A device configured to surround a portion of a foot-receiving cavity at a heel region of an article of footwear comprises a control bar having a center segment, a first side arm extending from the center segment, and a second side arm spaced from the first side arm and extending from the center segment. The control bar may include a series of slats. A base supports the control bar and is connected to the first side arm and the second side arm. The control bar is biased to an unstressed position with the center segment a first distance from the base, and elastically bends under an applied force to a loaded position with the center segment a second distance from the base less than the first distance. The device stores potential energy that returns the control bar to the unloaded position upon removal of the applied load.

A chamber may include a first barrier portion, a second barrier portion, a peripheral bond, an interior bond, and a fold. The first barrier portion defines a first surface of the chamber. The second barrier portion defines a second surface of the chamber, the first surface being opposite the second surface. The peripheral bond joins the first barrier portion and the second barrier portion to form an interior void within the chamber and seal a fluid within the interior void. The interior bond is spaced inward from the peripheral bond and joins the first barrier portion and the second barrier portion. Additionally, the fold is in the second barrier portion and extends away from the interior bond and through a majority of a thickness of the chamber.

A shock absorber has a first and second end surfaces opposite to each other in an axial direction, and a plurality of connection surfaces. The first end surface is an N-sided polygon (N is an integer of 3 or more and the second end surface is an M-sided polygon (M is an integer of 4 or more and more than N). (M−N) vertices are provided at intermediate positions in the axial direction on a circumferential surface defined by the plurality of connection surfaces. From the vertices, one first ridgeline reaches one vertex of the first end surface and two second ridgelines reach a corresponding one of two vertices of the second end surface. The remaining vertices are connected to each other by (2×N−M) third ridgelines. The first ridgeline, the second ridgelines, and the third ridgelines define the plurality of connection surfaces.

An active suspension orthotic support system is disclosed. The suspension orthotic support system comprises at least one variable resistance beam extending from a heel section to a mid-arch section of the footwear, wherein rotation of the variable resistance beam from a first position to a second position causes a resistance provided by the variable resistance beam to vary between a minimum resistance to a maximum resistance.

A shoe sole includes a resilient member, and has a bottom surface as a ground contact surface and a top surface. The resilient member has a three-dimensional shape formed by a wall having an outer shape defined by a pair of parallel flat or curved surfaces, and may buckle when the resilient member receives a compressive stress applied in a normal direction to the bottom surface. In the shoe sole, when a load is applied to the shoe sole in a gradually increasing manner such that a compressive stress is applied to the resilient member in the normal direction, the resilient member starts to buckle when a stress applied to the resilient member is within a range of 0.05 MPa or more and 0.55 MPa or less and a strain of the resilient member in the normal direction is within a range of 10% or more and 60% or less.

A method of manufacturing a component for a sole structure of an article of footwear includes providing a printer having a platform, a first head that receives a first feed, and a second head that receives a second feed. The method further includes printing a base layer on the platform, with the base layer comprising a substrate material and defining a longitudinal axis. Additionally, the method includes printing a first fiber layer continuously on the base layer, with the first fiber layer defining a first fiber orientation that is disposed at a first angle relative to the longitudinal axis, and printing a second fiber layer continuously on the first fiber layer, the second fiber layer defining a second fiber orientation that is disposed at a second angle relative to the longitudinal axis. The first angle is different from the second angle.

A bladder for an article of footwear extends from an anterior end to a posterior end and includes a first chamber disposed in an interior region of the bladder and a second chamber at least partially surrounding the first chamber. The first chamber includes a first interior void having a first pressure and the second chamber includes a second interior void having a second pressure. In some implementations, the second chamber includes a plurality of lobes arranged in series and each having a first end, a second end, and an intermediate portion disposed between the first end and the second end. Each lobe has a greater thickness at the intermediate portion than at the first end and the second end, such that each lobe tapers from the intermediate portion to the first end and the second end.

A footwear sole structure having a fluid-filled chamber including a tensile member is provided. The fluid-filled chamber includes a first barrier sheet, a second barrier sheet and the tensile member. The first barrier sheet is formed from a first thermoplastic material. The second barrier sheet is attached to the first barrier sheet and is formed from a second thermoplastic material. The first barrier sheet and the second barrier sheet cooperate to define an internal cavity. The tensile member is disposed within the internal cavity and is formed from a third thermoplastic material. A first weld attaches the first barrier sheet, the second barrier sheet, and the tensile member together by melding the first thermoplastic material of the first barrier sheet, the second thermoplastic material of second barrier sheet, and the third thermoplastic material of the tensile member.

An article of footwear includes an upper defining a foot-receiving cavity with a heel region, and a heel support device extending around the rear of a heel region from a lateral side to a medial side. The heel support device may include a plurality of slats and a base, the plurality of slats providing a progressive gradient of lengths and/or widths, and/or one or more pegs extending from the device for attachment to a footwear upper, and/or an elongated tip that may be disposed in a cavity of an extension of a heel collar of the upper.

A sole structure for a shoe that can secure cushioning properties and obtain a ground surface information is disclosed. The sole structure includes a first midsole having a plurality of first protrusions on a foot-sole-contact side, an outsole having a plurality of second protrusions on a ground surface side, and a second midsole disposed at a part of a region between the first midsole and the outsole and having a lower compressive rigidity than the first midsole. At least a part of the plurality of first protrusions of the first midsole is located at a position corresponding vertically to at least a part of the plurality of second protrusions of the outsole.