A flexible shoe includes an under sole, a foot bed, a first over-foot portion, and a second over-foot portion. The under sole is formed of ballistic nylon. The foot bed is arranged on an upper surface of the under sole. The first over-foot portion is attached to the under sole and is configured to flexibly overly an instep of a foot of a user forward of an ankle of the user. The second over-foot portion is configured to flexibly wrap around a heel of the user rearward of the ankle of the user. The under sole, the first over-foot portion, and the second over-foot portion define a cavity configured to enclose the foot of the user. The foot bed is positioned entirely within the cavity.

An article of footwear with a dynamic support system that controls arrays of tiles in the upper of the footwear to adjust the level of support provided in different regions of the upper. Sensors in the sole of the footwear, in the upper of the footwear and/or in an article worn by the wearer of the footwear measure the level of stress or other characteristics and provide input to one or more microprocessors that control motors located in the sole or in the upper of the footwear. When the motors are activated, they may compress or loosen arrays of tiles to adjust the stiffness of the upper in one or more regions of the upper.

Disclosed herein is a process for making a shoe using a stand-alone mouldable nonwoven fabric which has the ability of self-sustaining and shape maintenance and which is heated to become softened till molten. In the process of the invention, the shoe parts are moulded by a compression moulding process and the moulded parts are then heated and welded together by a plastic welding method.

A method for manufacturing a three-dimensional (3D) footwear product may be provided. The method may include obtaining foot feature data. The foot feature data may include a size of a foot. The method may also include constructing a planar model of the 3D footwear product based on the foot feature data. The planar model may include a body region and a connection structure connected to the body region. The method may further include printing a planar product of the 3D footwear product using a 3D printing method based on the planar model.

An article of apparel includes a first layer and a second layer. The first layer includes a four way stretch material. The second layer, coupled to the first layer, includes an auxetic layer.

An engineered therapeutic footwear for correcting a biomechanical misalignment and provide proper foot alignment. The therapeutic footwear comes with a built in GPS tracking system. The corrective footwear improves biomechanical foot issues by an inner molded brace that provides medial and lateral support, with internal metal frame support incorporated into the molded brace. The built in GPS is utilized to track the location of a child with/without disabilities and physical activity.

Foot support systems (and articles of footwear including them) include a midfoot flex component, such as a bi-stable spring element, that moves the article of footwear/sole structure/ foot support component/midfoot flex component between an open position/foot insertion or removal configuration and a closed position/foot supporting configuration and vice versa.

In one aspect, the present disclosure provides a knitted component. The knitted component may have a forefoot portion with a top layer and a bottom layer, where a void is formed between the top layer and the bottom layer, and where the top layer is secured to the bottom layer via at least one common knit structure. A heel area may extend from the bottom layer of the forefoot portion in a longitudinal direction and may be secured to the bottom layer of the forefoot portion via at least one common knit structure. At least one extension may extend from the heel area in a second direction, the second direction being different than the longitudinal direction.

A running shoe includes medial and lateral eyelets arranged on the medial and lateral side in the longitudinal direction from the front foot area of the running shoe to the heel section, wherein in each case a medial eyelet and a lateral eyelet located at the same height in the longitudinal direction form an eyelet pair; reinforcing ribs are arranged on the medial and lateral side in the front foot area, wherein the reinforcing ribs are arranged at an acute rib angle to the longitudinal direction of the running shoe, and a lace having lace sections for lacing, wherein the lace is led through the eyelets in such a way that the lace sections extending from the eyelets of the first lace pair in relation to the front foot area, each run at an acute lacing angle to the longitudinal direction to at least one further eyelet closer to the heel section.

Footwear includes one or more of: (a) an upper portion at least partially defining a foot-receiving chamber; (b) a track component integrally formed or engaged with the upper portion; (c) a heel engaging component movable with respect to the upper portion via the track component between a closed configuration and an open configuration; (d) a locking system, e.g., holding the heel engaging component in the closed configuration; (e) a biasing system, e.g., applying force to the heel engaging component toward the open configuration; (f) a stop system, e.g., keeping the heel engaging component from completely disengaging from the track component; and/or (g) a sole structure. When the footwear is supported upright on a horizontal surface, the heel engaging component may move rearward (and in some examples upward) via the track component when changing from the closed to the open configuration.