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.

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.

Aspects hereof relate to a multi-part mold assembly for use in manufacturing articles. The mold assembly provides for contouring, shaping and cutting materials to form articles via a continuous single processing operation. The mold assembly includes an upper mold portion with a three-dimensional contouring/shaping portion and a first cutting edge, a lower mold portion with a three-dimensional contouring/shaping portion and a second cutting edge, and a base portion into which the lower mold portion may retract during use. Upon application of a first force, the upper and lower mold portions cooperate to contour/shape a material from which an article is to be formed. Upon application of a second force greater than the first, the first cutting edge and the second cutting edge interact to shear the material that extends beyond the respective cutting edges. The result is an article that is contoured, shaped and cut/trimmed utilizing a single processing operation.

A mold device includes a lower mold seat, a lower die core assembly mounted to the lower mold seat and including a lower die core unit defining a mold cavity, an upper mold seat, and an upper die core assembly mounted to the upper mold seat and including an upper die core unit covering the mold cavity. The lower die core unit includes an internal loop for a cooled gas to flow therethrough, and is made of a first porous material so as to allow the cooled gas to flow out of the lower die core unit. The upper die core unit includes an upper die core passage for the cooled gas to flow therethrough, and is made of a second porous material so as to allow the cooled gas to flow out of the upper die core unit.

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.

A process for fabricating shoes having an outer cork sole insert includes processing raw cork into sheets of predetermined thickness, adhering a thin fabric sheet to one side of the intermediate cork sheets, cutting out cork/fabric sole inserts and placing them into an injection mold, and cycling the plastic injection mold so as to form a cork insert into the plastic sole.

An apparatus for molding articles includes a first mold carrier configured to angularly displace relative to a fixed structure from a first molding position to first accessing position and a second mold carrier traveling with the first mold carrier and configured to angularly displace relative to the first mold carrier from a second molding position to a second accessing position. The first mold carrier may be pivotably coupled to the fixed structure; the second mold carrier may be slidably and rotatably coupled to the first mold carrier. A third mold carrier may be provided, and the second mold carrier may be located between the first and third mold carriers. An articulation mechanism may be provided to control relative motion of the second mold carrier relative to the first mold carrier as the first mold carrier pivots relative to the fixed structure. A method for molding articles is also provided.

A mold system, mold opening apparatus, and method. The mold opening apparatus can include a mold carrier member, a vertical movement mechanism, a rotational movement mechanism, and one or more mold engagement mechanisms.

A molding system for direct injection manufacturing of footwear. The molding system includes a mold cavity for receiving injection material for molding a sole part of the footwear. The system further includes a plurality of basic direct injection molds, each of which is attachable to injection molding equipment, and a plurality of sets of direct injection mold inserts, each set of direct injection mold inserts being configured to define at least part of an inner surface of the mold cavity when inserted in one of the plurality of basic direct injection molds. At least two of the plurality of basic direct injection molds differ from each other in size, corresponding to different ranges of sole part sizes.