A device configured to surround a portion of a foot-receiving cavity at a heel region of an article of footwear includes a control bar having a center segment, a medial side arm extending from the center segment, and a lateral side arm spaced from the medial side arm and extending from the center segment. The device may include an extension extending toward the control bar. At least a portion of the control bar may be elastically deformable under an applied force depressing the control bar toward the extension, and the extension may limit movement of the control bar. The control bar may be adapted to return to an unloaded position upon removal of the applied force.

A device configured to surround a portion of a foot-receiving cavity at a heel region of an article of footwear includes a control bar having a center segment, a medial side arm extending from the center segment, and a lateral side arm spaced from the medial side arm and extending from the center segment. The device may include an extension extending toward the control bar. At least a portion of the control bar may be elastically deformable under an applied force depressing the control bar toward the extension, and the extension may limit movement of the control bar. The control bar may be adapted to return to an unloaded position upon removal of the applied force.

An article of footwear can comprise: an upper, and a sole assembly connected to the upper to form a receptacle for a human foot, the sole assembly can comprise: a cushion comprising an exterior wall that forms an enclosure; an antenna disposed within the enclosure; and a microchip connected to the antenna. A method of manufacturing an article of footwear can comprise: positioning an electronic communication device between two plies of polymer laminate; heating the two plies of polymer laminate to form a weld area and a cushion area, wherein the electronic communication device becomes encapsulated between the two plies of polymer laminate, inflating the cushion area with a gas; and sealing the cushion area.

The walking device has a shoe bottom (10) with a midsole (16). A soft heel part (20) is arranged in a recess (18) of the midsole (16) and the outsole (22) has a form that is rounded convexly in the walking direction. The reinforcing element (12), forming an insole, is arranged on the upper surface (44) of the midsole (16) and fastened to it. In the production of the walking device, the upper (14) is joined to the reinforcing element (12) to form a structural unit, which is then mounted on the midsole (16), for example by adhesive bonding.

The walking device has a shoe bottom (10) with a midsole (16). A soft heel part (20) is arranged in a recess (18) of the midsole (16) and the outsole (22) has a form that is rounded convexly in the walking direction. The reinforcing element (12), forming an insole, is arranged on the upper surface (44) of the midsole (16) and fastened to it. In the production of the walking device, the upper (14) is joined to the reinforcing element (12) to form a structural unit, which is then mounted on the midsole (16), for example by adhesive bonding.

An electronically controlled bladder assembly includes an adjustable pressure bladder and a constant pressure reservoir connected by an electronically controlled valve. The electronically controlled valve is operated in a manner that inflates the adjustable bladder when the current pressure is below a target pressure and in a manner that deflates the adjustable bladder when the current pressure is above the target pressure. The inflation and deflation of the adjustable bladder are achieved in an iterative manner by controlling the flow of fluid between the constant pressure reservoir and the adjustable bladder over several cycles of heel strikes.

An electronically controlled bladder assembly includes an adjustable pressure bladder and a constant pressure reservoir connected by an electronically controlled valve. The electronically controlled valve is operated in a manner that inflates the adjustable bladder when the current pressure is below a target pressure and in a manner that deflates the adjustable bladder when the current pressure is above the target pressure. The inflation and deflation of the adjustable bladder are achieved in an iterative manner by controlling the flow of fluid between the constant pressure reservoir and the adjustable bladder over several cycles of heel strikes.

A sole structure for an article of footwear has a sole plate that may include a midfoot region, and also may include a forefoot region or a heel region. The sole plate may have a foot-facing surface with ridges extending longitudinally in the midfoot region and in the forefoot region or heel region. The sole plate may have a ground-facing surface with grooves extending longitudinally in correspondence with the ridges. A thickness of the sole plate from the foot-facing surface to the ground-facing surface may vary at a transverse cross-section of the sole plate through the ridges, or along a length of at least one of the ridges, or at both the transverse cross-section and along the length of the at least one of the ridges. The ridges may have crests at least some of which may extend non-parallel with one another in a longitudinal direction of the sole plate.

A sole structure for an article of footwear has a sole plate that may include a midfoot region, and also may include a forefoot region or a heel region. The sole plate may have a foot-facing surface with ridges extending longitudinally in the midfoot region and in the forefoot region or heel region. The sole plate may have a ground-facing surface with grooves extending longitudinally in correspondence with the ridges. A thickness of the sole plate from the foot-facing surface to the ground-facing surface may vary at a transverse cross-section of the sole plate through the ridges, or along a length of at least one of the ridges, or at both the transverse cross-section and along the length of the at least one of the ridges. The ridges may have crests at least some of which may extend non-parallel with one another in a longitudinal direction of the sole plate.

A sole structure for an article of footwear has a sole plate that may include a midfoot region, and also may include a forefoot region or a heel region. The sole plate may have a foot-facing surface with ridges extending longitudinally in the midfoot region and in the forefoot region or heel region. The sole plate may have a ground-facing surface with grooves extending longitudinally in correspondence with the ridges. A thickness of the sole plate from the foot-facing surface to the ground-facing surface may vary at a transverse cross-section of the sole plate through the ridges, or along a length of at least one of the ridges, or at both the transverse cross-section and along the length of the at least one of the ridges. The ridges may have crests at least some of which may extend non-parallel with one another in a longitudinal direction of the sole plate.