The present invention is related to a shoe, the shoe including: a first outsole comprising a bottom portion which contacts the ground, and a plurality of first protruding portions each of which has a dome shape and protrudes upward from the bottom portion, and a second outsole comprising a support portion disposed on the bottom portion, and a plurality of second protruding portions each of which has a dome shape and protrudes downward from the support portion. Protruding end portions of the plurality of second protruding portions are bonded to protruding end portions of the plurality of first protruding portions, respectively.

Provided is a shoe sole having a structure in which a polyhedral hollow cell made of a synthetic resin, configured as a polyhedron, and having an empty space formed therein is bonded with other polyhedral hollow cells by a hot melt adhesive part, wherein the hot melt adhesive part is provided between the multiple polyhedral hollow cells so that no voids are formed therebetween, and a plane structure of the polyhedral hollow cells bonded with each other has a shape of a human sole.

Disclosed are a shock absorption and ventilation enhanced shoe sole and a preparation method therefor. The shoe sole comprises a body. At least one layer of communication-type air passage is provided in the body, and a plurality of first air holes provided in the circumferential side face of the body and a plurality of second air holes provided in the upper surface of the body cooperate, so that air intake and deflation for heat exhaust can be alternately achieved in the process of alternately lifting a foot and treading of a user, thereby preventing heat from accumulating on the foot sole, being beneficial to foot health, reducing foot perspiration, and helping slow down heart rate acceleration; and in addition, the shoe sole can achieve the functions of shock absorption, buffering, ventilation and power assistance, so that the shoe sole is more comfortable to wear.

Ground-engaging components for articles of footwear include an outer perimeter boundary rim that at least partially defines an outer perimeter of the ground-engaging component, wherein the outer perimeter boundary rim defines an upper-facing surface and an opposite ground-facing surface. The outer perimeter boundary rim defines an open space at least at a forefoot support area of the ground-engaging component. A matrix structure extends from the outer perimeter boundary rim (e.g., the ground-facing surface and/or the upper-facing surface) and across the open space at least at the forefoot support area to define an open cellular construction with plural open cells across the open space at least at the forefoot support area. The matrix structure defines one or more sets of adjacent open cells, the set(s) including at least three open cells that are substantially aligned in the forefoot support area along a line extending in a forward medial-to-rear lateral direction.

An upper for an article of footwear may include a knitted component having an auxetic portion. The auxetic portion may be configured to move between a first position and a second position as the knitted component stretches. The knitted component may also include a tensile strand inlaid within at least one of a course and a wale of the knit element, where the tensile strand extends through the auxetic portion, and where the tensile strand is selectively securable to the knit element via a securement device. The securement device may be spaced from the auxetic portion.

A device for use in a shoe includes a first foot, a second foot, a third foot, a fourth foot, a first flexible leg, a second flexible leg, a third flexible leg, and a fourth flexible leg. The first flexible leg extends from the first foot and is curved. The second flexible leg extends from the second foot and is curved. The third flexible leg extends from the third foot and is curved. The fourth flexible leg extends from the fourth foot and is curved. The first flexible leg, second flexible leg, third flexible leg, and fourth flexible leg are joined together with each other at a common area. The first flexible leg, second flexible leg, third flexible leg, and fourth flexible leg are configured to store energy when a force is applied to the common area, and to return energy when the force is removed from the common area.

A method for manufacturing a sole assembly of an article of footwear includes injecting a first material into a first mold to forming a first component. A second material is injected into a second mold to form a second component in the second mold. The first component is formed from a first material and includes a first plurality of channel elements. The second component is formed from a second material and includes a second plurality of channel elements. Each of the first plurality of channel elements is aligned with a corresponding one of the second plurality of channel elements, and the first component is secured to the second component to form an initial sole assembly.

An example article of footwear includes a forward midsole component, a rearward midsole component, and a bridge component mated with an outsole side of the forward midsole component and an outsole side of the rearward midsole component to permanently attach the forward midsole component and the rearward midsole component to form a midsole of the article of footwear.

An article of footwear includes an upper and a sole structure coupled with the upper. The sole includes an upper plate that is configured to couple with the upper and a lower plate that is spaced from and pivotably coupled with the upper by a beam. The beam is oriented along a heel-to-toe direction of the article of footwear and is configured to provide a resistive moment to control the rotation between the upper plate and the lower plate. The sole structure further includes a midsole that is configured to surround at least a portion of the beam and to extend between the upper plate and the lower plate to provide a force that resists the rotation between the upper plate and the lower plate.

An article of footwear has a tubular structure. The tubular structure may include tab portions that extend away from a tunnel portion of the tubular structure. The tab portions may engage parts of the article of footwear. The tab portions may engage an upper or sole structure along a bite line. The tab portions may be attached to a heel counter, eyestay, or other structure on the article of footwear.