The present invention provides a method for making a sole structure with a knitted fabric and a sole structure. The method comprises steps of: placing a thermoplastic filling material in a knitted fabric, sealing an opening of the knitted fabric, placing the knitted fabric with the opening sealed in a mold, applying a heating temperature to melt the thermoplastic filling material of the knitted fabric, and restricting a shape of the knitted fabric via the mold to make a sole structure. The sole structure includes a compressible elastomer and a knitting texture wrapped around the compressible elastomer and fused with a surface of the compressible elastomer. The compressible elastomer is formed from the thermoplastic filling material after being melted and cooled. The knitting texture is formed from the knitted fabric and is capable of being directly observed from an appearance of the sole structure.

The present invention provides a method for making a sole structure with a knitted fabric and a sole structure. The method comprises steps of: placing a thermoplastic filling material in a knitted fabric, sealing an opening of the knitted fabric, placing the knitted fabric with the opening sealed in a mold, applying a heating temperature to melt the thermoplastic filling material of the knitted fabric, and restricting a shape of the knitted fabric via the mold to make a sole structure. The sole structure includes a compressible elastomer and a knitting texture wrapped around the compressible elastomer and fused with a surface of the compressible elastomer. The compressible elastomer is formed from the thermoplastic filling material after being melted and cooled. The knitting texture is formed from the knitted fabric and is capable of being directly observed from an appearance of the sole structure.

In a method for adapting a thermally deformable item of clothing to a body part, the item is at least partially heated and brought into contact with an abutment region and the appropriate body part. The item of clothing has a side which, in the use position, is directed towards the body and a side which, in the use position, is directed away from the body. At least one pressure-exerting unit subjects that side of the item of clothing which is directed away from the body, at least in part, to a shaping pressure such that the at least partially heated item of clothing is adapted, at least in part, to the shape of the part of the body. The item of clothing is at least partially cooled by a cooling unit such that it is stabilized in the shape adapted to the part of the body.

In a method for adapting a thermally deformable item of clothing to a body part, the item is at least partially heated and brought into contact with an abutment region and the appropriate body part. The item of clothing has a side which, in the use position, is directed towards the body and a side which, in the use position, is directed away from the body. At least one pressure-exerting unit subjects that side of the item of clothing which is directed away from the body, at least in part, to a shaping pressure such that the at least partially heated item of clothing is adapted, at least in part, to the shape of the part of the body. The item of clothing is at least partially cooled by a cooling unit such that it is stabilized in the shape adapted to the part of the body.

A rubber sole thermo-molding machine includes a lower mold seat disposed on a hydraulic actuator of the machine seat. The lower mold seat ascends and descends with respect to the upper mold seat according to the hydraulic actuator, allowing the lower upper molds to close and open. The upper mold seat moves between a normal position and a tilt position according to the turning mechanism. The middle plate horizontally moves between the upper and the lower mold seats, and has a push mechanism connected with the middle frame. When the pin of the middle frame and the fasten unit on the push mechanism are separated, the middle frame is stacked on the middle plate or the lower mold to move, facilitating the cleansing and material-feeding operations. The user can cleanse the upper mold without being hindered by the middle frame, assuring the safe and smooth process.

A rubber sole thermo-molding machine includes a lower mold seat disposed on a hydraulic actuator of the machine seat. The lower mold seat ascends and descends with respect to the upper mold seat according to the hydraulic actuator, allowing the lower upper molds to close and open. The upper mold seat moves between a normal position and a tilt position according to the turning mechanism. The middle plate horizontally moves between the upper and the lower mold seats, and has a push mechanism connected with the middle frame. When the pin of the middle frame and the fasten unit on the push mechanism are separated, the middle frame is stacked on the middle plate or the lower mold to move, facilitating the cleansing and material-feeding operations. The user can cleanse the upper mold without being hindered by the middle frame, assuring the safe and smooth process.

The present invention describes a shaped footwear device intended to be used as a supportive insole or orthotic and a system and methods for making the same. The footwear device includes a top foam layer, a light-cured composite material layer, and a bottom textile layer. The footwear device is created by conforming a pre-cured insole assembly to the plantar surface of a foot or foot mold and then exposing the pre-cured insole assembly to light to create a shaped footwear device with a light-cured composite material support plate.

A method of manufacturing an article of footwear includes cutting a plurality of sipes into an outer surface of a pre-formed, foamed thermoplastic sole structure that has both an inner surface and an opposite outer surface. An adhesive is then applied to the inner surface of the pre-formed sole structure and the sole structure is heated to permit forming. The heated sole structure is positioned adjacent to a ground-facing surface of a lasted upper, and then is thermoformed against the lasted upper to draw the adhesive into contact with the ground-facing surface of the upper, and such that at least a portion of the pre-formed sole structure bends into contact with a sidewall of the upper.

A method of manufacturing an article of footwear includes cutting a plurality of sipes into an outer surface of a pre-formed, foamed thermoplastic sole structure that has both an inner surface and an opposite outer surface. An adhesive is then applied to the inner surface of the pre-formed sole structure and the sole structure is heated to permit forming. The heated sole structure is positioned adjacent to a ground-facing surface of a lasted upper, and then is thermoformed against the lasted upper to draw the adhesive into contact with the ground-facing surface of the upper, and such that at least a portion of the pre-formed sole structure bends into contact with a sidewall of the upper.

An article of footwear includes an upper coupled to a sole structure. The upper has a ground facing surface, and opposing medial and lateral sidewalls disposed on and extending from opposite medial and lateral sides of the ground facing surface. The sole structure is formed from a plurality of non-coextensive, thermoplastic foam layers, where each layer extends across a portion of the ground facing surface of the upper. These layers include at least a first foam layer and a second foam layer. The first foam layer has a different hardness and/or density than the second foam layer. Each of the first foam layer and the second foam layer extends into direct contact with, and is directly adhered to the lateral sidewall and the medial sidewall of the upper, and the first foam layer is secured to the second foam layer via an adhesive or a thermal weld.