Extruded components for articles of footwear and methods of making such articles of footwear are disclosed. A carrier can be formed from a first material, the carrier including an attachment surface configured to attach to an upper and a receiving surface having a plurality of receptacles. A second material can be extruded into a plurality of the receptacles to form cushioning elements of a sole.

The present invention relates to shoe, in particular a sports shoe. The shoe includes a sole plate having in a forefoot area a plurality of leaf spring elements, wherein the sole plate and the plurality of leaf spring elements are manufactured as a single piece. Each of the plurality of leaf spring elements has one free end not connected with the sole plate.

The present invention relates to shoe, in particular a sports shoe. The shoe includes a sole plate having in a forefoot area a plurality of leaf spring elements, wherein the sole plate and the plurality of leaf spring elements are manufactured as a single piece. Each of the plurality of leaf spring elements has one free end not connected with the sole plate.

A sole structure for an article of footwear comprises a midsole including a first cushioning layer, a second cushioning layer, and a third cushioning layer. The first cushioning layer has a central portion, and a peripheral portion surrounding the central portion. The first cushioning layer, the second cushioning layer, and the third cushioning layer are stacked with the second cushioning layer directly overlying the peripheral portion of the first cushioning layer, and the third cushioning layer overlying the second cushioning layer and directly overlying the central portion of the first cushioning layer. The first cushioning layer has a domed lower surface extending away from the second cushioning layer and the third cushioning layer and substantially centered under the central portion.

A sole structure for an article of footwear can include auxetic openings and sipes. The auxetic openings and sipes may be applied in a regional manner to achieve different characteristics for the sole structure in the different regions.

An article of footwear has a sole member with an exposed central torsion bar or rod connecting the heel region of the sole member to the forefoot region of the sole member. The torsion bar or rod may be supported at either end by sockets of the sole member. The torsion bar or rod may also be supported at one or more intermediate points by a hollow component. This hollow component may itself be supported by ribs extending to the medial and lateral sides of the sole member, respectively. The torsion bar or rod, the sockets, the hollow component and the ribs form a suspension structure connecting the forefoot region of the sole member to the heel region of the sole member.

An article of footwear and method of making an article of footwear are disclosed. The article includes an outsole having an outsole member. The outsole member includes a first piece and a second piece. The first piece is spaced from a base by a first vertical distance. The second piece is spaced from the base by a second vertical distance, the first vertical distance being greater than the second vertical distance.

Soles for a shoe have a midsole with a base body and a plurality of deformation elements, and an outsole with a first outsole region and a plurality of first outsole elements. Pressure load on one first outsole element of the plurality of first outsole elements leads to a deformation of at least one of the plurality of deformation elements which are associated with the one first outsole element of the plurality of first outsole elements.

Ground-engaging components (240) for articles of footwear (200) include an upper (202)-facing surface (222S) and a ground-facing surface (248G) opposite the upper (202) facing surface (222S). At least the ground-facing surface (248G) may be formed to include a matrix structure (250), and this matrix structure (250) may include a plurality of open cells (252) (e.g., in a heel region (252H) and/or a midfoot region (252M) ) and a forefoot region (252F) including a plurality of closed forefoot support cells (252). The ground-engaging component (240) may be engaged with a midsole member (220) (e.g., including a foam midsole element (222F) and/or one or more fluid-filled bladders (222A, 222F), and this combination may form a sole structure (204) that is engaged with an upper (202) to form an article of footwear (200).

An article of footwear includes an upper, and multiple cushioning components that are attached to a ground-facing surface of the upper. The cushioning components are spaced apart from one another so that the ground-facing surface of the upper is exposed between the cushioning components and the cushioning components at least partially form a ground contact surface. At least one of the cushioning components includes a bladder element with a fluid-filled cavity. A method of manufacturing an article of footwear comprises attaching cushioning components to a ground-facing surface of an upper so that the cushioning components are spaced apart from one another, the ground-facing surface of the upper is exposed between the cushioning components, and the cushioning components at least partially form a ground contact surface, wherein at least one of the cushioning components includes a bladder element with a fluid-filled cavity.