Hot melt sequins and methods of applying these sequins are disclosed. A method of attaching two components includes stitching a hot melt sequin to one of the components and heating the hot melt sequin to bond the two components together. Sequins can also be applied to articles to create structural elements such as heel counters, toe covers, and lace cages. Sequins can be applied in 1D, 2D, and 3D patterns as well as in dispersive patterns. Sequins can be applied to vary the abrasion properties of a portion of an article.

Hot melt sequins and methods of applying these sequins are disclosed. Sequins can be arranged in various patterns. Sequins can be arranged in dispersive patterns. Sequin patterns can be used to create gradients on the outside of an upper. The sequins can be used to attach two layers where the density of the sequins used to attach the layers can affect thermal properties, flexibility and relative motion between the layers.

Provided is a shoe upper for which a sewing operation is easy and that is superior in productivity. A shoe upper (1) includes a heel knitted fabric (10) that is formed in a shape such that it wraps around a portion ranging from the Achilles tendon to the heel of a wearer, and a body knitted fabric (11) that constitutes the portion of the shoe upper (1) other than the heel knitted fabric (10). The shoe upper (1) further includes a toe side joint portion (13) that retains a shape of a front end portion of the body knitted fabric (11) such that it wraps around the toes of the wearer. A first line (L1) obtained by bringing a left edge portion (11a) and a right edge portion (11b), in the knitting width direction, of the body knitted fabric (11) into butting contact with each other, and a second line (L2) obtained by folding a set up portion (10s) of the heel knitted fabric (10) into two portions so that the two portions butt against each other are in one straight line. The first line and the second line are formed at positions on the sole cover (2).

An article of footwear may include an upper incorporating a knitted component. An inlaid strand extends through the knitted component. A combination feeder may be utilized to inlay the strand within the knitted component. As an example, the combination feeder may include a feeder arm that reciprocates between a retracted position and an extended position. In manufacturing the knitted component, the feeder inlays the strand when the feeder arm is in the extended position, and the strand is absent from the knitted component when the feeder arm is in the retracted position.

A cycling shoe comprises a sole defining an undersurface of the cycling shoe, the sole having connection holes configured for connection of a pedal cleat to the sole. An upper is connected to the sole and defining with the sole a foot-receiving cavity. An expansion zone is located in a lateral or medial subportion of a metatarsal portion and/or toe portion of the cycling shoe and configured to be opposite a portion of at least a fifth metatarsal of a wearer of the cycling shoe, the expansion zone being entirely surrounded by a window of structural upper panelling and defined by at least one panel having a greater stretching characteristics than the structural upper panelling of the window.

Manufacturing of a shoe or a portion of a shoe is enhanced by executing various shoe-manufacturing processes in an automated manner. For example, shoe parts may be retrieved and temporarily assembled according to preset relative positions to form part stacks. The part stacks may be retrieved with the relative positioning of the shoe parts being maintained and placed at a stitching machine for more permanent attachment via stitching of the parts to form a shoe assembly. Movement during stitching of a conveyance mechanism that transfers the part stack from the stacking surface to the stitching machine and movement of a needle associated with the stitching machine may be controlled by a shared control mechanism such that the movements are synchronized with respect to one another. Vision systems may be leveraged to achieve movement and position information between and at machines and locations.

A boot form for a hockey skate is made of multiple plastic materials having different hardness properties, or different flexural moduli, and is formed via an injection-molding process or another similar process. One or more of the plastic materials may be reinforced with fibers of glass, carbon, aramid, or another stiffening material to strengthen one or more regions of the boot form. For example, pellets of a first plastic material having a flexural modulus of approximately 190 MPa (e.g., a polyamide elastomer block amide) may be injected into a mold to form a softer upper region of the boot form. And pellets of a second plastic having a flexural modulus of approximately 20,000 MPa (e.g., a Nylon 12 with long glass fibers) may be injected into the mold to form a stiffer lower region of the boot form. Additional skate components may then be attached to the boot form.

A spacer textile material has at least a portion of multiple tensile strands located between a first layer and a second layer of the spacer textile material where the first layer and second layer have been joined together to form channels in which the tensile strands move freely. In one or more locations, a first tensile strand and a second tensile overlap at an intersection region. Further, the spacer textile material may be incorporated into an article of footwear.

Provided is a shoe including a sole and an upper, where the upper includes an inner upper and an outer upper. The inner upper includes 90% or more of a wool fiber and the outer upper includes a combination of 50 to 80% by weight of the wool fiber and 20 to 50% by weight of a synthetic fiber based on the total weight of the outer upper.

An article of footwear incorporates a seamless bootie or textile upper formed from a knitted component removed from a knitted textile element of unitary warp knit construction. The knitted component may include a first knitted component portion in the form of a seamless bootie and a second knitted component portion associated with the first knitted component portion. In some embodiments the second knitted component portion may be tucked-in or folded into a pocket of first knitted component portion, such as a knitted dynamic fit component portion or a knitted tongue component portion. In some embodiments the second kitted component portion may be wrapped around at least part of the first knitted component portion.