JP2882870B2 - Low weight fabric - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a low-weight woven fabric, and more particularly to a low-weight woven fabric using flat ultrafine fibers.

[Prior Art] Hitherto, a double woven fabric is known as a low weight filament fabric for clothing. However, the double woven fabric made of synthetic fiber filament yarn has a relatively large basis weight as compared with the silk double woven fabric, has no softness of the pole book, and is inferior in flexibility. The cause is that if synthetic fabric filament yarn is used to make a low-weight fabric with the same flexibility as silk fabric, misalignment and slippage will occur, making it unsuitable for practical use as a fabric for clothing. Because there is almost no.

Therefore, at present, a low-weight woven fabric having the same level of silk or suppleness as silk and having an extremely thin and small basis weight has not been realized using synthetic fiber filament yarn for practical use.

[Object of the Invention] An object of the present invention is to improve the conventional problems and to use a synthetic fiber multifilament yarn to provide a silk-like or silk-like suppleness and an ultra-thin low-weight woven fabric that can be used practically. The goal is to provide something that can withstand.

[Constitution of the Invention] The present invention relates to a synthetic fiber multifilament yarn composed of ultrafine fibers having a single fiber denier of 0.5 de or less and a cross section perpendicular to the fiber axis having a flat shape, wherein the single fiber has the flat shape. The ratio of the long axis to the short axis of the cross section (flat ratio) is 2 or more and the following formula is satisfied, and the basis weight of the multifilament yarn having a total denier of 75 de or less is 15 to 50 g / m2. ^2. A low-weight woven fabric characterized by being in the range of ² .

For the synthetic fiber multifilament yarn used in the woven fabric of the present invention, it is necessary to use ultrafine fibers having a single fiber denier of 0.5 de or less. The single fiber denier is more preferably 0.25
de or less, more preferably 0.05 de or less. The lower limit of the single fiber denier is 0.005 de or more in consideration of practicality of the woven fabric. If the single fiber denier exceeds 0.5 de, even if a fiber having a flat cross section is used, the single fiber easily moves in the woven fabric and slip occurs, so that the object of the present invention cannot be achieved. Next, the single fiber has a flat shape in a cross section perpendicular to the fiber axis (fiber cross section), and the flat ratio needs to be 2 or more. The flattening ratio can be determined by the ratio of the long axis to the short axis of the flat section. FIG. 1 is a cross-sectional view illustrating a cross-sectional ratio of a single fiber of a synthetic multifilament yarn used in the present invention. In FIG. 1, L is determined as the long axis in the longest direction of the flat section, and W is determined as the short axis in a direction orthogonal to the long axis. The short axis W has a different length as shown in FIG. 1 (b), that is, W, W '.
When it is possible to measure as, the longest W is determined as the short axis. In the present invention, the aspect ratio needs to be 2 or more. If the aspect ratio is less than 2, the single fiber easily moves in the woven fabric and slip occurs, so that the object of the present invention cannot be achieved. The aspect ratio is more preferably 3 or more. Further, it is necessary that the flat cross-sectional shape satisfies the expression (1) in the pipe diameter with the single fiber denier.
The multifilament yarn composed of such a single fiber needs to have a total denier of 75 de or less. When the total denier is more than 75 de, the fabric cannot have a low basis weight, and the object of the present invention cannot be achieved.More preferably, the total denier is in the range of 30 to 10 de. Is preferred. The multifilament yarn can be appropriately twisted. However, if the twist is extremely large, the effect of using a flat cross-section fiber as a single fiber is not obtained, so that the twist factor is 0 to 0. Preferably, a twist in the range of 5,500 is provided.
As the structure of the woven fabric of the present invention, a plain woven fabric is preferably used from the viewpoint of preventing slip. The fabric of the present invention can have a basis weight of 15 to 50 g / m ² . Further, such a woven fabric has a sliding resistance of 4.5 m of the ultrafine single fiber in the woven fabric.
m or less, and more preferably 3.0 mm or less. The slip resistance here can be measured according to the JIS L1096-1990 B method.

Examples of the type of the synthetic multifilament yarn used in the woven fabric of the present invention include polyester, polyamide and the like.
What is conventionally used for clothing is used. In addition, a known method is used as a means for forming ultrafine fibers. That is, when the single fiber denier is in the range of 0.2 to 0.5 de, a normal melt spinning method is employed, and in particular, a method of spinning at a high speed is employed. For example, according to the method described in Japanese Patent Publication No. 58-37408, an ultrafine flat section fiber can be obtained by using a die capable of spinning the flat section fiber. In the case where the single fiber denier is a finer fiber of 0.2 de or less, a composite fiber is once created and then divided mechanically after forming into a woven fabric, or a component of the composite fiber is produced as compared with the direct spinning method. By eluting a part thereof, it is possible to obtain an ultrafine flat cross section fiber by the residual component which has been made flat in advance. As the composite fiber, one having a cross-sectional shape as shown in FIG. 2 is exemplified. FIG. 2 is a cross-sectional view showing an example of a cross section of the conjugate fiber used in the present invention. In FIG. 2, for example, after forming a woven fabric as a composite fiber using polyester for A and polyamide for B, the polyester component is dissolved and removed to obtain ultrafine flat fibers of nylon, or A By splitting B and B, it is possible to obtain an ultrafine flat fiber in which a polyester and a polyamide are mixed, and to obtain a composite fiber using polystyrene for B, and to obtain an ultrafine flat fiber of polyester by removing the polystyrene. be able to. Further, in the method for obtaining the ultrafine flat fibers of the polyester, an ionic component such as a polyester having a high solubility, for example, dimethyl sodium sulfoisophthalate, was copolymerized by using two or more polyesters having different solubilities in A and B. A method of dissolving and removing polyester or polyester blended with sodium alkylsulfonate may be used.

[Effects of the Invention] The woven fabric of the present invention having the above-described configuration does not cause slippage despite sprinkling of the woven fabric having the low standard weight as described above, and impairs suppleness and ultrathin properties. Without any practical use.

That is, the woven fabric of the present invention uses a very thin flat fiber, when the yarn constituting the woven fabric moves, the binding force between the single fibers constituting the yarn becomes large, or
It is presumed that the slipping external force is absorbed by the displacement of the single fibers. In the present invention, as described above, the use of ultra-fine flat cross-section fibers, but by using ultra-fine fibers, it is possible to increase the surface area of the entire fiber, and even if the same denier, the cross-sectional shape of the fiber is flat By doing so, a larger surface area can be obtained, and such a flat shape increases the surface resistance between fibers, and furthermore, the multifilament yarn is less constrained by twisting, which is effective for the above-described slip prevention yarn. Is obtained. Further, in the present invention, the surface area is not simply increased by using ultrafine fibers, but the contact area is increased by utilizing a flat cross-sectional shape.

FIG. 3 is a diagram showing the range defined by the formula (1) and the aspect ratio of the present invention. That is, in FIG. 3, (a) shows the boundary of the range defined by the denier of the ultrafine flat-section fiber used in the present invention, and (b) shows the range defined by the flatness ratio 2 in the equation (1). (C) indicates the boundary of the range defined by the expression (1) when the aspect ratio is less than 2, and the hatched portion indicates the range of the present invention.

[Example 1] Polyester multifilament yarn (30de / 72fil) obtained by a direct spinning method, wherein the single fiber constituting the multifilament yarn has a flat cross-sectional shape with a flattening ratio of 4, warp yarn, and Using the weft, a woven fabric having a flat texture having the fabric density shown in Table 1 (Habuta) was woven. The basis weight of the woven fabric was as low as 31 g / m ² , and an extremely thin and pliable woven fabric having slip resistance was obtained. Table 1 shows the physical property values of the woven fabric.

Example 2 A conjugate fiber having the cross-sectional shape shown in FIG. 2 (b), wherein polyethylene terephthalate was used for part A and B
A plain weave fabric was woven at the fabric density shown in Table 1 by using a nylon 6 (30 de / 20 fil: 16 minutes and A: B = 1: 1) in the portion indicated by. The woven fabric was treated with a treating agent that swells the polyester to divide the conjugate fiber into its components to obtain a woven fabric composed of ultrafine fibers. The basis weight of the woven fabric was as low as 32 g / m ² , and an extremely thin and pliable woven fabric having slip resistance was obtained. Table 1 also shows the physical properties of the woven fabric.

Example 3 A conjugate fiber having a cross-sectional shape shown in FIG. 2 (c), wherein polyethylene terephthalate was used for part A and B
A plain weave fabric was woven at the fabric density shown in Table 1 using a nylon 6 (30 de / 20 fil: 48 minutes and A: B = 1: 1) in the part indicated by. The component A of the composite fiber of the woven fabric was completely eluted with an alkali to obtain a woven fabric made of nylon 6.
The basis weight of the woven fabric was as low as 28 g / m ² , and an extremely thin and pliable woven fabric having slip resistance was obtained. Table 1 also shows the physical properties of the woven fabric.

Comparative Example A polyester multifilament yarn (30 de / 36 fil) obtained by a direct spinning method for comparison, in which single fibers constituting the multifilament yarn have a round cross-sectional shape are used for warp and weft. In this manner, a woven fabric having a flat structure (habbi) having a woven fabric density shown in Table 1 was woven. The basis weight of the woven fabric was as low as 30 g / m ² , but the slip resistance was poor and the fabric was extremely thin, but only a supple fabric was obtained. Table 1 also shows the physical properties of the woven fabric.

In Table 1, the flatness ratio of the single fiber in the woven fabric after finishing was measured from a cross-sectional enlarged photograph.

In addition, "judgment by hand" of the slip resistance was based on a normal judgment method of pulling the fabric in between the parent's hand and the finger's hand with both hands.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view illustrating a cross-sectional ratio of a single fiber of a synthetic fiber multifilament yarn used in the present invention, and FIG.
FIG. 3 is a cross-sectional view showing an example of a cross section of the conjugate fiber used in the present invention, and FIG. 3 is a view showing a range defined by the formula (1) and the aspect ratio of the present invention.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-59-94679 (JP, A) JP-A-62-57982 (JP, A) Full-fledged Sho-63-11581 (JP, U) (58) Field (Int.Cl. ⁶ , DB name) D03D 15/00

Claims (2)

(57) [Claims] 1. A synthetic fiber multifilament yarn having a single fiber denier of not more than 0.5 de and a cross section orthogonal to a fiber axis made of an ultrafine fiber having a flat shape, wherein the single fiber has a short axis of the flat cross section. The ratio of the long axis to the fiber (flat ratio) is 2 or more and the following formula is satisfied, and the multifilament yarn having a total denier of 75 de or less has a basis weight of 15 to 50 g / m ² . A low-weight woven fabric characterized by the following. 2. The low-weight woven fabric according to claim 1, wherein a single fiber in the woven fabric has a slip resistance of 4.5 mm or less.