The present invention provides a belt for a textile machine capable of reducing running noise caused during belt running. A canvas core used in the belt is constituted by a woven fabric based on a twill weave texture in which a warp crosses a plurality of wefts and aggregates (19) of weave points at which the warp crosses the wefts are regularly shifted in one longitudinal direction (L) of the belt to form a twill line (17), and some of the aggregates (19) in the twill line (17) are shifted at a predetermined interval in the opposite direction to the one longitudinal direction.

This weaving machine (2) comprises a structure (4) able to support a plurality of warp threads (16) extending in a first direction, a heddles mechanism (18) capable of selectively moving at least some of the plurality of warp threads (16) to form first and second sheets (28, 30) of warp threads, and at least one weft-thread feed spool (38). The weaving machine (2) also includes at least one support shuttle (44) for said feed spool and an actuating device (32) able to control a movement of said shuttle (44) between the first and second sheets (28, 30) of warp threads in at least one second direction transverse to the first direction, in both senses relative to said second direction, to continuously lay the weft thread (43) coming from the feed spool (38) between said sheets (28, 30) and in said second direction.

A method and a system for forming a pentagonal woven fabric including a pentagon pattern loom. The pentagon pattern loom includes loom pins. The loom pins are arranged in a pentagonal pattern to form a structure for engaging a continuous yarn strand. The loom pins include a first pin, a second pin, a third pin, a fourth pin, and a fifth pin positioned at the edges of the pentagonal pattern with center pins therebetween. A bias weaving process uses the continuous yarn strand for forming a top woven triangle fabric section, a bottom woven triangle fabric section, and a middle section of parallel yarn strand portions of the single continuous yarn strand. A second continuous weaving uses the continuous yarn strand as weft strands in the middle section of parallel yarn strand portions for forming a rectangular woven fabric section with remaining loom pins of the pentagonal pattern.

The present invention involves a Bi-axial bias weaving machine and two dimension woven structures (material) having interlaced bias strands. The material includes plain, twill and satin structures made of two bias flat strands (tape) interlacing each other at particular angles (30-60). The weaving machine includes bias holders assembly, chains, bias rapiers and take-up assembly. The embodiment of this invention may be utilized to produce high performance fabrics such as textile performs for aerospace composites.

Aspects of the present invention relate to a shoe upper that is formed as a substantially planar article with varied functional zones integrated therein. The varied functional zones may be strategically positioned zones having varied degrees of stretch. Additionally, it is contemplated that the functional zones may provide dimensional variation (e.g., thickness) and/or permeability (e.g., breathability) characteristics. The substantially planar upper may then be formed into a three-dimensional upper having a volume that may be occupied by a wearer's foot.

A conveyor structure includes a first conveyor structure layer, a core structure layer, and a second conveyor structure layer. The core structure layer is provided on the first conveyor belt structure and includes a rope layer, a plurality of first wefts, a plurality of second wefts and a cloth layer. The rope layer may be provided on the first conveyor structure layer and includes a plurality of warp ropes. The cloth layer may be disposed above the rope layer. The plurality of second wefts and the plurality of first wefts may be obliquely intertwined with each other and wrapped on the rope layer, or on the cloth layer, or on the rope layer and the cloth layer. The second conveyor belt structure layer may be provided on the core structure layer.

Systems and methods for forming a product formed from intelligent fibers that includes at least one of a mono-material fiber; a coaxial fiber; and a continuous fiber. The fibers react to an environmental stimulus such as a mechanical, thermal, chemical, biological, or magnetic stimulus to provide a feedback to a user. The feedback may be change in color, shape, or material property. The fibers may comprise chromophores, force detection wires, and/or fiber optics. The invention can be used to prepare products such as a shoe, garment, textile, building material, or engineered hybrid plant product.

A method of preparing a thermoplastic resin composite includes laminating a matrix resin layer and a reinforcing resin layer to prepare a resin laminate, and heat-bonding the resin laminate, and prior to the step of heat-bonding the resin laminate, fixing one or more selected from the group consisting of the reinforcing resin layer and the resin laminate using a stitch resin having a draw ratio of less than 10:1 and a melting point of 150 C. or lower.

A method and system for forming a hexagonal woven fabric provide a hexagonal pattern loom including loom pins arranged in a hexagonal pattern to form a structure for engaging a continuous yarn strand. The loom pins form a top angled side of the hexagonal pattern and a bottom angled side of the hexagonal pattern. A set of the loom pins form two opposite straight sides of the hexagonal pattern forming the hexagonal pattern loom. A bias weaving process uses the continuous yarn strand for forming a top woven triangle fabric section, a bottom woven triangle fabric section, and a middle section of parallel yarn strand portions of the single continuous yarn strand. Traditional back-and-forth weaving uses the continuous yarn strand as weft strands in the middle section of parallel yarn strand portions for forming a rectangular woven fabric section. A hexagonal woven fabric uses the continuous yarn strand.

Aspects of the present invention relate to a shoe upper that is formed as a substantially planar article with varied functional zones integrated therein. The varied functional zones may be strategically positioned zones having varied degrees of stretch. Additionally, it is contemplated that the functional zones may provide dimensional variation (e.g., thickness) and/or permeability (e.g., breathability) characteristics. The substantially planar upper may then be formed into a three-dimensional upper having a volume that may be occupied by a wearer's foot.