Custom shoes for preventing diabetes, preventing diabetic foot caused by diabetic complications and easing ulcer pain of diabetic necrosis which disperse plantar pressure and prevent impact are proposed. The shoes may prevent shoes from creasing and deforming by attaching a deformation prevention frame to an external side of a sole; and increase weights of shoes by manufacturing shoes, wherein columns with which springs are embedded are formed on the bottom, an insole with massaging protrusions formed on the top of columns is attached to the top of the sole, an inner sole made of shock absorption material is attached to the top of the insole, and an upper combined to a sock lining is installed to the top of the insole.

A shoe includes a first plate and a second plate that are located in a portion of the shoe between an upper and an outsole of the shoe, and a nest formed as a bag filled with one or more gasses located between the first plate and the second plate. The shoe may further include one or more springs located in cavities in the gas filled nest for biasing the first plate and the second plate apart from each other. Pods may be located within the openings in the center of the springs, and the pods may be filled with one or more gasses. The pods may protrude from a bottom or a top surface of the nest. Spring sandwiches including one or more springs positioned between plates may be constructed and placed in various portions of a shoe. The shoe may also include piping with lights.

The disclosure relates to a foot protection device includes a pressure sensing layer, a deformation layer, and a control module. The pressure sensing layer is configured to measure pressure value between a wearer's foot and the pressure sensing layer. The control module is electrically connected with the pressure sensing layer and the deformation layer to receive a pressure values obtained by the pressure sensing layer and control thickness of each area of the deformation layer according to the pressure value.

Orthotic and prosthetic devices having integrated features such as cushioning features are described, as well as methods for computer aided designing and making of these devices. The orthotic or prosthetic devices comprise a cushioning layer superimposed onto an orthotic or prosthetic shell, the cushioning layer comprising an array (35) of discrete solid and resilient cushioning elements (31). In one preferred embodiment, the cushioning structure is a beam, defined around a centerline of any arbitrary shape. In another preferred embodiment, the cushioning structure has the shape of a spiral.

A sole structure for an article of footwear includes an impact-attenuation support member. The impact-attenuation support member includes a first impact-attenuation element and a second-impact-attenuation element. The first and second impact-attenuation elements include one or more portions that are interlinked and that are movable with respect to one another in at least one direction.

Disclosed herein are a shock-absorbing devices and shoes. In one aspect, the shoe encompasses an upper; a sole; and at least one shock-absorbing assembly, the shock-absorbing assembly including: a support frame connected to at least a portion of the upper or sole, and a plurality of shock-absorbing members having first and second opposed ends, the first ends of the shock-absorbing members being connected to a portion of the support frame. Also disclosed herein are methods for dampening an applied force to a joint during walking using the disclosed devices and shoes.

Foot support systems (and articles of footwear including them) include: (a) a medial side member having one or more medial side supports (e.g., ribs); (b) a lateral side member having one or more lateral side supports (e.g., ribs); and (c) structure (such as a hinge system) configured to move the foot support system (e.g., the medial side support(s) with respect to the lateral side support(s)) between: (a) a foot-insertion configuration and (b) a foot-containing configuration. In moving from the foot-insertion configuration to the foot-containing configuration, the foot support system can be changed between an open condition and a closed condition.

The present invention provides an anti-sprain and shock-absorbing balance sole and a footgear including the same, the anti-sprain and shock-absorbing balance sole includes an upper sole and a lower sole, a cavity is sandwiched between the upper sole and the lower sole, multiple compressible and reboundable shock-absorbing elements are embedded in the cavity. The shock-absorbing elements in the sole can buffer the impacts from the ground to the feet, and has good shock-absorbing effect. Second, the balance beams connecting the two shock-absorbing elements in each row can provide opposite roll torque when the road is uneven or the user stamps on stones. Third, the opposite roll torque above can prevent the sole from further rolling over, therefore improves the balance stability when walking. This can further effectively prevent the occurrence of spraining, and avoid sports injury during exercises.

Embodiments provide a support structure for an article of footwear, which may include upper and lower support elements, upper and lower members, a compression element disposed between the upper and lower members, and a torsion element. A vertical force applied to the upper support element compresses the compression element, rotationally displaces in a first direction the upper member relative to the lower member, rotationally displaces in the first direction a second portion of the torsion element relative to a first portion of the torsion element, deflects a torsion loading portion of the torsion element, and moves the upper member vertically toward the lower member. Upon release of the force, the torsion loading portion rotationally displaces in a second direction opposite to the first direction the second portion of the torsion element relative to the first portion. Embodiments of methods of manufacturing a support structure are also disclosed.

A kicking shoe attachment for use by the rider of a kick scooter having an elongated core with a flat upper surface with an upper sole thereupon, and an opposing curvilinear lower surface with a wear resistant lower sole disposed thereupon. Optionally a heel cup connected to a heel cup carrier plate is slidably supported in a heel cup carrier plate receiver. A latching mechanism allows securing the heel cup and carrier plate in a desired position along a major axis of the elongated core. The elongated core may be split apart horizontally and two or more springs, a block of a resilient material or a scissor jack mechanism may be placed between the portions. An opening may be placed in the upper surface of the elongated body to receive the protruding heel of typically a woman's heeled shoe or boot. A removable plug may fill the hole when unneeded.