Disclosed is a shoe including a sole and an upper, wherein the upper includes an inner upper and an outer upper, wherein 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.

The shoe according to the present invention can facilitate discharge of sweat generated during exercise through the upper made of natural wool fiber and thus offer fresh wear sensation and can be worn without socks. In addition, elasticity of wool fabric can reduce resistance of shoes depending on shape change of feet during exercise or in a daily life, thus impairing foot comfort. As a result, people whose feet swell readily, such as pregnant women, can wear the shoes without irritation. Furthermore, the shoes according to the present invention are suitable for diabetic patients whose feet need to be protected from injury because they are made of wool which is a soft elastic fiber.

A ballet shoe wearable on a foot of a ballet dancer, wherein the foot includes a heel and a ball. The ballet shoe including a body constructed a textile material or a canvas material. The ballet shoe also including a ball pad connected to the body proximate the ball, sole connected to an outside surface of the body proximate the ball pad and a heel lift connected to the outside surface proximate the heel.

Textile Components, such as upper members for articles of footwear, include: (a) a first portion having a first edge, wherein the first edge includes a first portion of material engaged with a first seam support material via a first thermoplastic material; (b) a second portion having a second edge, wherein the second edge includes a second portion of material engaged with a second seam support material via a second thermoplastic material; and (c) structure to engage the first and second edges in an abutting edge joint (such as a zig-zag stitch). The resulting textile components may be lightweight and breathable (e.g., due to use of lightweight upper fabric), having a comfortable fit (e.g., due to the abutting edge joint), while still providing a strong, stable, and durable construction (e.g., due to the presence of the seam support member(s)).

Described is an upper for a shoe and a method for manufacturing such an upper and such a shoe. An upper without laces includes at least one braid portion adapted to be stretched in a longitudinal direction and at least one braid-free portion. Stretching the at least one braid portion in the longitudinal direction provides an elastic restoring force.

A method of making an article of footwear may include applying an environmental pressure differential across a sheet of upper material to conform the sheet of upper material to a portion of a footwear last, thereby forming at least a portion of an upper of the article of footwear. In addition, the method may include assembling the article of footwear including fixedly attaching the upper of the article of footwear to a sole structure.

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.

An article of footwear may have an upper with a knitted component. Alone or in combination, the knitted component may include regions with different degrees of stretch-resistance; the knitted component forms a collar with a half-gauge knit; the upper includes a strand with sections that are inlaid within the knitted component, and the sections are positioned immediately adjacent to each other; the strand forms a plurality of loops, pairs of the loops are positioned immediately adjacent to each other and configured to receive a lace; and the knitted component includes a thermoplastic polymer material, and the strand is unbonded to the thermoplastic polymer material.

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.

Systems and methods for manufacturing a garment, include: receiving garment design input data for a garment design including data representing a first textile structural unit at a first location and data representing a second textile structural unit at a second location; generating a textile production machine instruction data set based on the garment design input data; forming a first garment using a first textile production machine to include the first textile structural unit and the second textile structural unit; creating revised garment design input data for the garment design based on the first garment based on receiving additional body map data relating to the first garment; generating revised textile production machine instruction data set based on the revised garment design input data; and forming a second garment using a textile production machine and the revised garment design input data including the changes to the garment design.

In one aspect of the disclosure, a knitted component for use in an article of footwear may include a first knitted layer and a second knitted layer at least partially overlapping the first knitted layer. The knitted component may also include an interlooped area comprising the first knitted layer interlooped with the second knitted layer and a knitted loop structure that is adjacent the interlooped area and that comprises the first knitted layer freely separable from the second knitted layer to comprise a passageway. The first knitted layer has a first edge comprising a first opening of the passageway and a second edge comprising a second opening of the passageway. Each of the first edge and the second edge extend in a course-wise direction and the passageway extends between the first opening and the second opening in a wale-wise direction.