an edge of the slot 105 or lateral flange 107 can be tapered so as to direct movement of an edge of the rotating rear portion 102 therein.

With reference to FIGS. 4A-4C, in example embodiments a fulcrum 104 is coupled to a medial side of the rotating rear portion 102 (i.e., and not coupled to the upper 106) and a stress in the rotating rear portion 102 (as described below) results a force applied against a topline edge of upper 106 by the fulcrum 104 (to which the rotating rear portion 102 is coupled). In such embodiments, fulcrum 104 may have a width greater than a width of the rotating rear portion 102.

In other embodiments, and with reference to FIG. 5A-5C, fulcrum 104 may have a width smaller than a width of the rotating rear portion 102 and be configured to contact a topline edge of upper 106 or move within a slot cut into a topline edge of upper 106.

Optionally, and in connection with any of the foregoing embodiments, a rapid-entry shoe 100 in accordance with the present disclosure can further comprise a rear stabilizer 108 coupled to the rotating rear portion 102, the rear stabilizer 108 configured to prevent inward deflection of the rotating rear portion 102.

In general, rear stabilizer 108 can be configured to direct a rear portion of an upper to compress downward and/or lean rearward (and prevent a rear portion of an upper from deflecting inward, which would reduce the perimeter of the opening of rapid-entry shoe 100). In this regard, in example embodiments, rear stabilizer 108 is configured to prevent inward deflection of the rotating rear portion when the rapid entry shoe is deformed to the collapsed configuration.

In some embodiments, the rear stabilizer 108 is v-shaped, u-shaped, horse-shoe-shaped (with consistent or inconsistent curvature as it rounds a rear portion of an upper), or otherwise has an elongated shape, and thus extends around a rear portion of an upper. Rear stabilizer 108 can be coupled to an inside or outside surface of rotating rear portion 102, or be embedded within rotating rear portion 102.

In example embodiments, rear stabilizer 108 comprises a mechanical property different from that of an adjacent rotating rear portion 102, the mechanical property being one or more of material, cross-section, thickness, geometry, twisting and density. For instance, rear stabilizer 108 can comprise a reinforced section of rotating rear portion 102. In example embodiments, rear stabilizer 108 is more rigid than adjacent rotating rear portion 102.

Without limiting the foregoing, in some embodiments rear stabilizer 108 can be comprised of a thicker or more dense section of the same material of which rotating rear portion 102 is comprised, but geometrically adjusted to provide stability to rotating rear portion 102.

Optionally, and with momentary reference back to FIGS. 2A and 2B, a rapid-entry shoe 100 in accordance with the present disclosure can further comprise a flare 111 coupled to the rotating rear portion 102, the flare 111 extending rearward and acting as a shoehorn (e.g., to direct a foot into the foot opening during entry).

In example embodiments, the rapid-entry shoe 100 disclosed herein comprises an uncollapsed configuration.

In example embodiments, the rapid-entry shoe 100 disclosed herein comprises a collapsed configuration to facilitate donning and doffing of the rapid-entry shoe 100 (e.g., a topline edge or opening for receiving a user's foot in the collapsed configuration can have a greater circumference than in the uncollapsed configuration). In accordance with example embodiments, in the collapsed configuration, the rotating rear portion is rotated around the axis of rotation toward the sole portion (e.g., by the downward force of a user's foot) and deflected at the fulcrum to create a stress in the rotating rear portion (e.g., a tensile stress adjacent an upper edge of the rotating rear portion and a compressive stress adjacent a lower edge of the rotating rear portion). In accordance with example embodiments, the rapid-entry shoe 100 is biased by the stress toward the uncollapsed configuration.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present disclosure without departing from the spirit or scope of the disclosure. Thus, it is intended that the embodiments described herein cover the modifications and variations of this disclosure provided they come within the scope of the appended claims and their equivalents.

Numerous characteristics and advantages have been set forth in the preceding description, including various alternatives together with details of the structure and function of the devices and/or methods. The disclosure is intended as illustrative only and as such is not intended to be exhaustive. It will be evident to those skilled in the art that various modifications can be made, especially in matters of structure, materials, elements, components, shape, size and arrangement of parts including combinations within the principles of the invention, to the full extent indicated by the broad, general meaning of the terms in which the appended claims are expressed. To the extent that these various modifications do not depart from the spirit and scope of the appended claims, they are intended to be encompassed therein.

Claims

1. A rapid-entry shoe comprising: a sole portion;an upper coupled to the sole portion;a rotating rear portion coupled to opposing sides of the upper through an axis of rotation;a fulcrum coupled to the upper and the fulcrum not coupled to the rotating rear portion; andwherein the rapid-entry shoe has an uncollapsed configuration;wherein the rapid-entry shoe has a collapsed configuration to facilitate donning and doffing of the rapid-entry shoe;wherein, in the collapsed configuration, the rotating rear portion is rotated around the axis of rotation toward the sole portion and deflected at the fulcrum to create a stress in the rotating rear portion;wherein the stress results from contact between the fulcrum and the rotating rear portion; andwherein the rapid-entry shoe is biased by the stress toward the uncollapsed configuration.

2. The rapid-entry shoe of claim 1, wherein the rotating rear portion is a strap.

3. The rapid-entry shoe of claim 1, wherein the fulcrum comprises one of a slot and a lateral flange to prevent the rotating rear portion from rotating beyond the fulcrum.

4. The rapid-entry shoe of claim 3, wherein the lateral flange comprises an edge that is tapered to direct movement of an edge of the rotating rear portion.

5. The rapid-entry shoe of claim 1, further comprising a u-shaped rear stabilizer coupled to the rotating rear portion, the rear stabilizer configured to prevent inward deflection of the rotating rear portion when the rapid-entry shoe is in the collapsed configuration.

6. The rapid-entry shoe of claim 1, wherein a perimeter of the rotating rear portion is greater than a perimeter of a rear portion of the upper.

7. The rapid-entry shoe of claim 6, wherein the perimeter of the rotating rear portion is greater than a perimeter of a rear portion of the sole portion.

8. The rapid-entry shoe of claim 1, wherein the fulcrum comprises a curved, rounded or elongated upper edge to evenly distribute the stress along a portion of the rotating rear portion.

9. A rapid-entry shoe comprising: a sole portion;an upper coupled to the sole portion;a rotating rear portion coupled at a coupling to opposing sides of the upper through an axis of rotation;a plurality of fulcrums coupled to opposing sides of the upper and no fulcrum of the plurality of fulcrums coupled to the rotating rear portion; andwherein the rapid-entry shoe has an uncollapsed configuration;wherein the rapid-entry shoe has a collapsed configuration to facilitate donning and doffing of the rapid-entry shoe;wherein, in the collapsed configuration, the rotating rear portion is rotated around the axis of rotation toward the sole portion and deflected by at least one fulcrum of the plurality of fulcrums to create a stress in the rotating rear portion;wherein the stress results from contact between the at least one fulcrum of the plurality of fulcrums and the rotating rear portion; andwherein the rapid-entry shoe is biased by the stress toward the uncollapsed configuration.

10. The rapid-entry shoe of claim 9, wherein the coupling permits rotational relative movement between the rotating rear portion and the upper.

11. The rapid-entry shoe of claim 9, wherein at least one fulcrum of the plurality of fulcrums comprises one of a slot and a lateral flange to prevent the rotating rear portion from rotating beyond the at least one fulcrum of the plurality of fulcrums.

12. The rapid-entry shoe of claim 11, wherein the lateral flange comprises an edge that is tapered to direct movement of an edge of the rotating rear portion.

13. The rapid-entry shoe of claim 9, further comprising a u-shaped rear stabilizer coupled to the rotating rear portion, the rear stabilizer configured to prevent inward deflection of the rotating rear portion when the rapid-entry shoe is in the collapsed configuration.

14. The rapid-entry shoe of claim 9, wherein a perimeter of the rotating rear portion is greater than a perimeter of a rear portion of the upper.

15. The rapid-entry shoe of claim 14, wherein the perimeter of the rotating rear portion is greater than a perimeter of a rear portion of the sole portion.

16. The rapid-entry shoe of claim 9, wherein at least one fulcrum of the plurality of fulcrums comprises a curved, rounded or elongated upper edge to evenly distribute the stress along a portion of the rotating rear portion.