The present invention relates to the field of apparel and more specifically to the field of footwear.
Dancing shoes have generally been considered to be a separate, specialized category of footwear. One does not dance in general shoes, and one does not wear dancing shoes except when dancing. The moves required for dancing necessitate that a dance shoe has specific characteristics. Many of these characteristics are undesirable for general footwear, such as smooth surfaces for sliding. Furthermore, dance shoes worn on non-dance occasions have a tendency to ruin the characteristics of the dance shoes that make them effective at dancing. There has not been an acceptable attempt to merge dance shoes and general shoes.
Therefore, there is a need for a shoe that can be worn while dancing and generally, while achieving the goals of both footwear.
The present invention is directed to a shoe sole able to be worn as an everyday article of footwear and as an improved dance shoe. The sole includes a foot pad portion, an interstitial portion, and a heel portion. The distal sole base pad portion has several elements, including a major contact platform for controlled stops, a circular spinner platform for spinning dance motions along with radiating arc platforms for additional spin control, pad platforms for general use, a series of recession platforms that provide support for the receding, proximal end of the pad portion. The interstitial portion lacks significant protrusions and is elevated above the heel and pad portions. The heel portion includes an inclining heel peripheral platform circumscribing a substantially circular heel contact platform as well as an inclining central incline platform.
Therefore, there is a need for a sole that provides improved control in dance moves.
Furthermore, there is a need for a sole having improved wear patterns that do not fail over time.
Furthermore, there is a need for a sole having improved construction and comfort.
Furthermore, there is a need for a sole having improved construction able to withstand daily wear.
Furthermore, there is a need for a sole having reduced need to change shoes for dancing.
These aspects of the invention are not meant to be exclusive. Furthermore, some features may apply to certain versions of the invention, but not others. Other features, aspects, and advantages of the present invention will be readily apparent to those of ordinary skill in the art when read in conjunction with the following description, and accompanying drawings.
Referring first to
The shoe sole 100 includes three portions, a foot pad portion 106, an interstitial portion 107, and a foot heel portion 108. These different portions of a shoe sole have specialized purposes both in general footwear and dance footwear.
Turning now to
The major contact platform 110 is a substantially uninterrupted portion of the sole base 102 that protrudes at an approximately equal distance as the pad platforms 120. The major contact platform 110 includes a sinusoidal shape that conforms to the general curvature of the foot at the distal end of the sole. For purposes of the present disclosure, proximal includes those areas of the foot/sole closest to the ankle of the human body whereas distal includes those areas of the foot/sole farthest from the ankle. The sinusoidal shape is biased such that a uniform curve is not formed, but rather, the curve points in the direction of the interior of the human body, i.e., the area between the feet of a user. It is preferred that the contact platforms 110, 112 are unitary, and that the major contact platform 110 be uninterrupted by either lateral or longitudinal pad channels 182. Longitudinal and lateral pad channels provide flexibility and control, while the uninterrupted structure of platforms 110 and 112 produces gripping effect. In general, longitudinal channels allow for air flow for better motion of the foot, while lateral/traverse channels diminish resistance to bending and make for a very flexible sole.
The major contact platform may protrude from one lateral portion of the sole to the other lateral portion of the sole and occupies that space between the toe mounds of the foot and the tips of the toes. With reference to
The elevation of the major contact platform permits the platform with a high coefficient of friction to be placed on a shoe and used only in situations requiring grippy surfaces. The grip of the contact platform should be significantly greater than the coefficient of friction of the pad platforms 120. The preferred gripping nature of the contact platform 110 is created by the use of an overlaid material or surface protrusions/perforations that create a high coefficient of friction. Preferred materials for use with the major contact platform include polyurethane and similar polymers. Polyurethane is light but highly abrasion-resistant and is excellent for hard-wearing shoe soles, with excellent long-term mechanical properties. Polyurethane soles are practical and keep water out, while permitting wide design potential. The sole may include preferred thickness of 3.0 mm as designed for daily wear and dance wear. The sole 100 may also feature a centralized supplement contact platform 112 distinct from the ultimately distal (i.e., farthest point) major contact platform and proximally located thereto. The supplemental contact platform 112 may be positioned between pad platforms, and preferably is so, and shares the lateral channeling, but not longitudinal channeling, characteristics therewith. The supplemental contact platform may be positioned on the portion of the sole that is in frequent common contact with the ground to enhance the grippiness of the sole, which is otherwise not provided by the pad platforms. The pad platforms are preferably perfectly smooth.
The pad platforms 120 additionally engulf another element of the sole 100, the pad spinner platform group 140. The pad spinner platform group 140 serves the purpose of permitting spin moves to be performed by the shoe bearing the sole 100. The group 140 includes two portions, a spinner center platform 142 and arcuate spinner secondary arc platforms 144 (144a, 144b, 144c) radiating therefrom. The spinner center platform 142 includes a substantially circular platform, in that it is either a circle or highly-rounded geometric figure, positioned proximate to the big toe mound to permit a dancer to spin without contacting a pad channel in ideal circumstances. However, because only experienced dancers can spin purely on the big toe mound, the radiating secondary arc platforms 144a, 144b, 144c provide additional support in the form of platforms that allow a largely unbroken pathway for the spinning of the sole about the center platform 142. Depending on the skill of a dancer, the dancer may invoke a one, two, or three layers or arc secondary platforms 144a-c. However, the purpose of channeling the protrusions of a sole are to permit shoe/sole flexibility. Although the inclusion of a limited area of unbroken protrusion, here the center spinner 142, may be appropriate, the arc secondary platforms 144 need some manner of separation. Channeling separate layers 144 laterally and longitudinally from the center spinner 142 and each other (144a, 144b, and 144c) so that the secondary arc platforms 144 appear similar to pad platforms 120, but with a portional circular orientation. Although it is preferred that they are not, if the secondary arc platforms 144 were joined, it is preferred that they would form a complete circle because there is symmetry throughout the circular portions. The texture of the spinner platform group is smooth with a relatively low coefficient of friction. It is preferred that the spinner group 140 be entirely engulfed by pad protrusions 120. Special pad protrusions 128 having dimensions and orientations that complement the circular spinner group platforms 140 are used to directly surround the spinner group 140 that allow substantial contact of the foot's edge to occur on the sole other than the spinner group 140.
Proximal to the pad platforms 120 and spinner platform group 140 are the recession platforms 130. The recession platforms 130 are preferably relatively smooth, non-grippy protrusions that run entirely laterally across the sole 100 to permit support for that portion of the sole that elevates upward in the proximate direction. The pad platforms may be completed with a recession platform supplement 132 that forms a sinusoidal shape biased to the distal, exterior inner portion of the feet.
Subsequent to the foot pad 106 is the interstitial pad 107. The interstitial pad 107 includes a transition plane that is free from protrusions because the sole of the present invention lacks a need for ground support in this area. In a preferred embodiment, there is a transition plane 180 that is unfettered with protrusions until the heel portion 108.
Turning now to
Although the present invention has been described in considerable detail with reference to certain preferred versions thereof, other versions would be readily apparent to those of ordinary skill in the art. Therefore, the spirit and scope of the appended claims should not be limited to the description of the preferred versions contained herein. However, because the preferred form of the present invention is depicted in the drawings of the present disclosure, a scale is provided that permits accurate relationships to be drawn between sole components.
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