A molding apparatus for forming a shoe component includes first and second molds. The first mold includes a first outer mold having an inner base surface and an inner peripheral surface that cooperatively define a first receiving space, and a first inner mold disposed in the first receiving space. The second mold includes a second outer mold having an inner base surface and an inner peripheral surface that cooperatively define a second receiving space, and a second inner mold disposed in the second receiving space. The first and second molds are movable toward and away from each other. The first and second inner molds cooperatively define a mold cavity.

A method includes: (a.) providing a fabric comprising a first surface and a second surface; (b.) placing the fabric on a support structure adapted to permit gas circulation through at least a portion of a surface of the support structure, wherein the fabric is placed such that the first surface of the fabric faces the surface of the support structure and such that the fabric is arranged at least in part over a raised or embossed portion of the support structure; (c.) providing at least one coating comprising a first coating surface and a second coating surface opposite the first coating surface; (d.) placing the coating at least partially on the second surface of the fabric, such that the first coating surface faces the fabric; and (e.) applying a gas pressure differential between the second coating surface and the first surface of the fabric.

Described are methods for the manufacture of a plastic component, in particular a cushioning element for sports apparel, a plastic component manufactured with such a method, for example a sole or a part of a sole for a shoe, and a shoe with such a sole. According to an aspect of the invention, a method for the manufacture of a plastic component, in particular a cushioning element for sports apparel, is provided which includes loading a mold with a first material which includes particles of an expanded material, and, during loading the mold, pre-heating the particles by supplying energy, wherein the energy is supplied in the form of at least one electromagnetic field.

Described are soles for a shoe having a region with a plurality of pellets, each pellet having a hollow core structure. The plurality of pellets are formed of a composite material comprising a base layer and an outer layer. The base layer is formed of a material having a first melting temperature, and the outer layer is formed of a material having a second melting temperature. The first melting temperature is greater than the second melting temperature, and the plurality of pellets are bonded through melting of the outer layers while the inner layers retain the hollow core structure without melting.

The present invention relates to a mold for manufacturing a sole from a plurality of particles, (FIG. 1)

Described is a mold for generating a pattern of indentations in a surface of a thermoplastic textile, including at least one subunit adapted to create at least one subpattern of the pattern, wherein the at least one subunit is at least one of exchangeable or reconfigurable. A spatial arrangement of the at least one subunit is reconfigurable within the mold.

A sole structure for articles of footwear and a method of manufacturing them comprising at least one polymeric foamed component expanded through supercritical fluid (SCF) expansion of a shaped pre-expanded polymeric material. The polymeric foamed component may include apertures situated and fashioned in the formation of the pre-expanded polymeric material to promote uniform expansion and optimal curing conditions during the SCF expansion process. At least one polymeric foamed component having one set of physical properties that may be bound to or assembled in conjunction with one or more sole components having the same or another set of physical properties.

Described are methods for the manufacture of a plastic component, in particular a cushioning element for sports apparel, a plastic component manufactured with such a method, for example a sole or a part of a sole for a shoe, and a shoe with such a sole. According to an aspect of the invention, a method for the manufacture of a plastic component, in particular a cushioning element for sports apparel, is provided which includes loading a mold with a first material which includes particles of an expanded material, and, during loading the mold, pre-heating the particles by supplying energy, wherein the energy is supplied in the form of at least one electromagnetic field.

A method of manufacturing an article of footwear includes disposing a first polymer sheet and a second polymer sheet in a mold assembly, and disposing a preformed unitary outsole in the mold assembly adjacent the second polymer sheet. The method includes closing the mold assembly to compress the first and second polymer sheets and the outsole, and thermally bonding the first and second polymer sheets to one another in the mold assembly to form a cushioning component with a chamber, a top wall, a bottom wall, a medial side wall, and a lateral side wall. A bottom portion of the outsole is thermally bonded to the bottom wall, a medial side portion of the outsole is thermally bonded to the medial side wall, and a lateral side portion of the outsole is thermally bonded to the lateral side wall.

A sole mold for manufacturing a sole from a plurality of particles includes at least one first opening for supplying the particles, and at least two second openings for supplying a gaseous and/or liquid medium to bond and/or fuse the particles together. At least a portion of the sole mold is manufactured by an additive manufacturing method.