JP2019183303A - Fabric and clothing - Google Patents

Abstract

To provide a fabric and clothing, having a flat fabric surface and excellent stretchability, without occurrence of dye migration sublimation.SOLUTION: A fabric includes a composite yarn including a false twist crimped yarn A having an S-direction torque and a false twist crimped yarn B having a Z-direction torque. Both of the false twist crimped yarn A and the false twist crimped yarn B are made of polyamide fiber.SELECTED DRAWING: None

Description

  The present invention relates to a woven fabric and clothing having a flat woven fabric surface, excellent stretch properties, and no dye transfer sublimation.

  Conventionally, textiles have been used for various clothing applications, as represented by sports clothing and fashion clothing. Since the fabric is structurally less stretchable in the fabric itself, it is difficult to impart stretchability to the fabric, and stretchability has been imparted by using crimped processed yarns or polyurethane elastic fibers (for example, , See Patent Document 1). In recent years, clothes using such stretch fabrics have been widely used for comfort.

  Most of these stretch fabrics are obtained using crimped processed yarns or polyurethane elastic fibers. However, fabrics obtained using these crimped processed yarns, polyurethane elastic fibers, and the like exhibit stretch properties, but have irregularities on the fabric surface and poor appearance.

  Further, a woven fabric made of polyethylene terephthalate fiber has been proposed in Patent Document 2 and the like. However, there has been a dye sublimation to the coating resin / film resin, which has limited its application to moisture-permeable and waterproof applications. Furthermore, there is a problem that the wear resistance and tear strength are not sufficient and the use is limited.

JP-A-4-194050 JP 2009-138287 A

  The present invention has been made in view of the above background, and an object of the present invention is to provide a woven fabric and apparel having a flat woven fabric surface, excellent stretchability, and no dye transfer sublimation.

  As a result of intensive studies to achieve the above-mentioned problems, the present inventors have devised a woven fabric that has a flat woven fabric surface, excellent stretchability, and no dye transfer sublimation. The present invention has been completed by finding out that it can be obtained and by further intensive studies.

  Thus, according to the present invention, “a woven fabric including a composite yarn including a false twisted crimped yarn A having a torque in the S direction and a false twisted crimped yarn B having a torque in the Z direction, A woven fabric characterized in that both the crimped yarn A and the false twist crimped yarn B are made of polyamide fibers. "

At that time, the composite yarn preferably has a torque of 30 T / m or less. Moreover, in the composite yarn, it is preferable that the entanglement is provided within the range of 30 to 90 / m. In the composite yarn, the crimp rate is preferably 5% or more. In the composite yarn, the single fiber fineness is preferably 4 dtex or less. Moreover, it is preferable that the constituent yarn of the woven fabric is only the composite yarn. Moreover, it is preferable that the cover factor CF of a textile fabric exists in the range of 1400-4200. However, the cover factor CF is defined by the following equation.
CF = (DWp / 1.1) ^1/2 × MWp + (DWf / 1.1) ^1/2 × MWf
[DWp is the total warp fineness (dtex), MWp is the warp weave density (main / 2.54 cm), DWf is the total weft fineness (dtex), and MWf is the weft weave density (main / 2.54 cm). ]
Moreover, it is preferable that the structure of the woven fabric is any one selected from the group consisting of a plain weave structure, a twill weave structure, a satin weave structure, a double weave structure, and these changed structures. Moreover, it is preferable that the resin coating is given to the textile fabric or the film is laminated. At that time, it is preferred that there is no dye sublimation to the coated resin or film. Moreover, it is preferable that the stretchability of the weft direction of a textile fabric is 5% or more. However, stretchability shall be measured by the JIS L 1096 B method. Moreover, it is preferable that the stretch recovery rate in the weft direction of the fabric is 75% or more. However, the stretch recovery rate is measured by the JIS L 1096 B-1 method. Moreover, it is preferable that abrasion resistance is 3rd grade or more.
However, the wear resistance is measured by the JIS L 1058 D-4 method. The tear strength is preferably 7N or more. However, the tear strength shall be measured by the JIS L 1096 D method. The water repellency is preferably 3 or more. However, the water repellency is measured by the JIS L 1092 spray method.
Moreover, according to this invention, the clothing which uses the said textile fabric is provided.

  According to the present invention, it is possible to obtain a woven fabric and clothing that have a flat woven fabric surface, excellent stretch properties, and no dye transfer sublimation.

  Hereinafter, embodiments of the present invention will be described in detail. Torque is reduced by setting the false twist in the first heater zone to the false twist crimped yarn, so-called one heater false twist crimped yarn, and further introducing the yarn into the second heater zone and subjecting it to relaxation heat treatment. In addition, there is a so-called second heater false twist crimped yarn.

  The woven fabric of the present invention includes a false twist crimped yarn A made of polyamide fiber having a torque in the S direction and a false twist crimped yarn B made of polyamide fiber having a torque in the Z direction.

  Here, as a condition of the false twist crimping process, the yarn is twisted by a twisting device via a first roller and a heat treatment heater having a set temperature of 90 to 220 ° C. (more preferably 100 to 190 ° C.). An example is a method in which the heat treatment is further introduced into the second heater region as necessary to perform a relaxation heat treatment. The draw ratio at the time of false twisting is preferably in the range of 0.8 to 1.6, and the number of false twists is α = 0.0 in the formula of false twist (T / m) = (32500 / √Dtex) x α. 5-1.5 are preferable, and it is good to set it to 0.8-1.2 rank normally. As the twisting device to be used, a disk-type or belt-type friction type twisting device is suitable because it is easy to thread and there is little yarn breakage, but a pin-type twisting device may also be used.

  The polyamide fiber may be nylon 6, nylon 66, or nylon 46, and the third component may be copolymerized or added. Moreover, the composite fiber (conjugate fiber) which makes a polyamide component 1 component may be sufficient. Furthermore, additives such as a matting agent, a flame retardant, and a light resistance agent may be added.

  Moreover, it is preferable that entanglement is given to the composite yarn. At that time, the number of entanglements (interlaces) is not particularly limited, but is preferably in the range of 30 to 90 / m in order not to impair stretchability. If the number is greater than 90 / m, the stretchability may be impaired. On the other hand, when the number is less than 30 / m, the converging property of the composite yarn becomes insufficient, and the weaving property may be impaired. In addition, the entanglement process (interlace process) may be performed using a normal interlace nozzle.

  In the composite yarn, the torque is preferably as small as possible, and most preferably non-torque (0 T / m). In order to achieve non-torque in this way, when the false twisted crimped yarn having the torque in the S direction and the false twisted crimped yarn in the Z direction are combined, they have the same torque except that the direction of the torque is different. Two types of false twist crimped yarn may be used.

  The false twist crimped yarn A and false twist crimped yarn B may have different single fiber fineness, single fiber cross-sectional shape, and the like.

  In the composite yarn, the crimp rate is preferably 5% or more (more preferably 30% or more, particularly preferably 35 to 60%). If the crimp rate is less than 5%, sufficient stretch properties may not be obtained.

  In the composite yarn, the single fiber fineness is preferably 4 dtex or less (preferably 0.1 to 1.0 dtex). If the single fiber fineness is larger than 4 dtex, a soft texture may not be obtained. The total fineness of the composite yarn is preferably in the range of 33 to 220 dtex. Furthermore, the number of filaments of the composite yarn is preferably in the range of 10 to 300 (more preferably 20 to 300).

  The composite yarn of the present invention is included. Although it may be contained in either the warp or the weft of the woven fabric, the constituent yarn of the woven fabric is preferably only the composite yarn.

The cover factor CF of the woven fabric is preferably in the range of 1200 to 4500 (more preferably 1400 to 4200). If the cover factor of the woven fabric is smaller than this range, yarn misalignment may occur, and if it is larger than this range, sufficient stretch properties may not be obtained.
However, the cover factor CF is defined by the following equation.
CF = (DWp / 1.1) ^1/2 × MWp + (DWf / 1.1) ^1/2 × MWf
[DWp is the total warp fineness (dtex), MWp is the warp weave density (main / 2.54 cm), DWf is the total weft fineness (dtex), and MWf is the weft weave density (main / 2.54 cm). ]
The woven fabric of the present invention can be easily woven using the above-described composite yarn using a normal loom. In that case, the structure of the woven fabric is not limited, and plain weave, twill weave, satin weave and the like are preferably exemplified. Also, a double weave may be used. A woven fabric having no pile portion is preferable. In a woven fabric having pile portions on one side or both sides of the ground tissue portion, the surface of the ground tissue portion may not appear on the outside air during use.

Further, the composite yarn may be twisted with a twist coefficient of about 3000 or less represented by the following formula.
(Twisting coefficient) = twisting number [T / M] × √ (fineness [De])
However, the fineness [De] is a value obtained by multiplying the fineness [Dtex] by 0.9.

Ordinary dyeing finish processing, water absorption processing, water repellent processing, resin processing, film lamination, napping processing, UV shielding or antibacterial agent, deodorant, insect repellent, phosphorescent agent, retroreflective agent, negative ion generator, etc. Various processings that provide the above function may be additionally applied.
Especially, it is preferable that the resin coating is given to the textile fabric or the film is laminated.

  Since the woven fabric is flat, it is easy to perform coating and film lamination. In addition, since the polyamide fiber and the dye are chemically bonded, no transfer sublimation to the coating resin or film resin is observed, so that excellent coating and film lamination suitability can be obtained. The processing method can be performed by any method such as a spray method, a coating method (wet / dry method), a laminate method, and the like, and can be appropriately selected depending on the form of the fiber structure and the type of the coating resin / film resin. . Examples of the type of coating resin / film resin include a film made of urethane resin having moisture permeability, urethane resin coating, acrylic resin coating, polytetrafluoroethylene resin film, polyester film, etc. Absent.

In the woven fabric thus obtained, the thickness is not particularly limited, but is preferably 1 mm or less (more preferably 0.1 to 0.5 mm). The basis weight is not particularly limited, but is preferably 200 g / m ² or less (more preferably 40 to 150 g / m ² ).

  In the woven fabric of the present invention, since the above-mentioned composite yarn is arranged, even if the yarn is sufficiently crimped in the dyeing process in order to express stretch properties, uneven wrinkles are generated on the fabric surface. The woven fabric is flattened, and excellent wear resistance, tear strength, suitability for coating and film lamination, and stretchability can be obtained.

  As the stretch property, the stretch property in the weft direction of the fabric is preferably 5% or more (preferably 15 to 60% or more). However, stretchability shall be measured by the JIS L 1096 B method.

  Moreover, it is preferable that the stretch recovery rate in the weft direction of the fabric is 75% or more. However, the stretch recovery rate is measured by the JIS L 1096 B-1 method.

  Moreover, it is preferable that abrasion resistance is 3rd grade or more. However, the wear resistance is measured by the JIS L 1058 D-4 method.

  The tear strength is preferably 7N or more (more preferably 7 to 20N). However, the tear strength shall be measured by the JIS L 1096 D method.

  The water repellency is preferably 3 or more. However, the water repellency is measured by the JIS L 1092 spray method.

  Next, the apparel of this invention uses the said textile fabric. Such clothing includes shirts, pants, and shorts worn as various sports outerwear or underwear. Whether for competition or training. Examples include soccer shirts, golf shirts, tennis shirts, basketball shirts, table tennis shirts, badminton shirts, running shirts, soccer pants, tennis pants, basketball pants, table tennis pants, badminton pants, running pants, golf pants, various sports underwear. Includes shirts, various sports innerwear, sweaters, T-shirts, jerseys, trainers, windbreakers, etc.

  Since such a garment uses the above-mentioned woven fabric, it is free from wrinkles and has a flat woven fabric surface, and is excellent in abrasion resistance, tear strength, suitability for coating and film lamination, and stretchability.

Next, although the Example and comparative example of this invention are explained in full detail, this invention is not limited by these. In addition, each measurement item in an Example was measured with the following method.
(1) Torque A sample (crimped yarn) of about 70 cm is stretched horizontally, an initial load of 0.18 mN × display tex (2 mg / de) is hung at the center, and both ends are aligned. The yarn begins to rotate due to the residual torque, but keeps the initial load until the initial load stops to obtain a twisted yarn. The twisted yarn having a length of 25 cm is measured with a tester under a load of 17.64 mN × display tex (0.2 g / de). The torque (T / m) is calculated by quadrupling the obtained twist number (T / 25 cm).
(2) Degree of interlacing Take the length of 1m under the load of 8.82mN x display tex (0.1g / de) for the entangled yarn, read the number of knots after 24 hours of shrinkage at room temperature , And display in ke / m.
(3) Crimp rate The test yarn was wound around a measuring machine having a circumference of 1.125 m to prepare a skein with a dryness of 3333 dtex. The skein is suspended from a hanging nail of the scale plate, an initial load of 6 g is applied to the lower part thereof, and a length L0 of the skein when a load of 600 g is further applied is measured. Immediately thereafter, the load is removed from the skein, the scale plate is removed from the hanging nail, and the skein is immersed in boiling water for 30 minutes to develop crimps. The skein after the boiling water treatment is taken out from the boiling water, the moisture contained in the skein is absorbed and removed by a filter paper, and air-dried at room temperature for 24 hours. This air-dried skein is hung on a hanging nail of the scale plate, a load of 600 g is applied to the lower part, a length L1a of the skein is measured after 1 minute, and then the load is removed from the skein and after 1 minute The length L2a is measured. The crimp rate (CP) of the test filament yarn is calculated by the following formula. CP (%) = ((L1a−L2a) / L0) × 100
(4) Stretchability Stretchability (%) was measured by the JIS L 1096 B method.
(5) Stretch recovery rate The stretch recovery rate (%) was measured by the JIS L 1096 B-1 method.
(6) Appearance of the fabric surface According to the sensory evaluation of three testers, the fabric surface was good, the grade 3 was flat with no irregularities due to grain on the fabric surface, grade 2: normal, grade 1: irregularities due to grain on the fabric surface There are three grades of failure.
(7) Abrasion resistance of fabrics Abrasion resistance (class) was measured by the JIS L 1058 D-4 method.
(8) Tear strength of the fabric The tear strength (N) was measured by the JIS L 1096 D method.
(9) Transition sublimation Urethane wet coating was performed on the fabric, and the presence or absence of transition sublimation was visually evaluated.
(10) Water repellency The water repellency (grade) was measured by the JIS L 1092 spray method.
(11) Fabric weight The fabric weight (g / m ² ) was measured according to JIS L1096.

[Example 1]
Using ordinary polyamide, melt spinning was carried out from a normal spinning device, and the film was wound without being stretched to obtain a semi-stretched polyamide yarn 28dtex / 17fil. Next, using the polyamide yarn, simultaneous drawing false twist crimping is performed under the conditions of a draw ratio of 1.3 times, a false twist number of 6000 T / m (S direction), a heater temperature of 180 ° C., and a yarn speed of 350 m / min. It was. Further, using the polyamide yarn, simultaneous drawing false twist crimping was performed under the conditions of a draw ratio of 1.3 times, a false twist number of 6000 T / m (Z direction), a heater temperature of 180 ° C., and a yarn speed of 350 m / min. . Next, the false twisted crimped yarn having the torque in the S direction and the false twisted crimped yarn in the Z direction are combined and subjected to an air entanglement treatment to obtain a composite false twisted crimped yarn (44 dtex / 34 fil, A reduction ratio of 46% and a torque of 0 T / m) were obtained. In the air entanglement treatment, an interlace nozzle was used, and an entanglement of 50 pieces / m was applied at an overfeed rate of 1.0% and a pneumatic pressure of 0.07 MPa (0.7 kgf / cm ² ). Next, the composite false twist crimped yarn was arranged on warps and wefts, and a plain fabric was woven using a normal water jet loom. The fabric was dyed black with an acid dye at 100 ° C. for 45 minutes, subjected to normal water-repellent finishing and coating, and then subjected to final setting.

The fabric thus obtained has a basis weight of 63 g / m ² , a warp density of 160 pieces / 2.54 cm, a weft density of 110 / 2.54 cm, a cover factor of 1707, a weft stretchability of 15%, and a weft stretchability recovery rate of 90%. The surface was a third grade: the surface of the fabric was flat and good, the surface was flat with no wrinkles, and was excellent in wear resistance, tear strength and water repellency. Moreover, there was no transfer sublimation to coating resin, and it was favorable quality.

[Comparative Example 1]
This was carried out in the same manner as in Example 1 except that a false twist crimped yarn (44 dtex / 34 fil, crimp rate 46%, torque 60 T / m) made of polyamide was used as the yarn.
The fabric thus obtained has a basis weight of 65 g / m ² , a warp density of 163 pieces / 2.54 cm, a weft density of 112 / 2.54 cm, a cover factor of 1739, a weft stretchability of 14%, and a weft stretch recovery rate of 88%. Although it was excellent in abrasion resistance, tear strength, and water repellency and did not undergo sublimation, the surface was first grade: the surface of the fabric was not flat, and irregular wrinkles were generated.

[Comparative Example 2]
A plain woven fabric was woven using a normal water jet loom using a false twisted crimped yarn (44 dtex / 48 fil, crimp rate 14%, torque 0 T / m) made of polyester. The fabric was dyed black with a disperse dye at 135 ° C. for 45 minutes, subjected to normal water-repellent processing and coating, and then subjected to final setting. In the woven fabric thus obtained, the basis weight is 75 g / m ² , the warp density is 162 pieces / 2.54 cm, the weft density is 112 / 2.54 cm, the cover factor is 1733, the weft stretchability is 19%, and the stretchability recovery rate in the weft direction is 89%. The surface was a third grade: the surface of the fabric was flat and good, the surface was flat with no wrinkles, and was excellent in wear resistance, tear strength and water repellency. However, transition sublimation to the coating resin was observed, and the quality was not good.

  ADVANTAGE OF THE INVENTION According to this invention, the textile surface and the clothing which are flat in the fabric surface, are excellent in stretch property, and do not have dye sublimation are provided, and the industrial value is very large.

Claims (16)

  A woven fabric including a composite yarn including a false twisted crimped yarn A having a torque in the S direction and a false twisted crimped yarn B having a torque in the Z direction, the false twisted crimped yarn A and the false twisted yarn A woven fabric characterized in that both the crimped yarns B are made of polyamide fibers.   The woven fabric according to claim 1, wherein the composite yarn has a torque of 30 T / m or less.   The woven fabric according to claim 1 or 2, wherein the composite yarn is provided with entanglement within a range of 30 to 90 / m.   The woven fabric according to any one of claims 1 to 3, wherein the crimp rate of the composite yarn is 5% or more.   The woven fabric according to any one of claims 1 to 4, wherein the composite yarn has a single fiber fineness of 4 dtex or less.   The fabric according to any one of claims 1 to 5, wherein the constituent yarn of the fabric is only the composite yarn. The fabric according to any one of claims 1 to 6, wherein the cover factor CF of the fabric is in the range of 1400 to 4200.
However, the cover factor CF is defined by the following equation.
CF = (DWp / 1.1) ^1/2 × MWp + (DWf / 1.1) ^1/2 × MWf
[DWp is the total warp fineness (dtex), MWp is the warp weave density (main / 2.54 cm), DWf is the total weft fineness (dtex), and MWf is the weft weave density (main / 2.54 cm). ]   The woven fabric according to any one of claims 1 to 7, wherein the woven fabric is any one selected from the group consisting of a plain woven fabric, a twill woven fabric, a satin woven fabric, a double woven fabric, and these changed textures.   The fabric according to any one of claims 1 to 8, wherein the fabric is coated with a resin coating or a film is laminated.   10. A fabric according to claim 9, wherein there is no dye transfer sublimation to the coated resin or film. The fabric according to any one of claims 1 to 10, wherein the weft stretchability of the fabric is 5% or more.
However, stretchability shall be measured by the JIS L 1096 B method. The woven fabric according to any one of claims 1 to 11, wherein the stretch recovery rate in the weft direction of the woven fabric is 75% or more.
However, the stretch recovery rate is measured by the JIS L 1096 B-1 method. The woven fabric according to any one of claims 1 to 12, wherein the abrasion resistance is tertiary or higher.
However, the wear resistance is measured by the JIS L 1058 D-4 method. The stretch fabric with a flat surface according to any one of claims 1 to 13, having a tear strength of 7N or more.
However, the tear strength shall be measured by the JIS L 1096 D method. The stretch woven fabric having a flat surface according to any one of claims 1 to 14, which has a water repellency of 3 or more.
However, the water repellency is measured by the JIS L 1092 spray method.   The clothing which uses the textile fabric in any one of Claims 1-15.