摘要:
Active-response golf shoes are disclosed. The golf shoes include a plurality of sensors, a controller, and at least one active-response element. The sensor and controller operate to rapidly determine if a golfer is walking or swinging a golf club. Once this determination is made the controller and active-response element rapidly change the shoe's characteristics. If the controller determines that the golfer is walking, the shoe provides a soft and flexible walking platform. If the controller determines that the golfer is swinging, the shoe morphs or changes automatically to provide a stable hitting platform. The controller senses various predetermined conditions such as pressure of the user's foot to determine whether the golfer is walking or swinging. The active-response element is a lateral adjuster having an upper bracket located in the laces area and a lower bracket affixed to the side of the sole, brackets supporting a plurality of electrostrictive polymer bands.
摘要:
A shoe comprising an upper, a midsole, and an outsole, wherein a collapsible support element is positioned in a recess proximate to a wearer's first metatarsal bone, and the collapsible support element is stiffer in a longitudinal direction and is more collapsible in a transverse direction. The collapsible support element comprises a collapsible gel pad encased in a thermoplastic urethane, or a single collapsible element having a wave configuration, or a series of collapsible wave elements. Each embodiment of the collapsible support element resists collapsing when a golfer walks but have a propensity to collapse during the golfer's swing, which allows more efficient transfer of energy during the swing. The shoe further comprises flexing channels in a forward portion as well as a flexing channel in the rear portion.
摘要:
The present invention is directed towards a golf shoe outsole that is comprised of a generally soft, and flexible base having a plurality of raised portions on the lower surface of the base, a pair of flexing supports that are placed on the lower surface of the base in an abutting relationship with the raised portions, a pair of chassis that fit over and about the base and a two-piece arch support that acts as a shank for the arch section of the base. The base has a plurality of raised portions that are of a size shape, and number to correspond and mesh together with a plurality of cleat containing pods that are molded to both chassis. The two-piece arch support allows for the necessary rigidity in the arch area of the shoe which is vital for a good golf swing.
摘要:
The present invention is further directed towards a golf shoe having an outsole comprising of forward and rear base sections that are connected and molded together with an arch support shank. The base sections are relatively soft and made from thermoplastic polyurethane having a maximum Shore A hardness of between 75 to 85. The shank is also made of thermoplastic polyurethane having a minimum hardness of at least 95 Shore A hardness. Each base section has a plurality of openings, wherein a corresponding plurality of relatively hard pods are molded, each pod of a size and configuration to fit within a corresponding opening and extend at least 6.3 mm from the bottom surfaces of the base sections. The shoe provides flexibility both across the metatarsal area and longitudinally at approximately the metatarsal area thereby providing the golfer with improved traction and balance, especially when the golfer executes a golf shot.
摘要:
The present invention is directed to a four-component releasable mounted cleat assembly for interlocking into a receptacle of an athletic shoe wherein an inner rotating component may reciprocally swivel within an outer stationary component. The outer stationary component having a plurality of rigid posts extending outward for firmly gripping turf. The inner rotating component has a plurality of resilient legs extending outward in a radial direction for rotatably gripping the turf, wherein each leg may swivel in clockwise and counter-clockwise directions about 15° in relationship to the outer stationary component. The cleat assembly has a locking component which is biasly rotated in a first direction to install it within the shoe receptacle, and a geometric construction of downwardly extending tongues causes a requirement for a greater torque remove the cleat than was necessary to install it. A connecting component passes through the entire cleat assembly and secures the rotating, stationary and locking components together into a unitary cleat assembly.