An embroidered vamp process includes the following steps: (1) designing a vamp manufacture drawing by a computer; (2) according to the design drawing of step (1), cutting different pieces of cloth into base fabric of the vamp and a splice component of the vamp respectively by a laser; (3) typesetting the splice component cut in step (2) on the base fabric, then embroidering the splice component on the base fabric according to an embroidery thread pattern of the drawing by an embroidery machine; (4) cutting out the redundant base fabric of the vamp along the edge the splice component by, once again, the laser, forming the vamp of the finished product shoe model. An embroidered vamp comprises a vamp body, said vamp body comprising the base fabric and the splice component, said splice component being embroidered on the surface of base fabric by embroidery thread.

An article of footwear may include a padding on an interior of a foot opening or another cushioning element in a first area. The cushioning element may include a UV curable material. A second area (e.g., of an upper) may be affixed with the first area and may include a second UV curable material.

A skate boot having a shell shaped to enclose a heel, portions of an Achilles tendon, and medial and lateral surfaces of a foot of a wearer of the skate boot when the skate is in use by the wearer, a toe cap connected to the shell and shaped to cover the toes of the wearer when the skate is in use by the wearer, a tongue connected to at least one of the shell and the toe cap, the tongue being shaped to cover at least a portion of a forefoot of the wearer when the skate is in use by the wearer, and a ground-engaging element connected to a bottom of the skate boot. The tongue has at least one exposed structural molded foam body, and a plurality of apertures defined within the at least one exposed structural molded foam body.

An article of footwear and a method of manufacturing the article of footwear are disclosed. The footwear may include an upper and a sole structure. The upper incorporates a textile element with edges that are joined together to define at least a portion of a void for receiving a foot. Various warp or weft knitting processes, including circular knitting, may be utilized to form the textile element.

An article of footwear and a method of manufacturing the article of footwear are disclosed. The footwear may include an upper and a sole structure. The upper incorporates a textile element with edges that are joined together to define at least a portion of a void for receiving a foot. Various warp or weft knitting processes, including flat knitting, may be utilized to form the textile element.

A bonded mesh composite panel can be used to form a three-dimensional upper shell that includes extensions used for double-lasting and/or to otherwise provide a shelf to support foam padding. The foam padding may be, e.g., a foam midsole. The extensions of the upper shell may be located in a lower portion of the shell and may be bonded to the foam midsole in a heel, midfoot and/or forefoot regions.

A shoe, and production methods for such a shoe, having a single-piece sole construction, in which efficient air circulation in the shoe and thereby directly on the foot of the user of the shoe is made possible with every step of the walking movement of the user.

An upper for a sports shoe may include a component such as a vamp or a rear portion. The shoe component may include a UV curable microlattice structure with a plurality of regions such that each region has a different density. In some cases, the microlattice structure may include a high density microlattice structure, a mid-level density microlattice structure, and a non-structural region with a low density microlattice structure.

A ventilated shoe, including a sole and an upper assembly associated therewith in an upward region, the upper assembly including: an external upper, with which an inner lining is associated which is constituted at least partly by a first element that defines at least one interspace that separates the foot of the user from the external upper and includes preferential passages for sweat that moves away from the foot of the user toward the upper external edge of the shoe; and a breathable insole, joined perimetrically at least to the inner lining.

A disposable, low friction, breathable bootie is provided that accommodates the shape and size of a human foot. The bootie is made from a thin, flexible polymer sheet-like material in a generally tubular form. The bootie has a foot portion, a lower leg portion, and an ankle portion therebetween. The bootie includes a series of air vents in the foot portion and lower leg portion to provide airflow to the foot, while such vents are located to avoid key friction points between the foot and the ski boot during the donning and doffing processes. The bootie facilitates donning and doffing a ski boot. The vents provide breathability while the bootie is worn within the ski boot.