A device for a shoe that allows converting a utility of a shoe from a normal sports shoe to a specialized shoe having high traction on ground, such as the shoes for golf, soccer, baseball, softball, football, tracking, and hiking. The device includes a front member and a rear member, both include spaced apart spikes. The front member and the rear member can be applied to an exposed surface of a sole of a shoe.

A device for a shoe that allows converting a utility of a shoe from a normal sports shoe to a specialized shoe having high traction on ground, such as the shoes for golf, soccer, baseball, softball, football, tracking, and hiking. The device includes a front member and a rear member, both include spaced apart spikes. The front member and the rear member can be applied to an exposed surface of a sole of a shoe.

An athletic shoe with a legging sleeve connected thereto. The athletic shoe may take any of a variety of high-performance shoes known in the art, such as tennis shoes, basketball shoes, and the like. The legging sleeve component is integrally connected as part of the shoe and is extensible over the calf, knees and thigh of the wearer and operative to form a compressive fit thereabout. Integrated as part of such legging sleeve may include pockets, channels and pouches for receiving brace structures, support devices, protective coverings and a variety of other implements to facilitate movement, support and promote proper form when playing sports. Such device may further include integration with sensors so as to monitor physical activity, or measurement of a variety of other physiological parameters for use in a variety of applications.

An athletic shoe with a legging sleeve connected thereto. The athletic shoe may take any of a variety of high-performance shoes known in the art, such as tennis shoes, basketball shoes, and the like. The legging sleeve component is integrally connected as part of the shoe and is extensible over the calf, knees and thigh of the wearer and operative to form a compressive fit thereabout. Integrated as part of such legging sleeve may include pockets, channels and pouches for receiving brace structures, support devices, protective coverings and a variety of other implements to facilitate movement, support and promote proper form when playing sports. Such device may further include integration with sensors so as to monitor physical activity, or measurement of a variety of other physiological parameters for use in a variety of applications.

A sole structure may include chambers and a transfer channel containing an electrorheological fluid. Electrodes may be positioned to create, in response to a voltage across the electrodes, an electrical field in at least a portion of the electrorheological fluid in the transfer channel. The sole structure may further include a controller including a processor and memory. At least one of the processor and memory may store instructions executable by the processor to perform operations that include maintaining the voltage across the electrodes at one or more flow-inhibiting levels at which flow of the electrorheological fluid the through the transfer channel is blocked, and that further include maintaining the voltage across the electrodes at one or more flow-enabling levels permitting flow of the electrorheological fluid through the transfer channel.

An article of footwear includes a sole structure, an upper, a slotted eyelet, an opening, and a tensile strand. The upper is coupled to the sole structure and has a medial portion and a lateral portion. The slotted eyelet is formed in the medial portion or the lateral portion and has a major axis and a minor axis. A length of the slotted eyelet along the major axis is larger than a width of the slotted eyelet along the minor axis. The opening is formed in the medial portion or the lateral portion, and the opening is spaced apart from the slotted eyelet. The tensile strand has a first portion and a second portion. The first portion extends through the opening and defines an aperture adjacent the slotted eyelet, and the second portion extends from the first portion toward the sole structure.

A shoe sole including an outsole 2 and a midsole 1, wherein: the midsole 1 includes a lower midsole 4 of a lower layer formed by a foamed body of a resin, and an upper midsole 3 of an upper layer formed by a foamed body of a resin and arranged on the lower midsole 4; a lateral roll-up portion 42 for supporting a lateral side of a foot from a side of the foot is formed integrally with the lower midsole 4; a hardness of a lateral portion 40 of the lower midsole 4 including the lateral roll-up portion 42 is a first hardness; a hardness of a medial portion 41 of the lower midsole 4 is a second hardness lower than the first hardness; a hardness of a lateral portion 30 of the upper midsole 3 is a third hardness lower than the first hardness; and a part or a whole of the high-hardness lateral roll-up portion 42 is protruding in an upward direction past the upper midsole 3 on a lateral side of the upper midsole 3 so that the lateral side of the foot is supported by the lateral roll-up portion 42 from the side of the foot without being supported by the upper midsole 3 from the side of the foot.

A shoe sole including an outsole 2 and a midsole 1, wherein: the midsole 1 includes a lower midsole 4 of a lower layer formed by a foamed body of a resin, and an upper midsole 3 of an upper layer formed by a foamed body of a resin and arranged on the lower midsole 4; a lateral roll-up portion 42 for supporting a lateral side of a foot from a side of the foot is formed integrally with the lower midsole 4; a hardness of a lateral portion 40 of the lower midsole 4 including the lateral roll-up portion 42 is a first hardness; a hardness of a medial portion 41 of the lower midsole 4 is a second hardness lower than the first hardness; a hardness of a lateral portion 30 of the upper midsole 3 is a third hardness lower than the first hardness; and a part or a whole of the high-hardness lateral roll-up portion 42 is protruding in an upward direction past the upper midsole 3 on a lateral side of the upper midsole 3 so that the lateral side of the foot is supported by the lateral roll-up portion 42 from the side of the foot without being supported by the upper midsole 3 from the side of the foot.

A shoe support structure comprising a hard rubber-like material and a gel material. The rubber-like material is constructed so that it has a change in thickness beginning at the arch, where it slopes down, leveling out at a thickness of about 1¼ inches. This change in thickness creates a frontal recess, leaving a bead of rubber at the outer edge. This cavity holds a thick cushion of about 1¾ inches of highly viscous gel material held in place by the rubber lip and adhered to the elastic material. This creates a cushion when the foot applies weight. The front of the sole and the back of the heel are equal in height, giving the entire surface equal height planes for balance. The two materials are one rubber like, one gel like and slope toward each other at the arch in identical angles.

A shoe support structure comprising a hard rubber-like material and a gel material. The rubber-like material is constructed so that it has a change in thickness beginning at the arch, where it slopes down, leveling out at a thickness of about 1¼ inches. This change in thickness creates a frontal recess, leaving a bead of rubber at the outer edge. This cavity holds a thick cushion of about 1¾ inches of highly viscous gel material held in place by the rubber lip and adhered to the elastic material. This creates a cushion when the foot applies weight. The front of the sole and the back of the heel are equal in height, giving the entire surface equal height planes for balance. The two materials are one rubber like, one gel like and slope toward each other at the arch in identical angles.