JP2016180202A5 - - Google Patents

Description

  In order to achieve the above object, a feature of the method for producing a woven fabric according to the present invention includes a fiber warp and a fiber weft, a functional yarn having a predetermined function that is thicker than the fiber warp and is less likely to bend. The functional yarn is intermittently passed through the heald, and two adjacent sheets of dents that make up the collar are intermittently cut out at multiple locations, and the two adjacent thin plates are wound around the warp yarn at the same cutout portion The functional yarn is passed between the two thin plates, and the fiber weft is woven into the fiber warp to form a fabric structure, and the functional yarn is placed on the fabric structure. A plurality of fabric placing portions placed on the fabric are arranged in the weft direction, the functional yarn is disposed on the fiber warp of the fabric placing portion, and a part of the fiber weft is placed on the functional yarn. By passing the machine into the fabric placement section. It is to secure the thread.

In the characteristics of the method for producing a woven fabric according to the present invention, the functional yarn may be any one of a tube having a hollow portion, a spiral tube having a hollow portion, an optical fiber, or a composite cable. Further, after the functional yarn is fixed to the fabric placing portion, another functional yarn may be inserted into the hollow portion.
For example, as shown in FIG. 46 (a), when the rigid functional yarn 300, which is less stretchable and has higher rigidity than the fabric on the fabric placement portion, is oriented in the warp direction L and woven into the fabric, the fabric is in the warp direction L. In this state, it is fixed by the first latitudinal thread 20x1, the second latitudinal thread 20x2, and the like. However, while the fabric itself of the fabric placing portion is reduced by releasing the tension, the rigid functional yarn 300 is hardly reduced in a state where it is fixed by the fixing first latitude yarn 20x1, the fixing second latitude yarn 20x2, and the like. As a result, as shown in FIG. 5B, the intermediate portion 300m protrudes between the first latitudinal yarn 20x1 for fixing and the second latitudinal yarn 20x2 for fixing, and the appearance of the entire fabric is impaired, and the functional yarn 300 There is also a risk that the function of this will be impaired.
However, if the functional yarn having a hollow portion is fixed to the fabric placing portion and then another functional yarn is inserted into the hollow portion, the functional yarn having the hollow portion is made of an extensible material. And after weaving and releasing tension, the middle part does not protrude. Then, by inserting other functional yarns into the hollow portion, it is possible to avoid functional inhibition due to bending of the other functional yarns while maintaining the appearance of the fabric.
From the above circumstances, it is preferable that the other functional yarns have a smaller extensibility than the functional yarns. Moreover, an optical fiber, an electric wire, etc. can be used for the other functional yarn.

The woven fabric according to the present invention is characterized in that, in the woven fabric manufactured by any one of the above-described woven fabric manufacturing methods, the woven fabric placement portion is a plain weave, and the functional yarn is 5 times wider than the fiber warp. It is in.
Another feature of the woven fabric according to the present invention is that it comprises a fiber warp and a fiber weft, a functional yarn having a predetermined function that is 5 times wider and thicker than the fiber warp, and has a predetermined function. By weaving into the warp, it is configured as a woven fabric structure, and a plurality of woven fabric placement portions on which the functional yarn is placed on the woven fabric structure are arranged side by side in the weft direction, and the functional yarn is arranged in the warp direction. Arranged on the fiber warp of the woven fabric placement portion, aligned and aligned in the weft direction, the woven fabric placement portion is a plain weave, and passing a part of the fiber weft over the functional yarn The functional yarn is fixed to the fabric placing portion.

In the above feature, the functional yarn may be a tube having a hollow portion, a spiral tube having a hollow portion, an optical fiber, or a composite cable. Another functional yarn may be inserted through the hollow portion of the functional yarn fixed to the fabric placing portion. The other functional yarn may be one having a smaller elongation than the functional yarn. An optical fiber or an electric wire can be used for the other functional yarn. The functional yarn may be made of any of polyolefin, polycarbonate, polyamide, polyphenylene sulfide, polyetherimide, polyetherketone, polyamideimide, polypropylene, and ABS. Preferably, the fiber warp and the fiber weft may be natural fibers or synthetic resin fibers, respectively.

Claims (13)

With fiber warp and fiber weft,
The functional warp is passed through the heald intermittently with respect to a plurality of fiber warps comprising a functional yarn having a predetermined function which is thicker than the fiber warp and hardly bent
Two adjacent sheets of dents that make up the collar are intermittently cut out at a plurality of locations, and two adjacent thin plates are displaced to the winding side of the warp yarn at the cutout portions. Pass the functional yarn between the thin plates of
By weaving the fiber weft into the fiber warp, it is configured as a fabric structure and a plurality of fabric placement portions on which the functional yarn is placed on the fabric structure are arranged side by side in the weft direction,
Placing the functional yarn on the fiber warp of the fabric placement section,
A method for producing a fabric, wherein a part of the fiber weft is passed over the functional yarn to fix the functional yarn to the fabric placing portion. The method for producing a woven fabric according to claim 1, wherein the functional yarn is any one of a tube having a hollow portion, a spiral tube having a hollow portion, an optical fiber, and a composite cable. The method for producing a fabric according to claim 2, wherein after the functional yarn is fixed to the fabric placing portion, another functional yarn is inserted into the hollow portion. The method for producing a woven fabric according to claim 3, wherein the other functional yarn is smaller in elongation than the functional yarn. The method for producing a woven fabric according to claim 4, wherein the other functional yarn is an optical fiber or an electric wire. A woven fabric manufactured by the method for manufacturing a woven fabric according to any one of claims 1 to 5, wherein the woven fabric placing portion is a plain weave, and the functional yarn is five times wider than the fiber warp. With fiber warp and fiber weft,
A functional yarn having a predetermined function that is 5 times wider than the fiber warp, thick and difficult to bend,
By weaving the fiber weft into the fiber warp, it is configured as a fabric structure and a plurality of fabric placement portions on which the functional yarn is placed on the fabric structure are arranged side by side in the weft direction,
The functional yarn is oriented on the warp direction and is arranged on the fiber warp of the fabric placement section side by side in the weft direction,
The fabric placing portion is plain weave,
A fabric in which the functional yarn is fixed to the fabric placing portion by passing a part of the fiber weft over the functional yarn. The woven fabric according to claim 7, wherein the functional yarn is any one of a tube having a hollow portion, a spiral tube having a hollow portion, an optical fiber, and a composite cable. The fabric according to claim 8, wherein another functional yarn is inserted through a hollow portion of the functional yarn fixed to the fabric placing portion. The woven fabric according to claim 9, wherein the other functional yarn is smaller in elongation than the functional yarn. The woven fabric according to claim 10, wherein the other functional yarn is an optical fiber or an electric wire. The woven fabric according to any one of claims 6 to 11, wherein the functional yarn is composed of any one of polyolefin, polycarbonate, polyamide, polyphenylene sulfide, polyetherimide, polyetherketone, polyamideimide, polypropylene, and ABS. The woven fabric according to any one of claims 6 to 12, wherein the fiber warp and the fiber weft are natural fibers or synthetic resin fibers, respectively.