A footwear having a shock attenuating and cushioning sole is provided, including a base to which first and second wave elements are joined, each element including alternating crests and troughs. The crests are wide and can each form a ground contact surface, whereas the troughs can be narrower than the crests. Crests of one element are disposed adjacent the troughs of another element. The widths of the crests to those of the troughs can be in at least a 2:1 ratio. Forward and rearward ends of the elements are connected to the base, and the troughs intermittently join with the base to secure the elements between the ends and to impair lateral movement. Different groups of wave elements can be grouped together to form a forefoot section, a heel section and/or an arch section, with the sections separated from and compressible independent of the other sections.

The present invention regards a sole for a sport shoe, work shoe or leisure shoe including a main body having a lower layer delimiting a surface, lower during use, set to come into contact with the ground and an upper layer set to come into contact with a foot of a user or to support from the bottom, during use, an insole.

An article of footwear with a sole system includes a sole member and a protruding member assembly. The sole system provides tactile sensation. Protruding members of the protruding member assembly can translate through holes in the sole member to facilitate tactile sensation. Some embodiments can include an inner member that is configured to accommodate the movement of a protruding member. Other embodiments can include a plurality of recessed portions or nub portions formed along an outwardly facing surface of the sole member.

An article of footwear with a sole system includes a sole member and a protruding member assembly. The sole system provides tactile sensation. Protruding members of the protruding member assembly can translate through holes in the sole member to facilitate tactile sensation.

An article of footwear is provided having an elevated plate structure incorporated in the sole structure and optionally including a fluid-filled chamber. The elevated plate structure can include an upper plate and a plurality of legs extending downward toward the outsole. End portions of the legs can engage an upper region of the outsole. The elevated plate structure can form a cage region that can optionally include a fluid-filled chamber substantially disposed therein. The elevated plate structure can further include a lower plate disposed at an upper region of the outsole, which can form a lower portion of the cage region. Portions of the legs can be integrated with impact-attenuating members in the heel region in various configurations and can provide features for the impact-attenuating members, such as support, impact-attenuation and adjustable impact-attenuation features.

A constant force spring system to achieve a substantially constant force curve, includes top and bottom load surfaces separated by a load compression distance therebetween; a main spring; at least one auxiliary linear spring acting on a last portion of the load compression distance to prevent load compression; a spreading linkage acting between the top load surface and the bottom load surface to prevent load compression thereof; and link hinges connecting the links, wherein the spreading linkage.

A sole structure for an article of footwear comprises a midsole including a first cushioning layer, a second cushioning layer, and a third cushioning layer. The first cushioning layer has a central portion, and a peripheral portion surrounding the central portion. The first cushioning layer, the second cushioning layer, and the third cushioning layer are stacked with the second cushioning layer directly overlying the peripheral portion of the first cushioning layer, and the third cushioning layer overlying the second cushioning layer and directly overlying the central portion of the first cushioning layer. The first cushioning layer has a domed lower surface extending away from the second cushioning layer and the third cushioning layer and substantially centered under the central portion.

Foot support members, e.g., sole structures for articles of footwear, include dynamically transformable portions, e.g., to change a dimension and/or apply a tensile or compressive force to some portion of an article of footwear or other foot-receiving device. Such foot support members may include a flexible support member having a wave shaped portion that flexes under an applied force. Flexing of this wave shaped portion under weight of a wearer produces: (a) a change in at least one of a longitudinal or transverse dimension of the foot support member, (b) application of a compressive or tensile force to the plantar support component and/or another part of the foot support member, article of footwear, or other foot-receiving device, (c) flattening of the wave shaped portion, and/or (d) compressing the wave shaped portion together (e.g., to fold up, decrease in overall height, etc.).

An article of footwear has an upper and a compressible structure secured to the upper. The compressible structure can include one or more materials with physical properties that singly or in vertical aggregate, generally conform to those of a spring, following Hooke's Law, F=kx, whereby the ratio of k/k.sub.ideal approaches a value of 1.0, wherein the ideal k value is defined as k.sub.ideal=F.sub.impulsex.sub.s-max, for a compressible structure region located adjacent to the corresponding region of the foot that generates the force impulse.

Systems and devices are described for creating a more effective mechanical ventilation system for footwear. For example, a mechanical ventilation system can include an air reservoir that is almost as large as the entire shoe under the footwear's foot bed. In some examples, the air reservoir can be connected to an area that includes a foot of a user in the footwear. The air reservoir can be compressed using a movable part that circulates air in the footwear with every step. The movable part can be relatively small, extending into the air reservoir, and able to compress and inflate the air reservoir. Movement of the movable part can cause a large effective compressible area of the air reservoir to release fresh air near the toes of a foot to flush stale air out of the footwear.