The present invention relates to a shoe upper including a knitted component having a plurality of integrally knitted lines of loops including a set of consecutive lines, wherein each line in the set of consecutive lines includes a plurality of consecutive loops which are interlooped with adjacent loops of the respective line and not interlooped with loops of a line which is not contained in the set, and wherein the set of consecutive lines forms at least a portion of an eyelet which is configured to receive a lace.

An object is to solve problems associated with a stretchable wire member that includes, for example, a garment with stretchable wires formed thereon, that is, to solve the problems of wrinkles and undulations that often occur after the garment is stretched. A stretchable wire member includes a fabric; a base layer disposed on a surface of the fabric; a conductive layer disposed in part of the fabric, the conductive layer being on a surface of the base layer; and a protective layer covering the conductive layer. In the stretchable wire member, an elastic modulus E′3 of a multilayer body portion including the fabric, the base layer, and the protective layer ranges from 1 MPa to 6 MPa.

An object is to solve problems associated with a stretchable wire member that includes, for example, a garment with stretchable wires formed thereon, that is, to solve the problems of wrinkles and undulations that often occur after the garment is stretched. A stretchable wire member includes a fabric; a base layer disposed on a surface of the fabric; a conductive layer disposed in part of the fabric, the conductive layer being on a surface of the base layer; and a protective layer covering the conductive layer. In the stretchable wire member, an elastic modulus E′3 of a multilayer body portion including the fabric, the base layer, and the protective layer ranges from 1 MPa to 6 MPa.

The present disclosure provides an upper for an article of footwear. The upper may include a knit element defining a portion of at least one of an exterior surface of the upper and an opposite interior surface of the upper. An inlaid strand may extend through the knit element, and a tongue and the knit element may have a common yarn at least at a forward portion of the tongue, and the tongue may extend through a throat area of the upper.

Aspects herein are directed to a sock and methods for forming the sock. The sock in accordance with aspects herein having a plurality of toe-anchor knit courses that form a toe anchor that divides a toe-end opening of the sock into a first toe-end opening and a second toe-end opening by extending across the toe-end opening from a dorsal portion of the toe-end opening to a plantar portion of the toe-end opening. The toe-anchor knit courses are integrally knit with the sock body.

A knitted component comprises plush loops created with an inlaid yarn. A first surface of the knitted component includes a first yarn formed with a first stitch sequence that includes a quantity of knit stitches and a quantity of missed stitches. The second surface includes a second yarn formed with a second stitch sequence that includes a quantity of tuck stitches and a quantity of missed stitches. A third yarn is inlaid between two needle beds knitting the first and second yarns, and while the third yarn is inlaid, tuck stitches of the second yarn created with the previous pass of the carriage are transferred from one needle bed to another. Loops formed by the third yarn are locked into place by the transferred tuck stitches. The knitted component may be incorporated into an article of footwear. A method of manufacturing the knitted component is also described herein.

A lightweight, breathable, translucent and high-strength upper formed from a half-gauge knit, at least in part from a high tenacity yarn and a fusible yarn, is described. The upper may include a knit heel structure. Methods of manufacture, including exposing the upper to steam while in a tensioned state to at least partially melt the fusible yarn to adjacent yarns is also described. Subsequent cooling of the fusible yarn retains the upper in a stretched condition.

Various textile materials and method of manufacturing the same are provide. A method of single layer garment includes providing a single layer of textile material with low melt yarn. The method also includes forming the structure of the single layer of textile 5 material using selective heating to provide material support. The textile material are formed via at least one of a molding machine or a robotic hot air machine.

A knitted fabric for promoting heat dissipation is to be an insole and covers a wearer's skin when in use, and has two surface layers, an intermediate layer, and multiple channels. The two surface layers are disposed at a spaced interval, and include a first surface layer and a second surface layer oriented to the wearer's skin when the knitted fabric is in use. The second surface layer has multiple braids disposed parallelly, and each one of the multiple braids is straight and extends in a widthwise direction. The intermediate layer is formed with multiple monofilaments knitted between the two surface layers and divergently stretch out from each braid toward the first surface layer. Each monofilament intercrosses with another at a point near the first surface layer. A channel is formed among the intermediate layer and adjacent two said braids and has a V-shaped cross section.

The present disclosure provides a mouth locking method of a computerized flat knitting machine. The mouth locking method of the computerized flat knitting machine provided by the present disclosure includes the following steps: S1, firstly grouping a plurality of coils according to a predetermined quantity and performing a combination operation; and S2, performing a mouth locking operation on the combined coil groups. The present disclosure provides a method for combining coils firstly and performing narrowing point mouth locking. The method can greatly reduce the stroke quantity required by the narrowing point mouth locking, thereby greatly reducing the narrowing point mouth locking time and improving the mouth locking efficiency.