JP6099522B2 - Long / short composite spun yarn and knitted fabric using the spun yarn - Google Patents

Description

  The present invention relates to a long / short composite spun yarn that is excellent in stretch rate and stretch recovery rate, and that can obtain a knitted fabric excellent in anti-pilling property and anti-snugging property.

  Among outdoor leisure activities, especially during mountain climbing and trekking, in recent years, in order to suppress the “sweat chill” that causes the sweat that occurs during exercise to cool down and break down, Polyester spun yarn or the like is used for the fabric instead of the fabric having sweat absorbency, so that the water is not retained and the skin is not easily rubbed. The material of athletic clothing such as outdoor leisure is often stretched using polyurethane, but urethane deterioration due to ultraviolet rays due to contact with chlorine etc. during washing or wearing outdoors This occurs and the stretchability is impaired over time.

  On the other hand, as a material having stretch properties, many knitted fabrics composed of crimped yarns in which polymers having different heat shrinkage properties are arranged side by side are proposed, and in addition, such a crimped yarn is used as a core. There has also been proposed a knitted fabric using long and short composite spun yarns arranged and covered with short fibers (for example, Patent Document 1). These have excellent stretch properties and stretch back properties, but have a problem that snuggling is likely to occur due to high crimpability.

  In addition, in order to reduce water retention and to suppress irritation caused by rubbing between the fabric and the skin during exercise, pilling occurs when polyester fibers are placed on the sheath of polyester spun yarn. There is a problem that it is easy.

JP 2000-220049 A

  The present invention solves the above-described problems, and an object of the present invention is to provide a fabric that is suitable for out-leisure and that is less prone to pilling and snacking.

  The present inventor has reached the present invention as a result of intensive studies in order to solve the above problems.

That is, the present invention is a polyester multifilament yarn in the core,
It is a composite spun yarn having a two-layer structure in which polyester short fibers are arranged in the sheath,
The polyester multifilament yarn in the core
It is composed of a composite filament in which polybutylene terephthalate and polyethylene terephthalate having different heat shrinkage properties are eccentrically combined, and the crimp rate is 60% or more,
The mass ratio of the core to the entire spun yarn is 20 to 70% by mass,
The polymer constituting the polyester short fiber of the sheath is a copolymerized polyester obtained by copolymerizing phosphoric acid in an amount of 0.5 to 1.5 mol%,
The gist of the present invention is a long / short composite spun yarn characterized in that the hot water shrinkage of the spun yarn is 10% or more.

  Next, the present invention will be described in detail.

  Polyester multifilament yarn is arranged on the core of the present invention. The polyester multifilament yarn is composed of a composite filament in which polybutylene terephthalate and polyethylene terephthalate having different thermal shrinkage properties are eccentrically combined. Here, the eccentric and combined form includes an eccentric core-sheath type and a side-by-side type arranged in parallel, but the side-by-side type is preferable. In the present invention, by using a composite filament in which polybutylene terephthalate and polyethylene terephthalate having different heat shrinkage properties are eccentrically combined with each other, a knitted fabric producing machine using the long and short composite spun yarn of the present invention can be dyed, for example. Heat shrinkage can be generated by heat treatment at a high temperature such as processing, so that a high crimping rate can be expressed, and the knitted fabric is given stretch properties, and the entire fabric is packed and the anti-snugging property is enhanced. Can do.

  The combination of polybutylene terephthalate and polyethylene terephthalate is a polyester having different alkyl chain lengths, and can maintain good shrinkage characteristics as a yarn even when it is a long / short composite spun yarn.

  The crimp rate of the polyester multifilament yarn in the present invention is 60% or more. When the crimp rate is less than 60%, the multifilament yarn is covered with a short fiber bundle at the sheath to make a long and short composite spun yarn, and after making it into a fabric, the crimp is sufficiently manifested by heat treatment at high temperature There is a concern that the intended stretchability and anti-snugging property may not be sufficiently exhibited. Polyester multifilament yarn is constrained by being covered with a short fiber bundle at the sheath, and a degree of freedom is lost. Therefore, in the form of composite spun yarn, the tendency of crimping of the multifilament yarn to be inhibited tends to be inhibited. However, the combination of polybutylene terephthalate and polyethylene terephthalate can express crimps well and impart stretchability to the fabric, and can effectively suppress the occurrence of snacking by closing the fabric. . When the value of the crimp rate of the multifilament yarn is large, the crimp is greatly expressed by the heat treatment, but the upper limit of the crimp rate is about 80% in consideration of the appearance of the obtained fabric. The polyester multifilament yarn is preferably false twisted yarn because the binding force between the core portion and the sheath portion can be improved in the composite spun yarn. The crimp rate of the polyester multifilament yarn refers to a crimp rate that appears after being treated in boiling water.

  The ratio of the multifilament yarn in the core part to the whole yarn of the long and short composite spun yarn is 20 to 70% by mass, preferably 30 to 45% by mass ratio. If the ratio of the core part is less than 20%, the sheath part is too constrained, and crimping is difficult to occur by heat treatment, and the desired stretch property cannot be imparted to the fabric. Part of the multifilament yarn cannot be satisfactorily covered with the short fiber bundle of the sheath portion, and a part of the crimped filament appears on the yarn surface, so that snagging is likely to occur. In addition, there is a concern that in the process of obtaining the yarn, the splicing at the time of finishing winding the finely spun yarn may not be successful.

  In the sheath part of the long and short composite spun yarn of the present invention, polyester short fibers composed of polyester copolymerized with phosphoric acid are arranged. In the present invention, since a fiber having less water retention is used to prevent sweat chilling, a polyester short fiber is disposed in the fiber disposed in the sheath. In addition, the short fiber made of polyethylene terephthalate, which is widely used, is very excellent in strength, and is too strong, so that it has poor pilling properties. Therefore, in the present invention, a short polyester fiber composed of polyester copolymerized with phosphoric acid is used. By arranging the fiber, the anti-pilling property is improved.

  The polyester short fiber copolymerized with phosphoric acid maintains strength in the fabric knitting stage. For example, the polyester short fiber is treated by heat treatment in a wet state at a temperature of 130 to 145 ° C. for 10 to 90 minutes. The strength is reduced and the anti-pilling property is excellent. The copolymerization amount of phosphoric acid is 0.5 to 1.5 mol%. If the copolymerization amount is less than 0.5 mol%, the desired anti-pilling property cannot be exhibited. Conversely, if the copolymerization amount exceeds 1.5 mol%, there is a concern of excessive reduction in strength in the heat treatment in the wet state described above. . As the polyester, polyester having an alkylene terephthalate unit as a main repeating unit may be used, and an ethylene terephthalate unit is preferably used.

  The long and short composite spun yarn of the present invention has a hot water shrinkage of 10% or more, preferably 10 to 25%. Since the composite spun yarn has a high hot water shrinkage rate, the entire fabric can be packed by heat treatment such as dyeing, and stretch properties, anti-pilling properties, and anti-snugging properties can be imparted to the fabric. In the present invention, a multifilament yarn made of two specific polyesters that express the above-described crimp rate is arranged in the core portion, and the ratio of the core portion is 20 to 70% by mass. When the spun yarn is coated, the hot water shrinkage rate can be 10% or more.

  The long and short composite spun yarn of the present invention is supplied using a known spinning machine so that the multifilament yarn arranged on the core portion on the front roller in the fine spinning is superposed on the short fiber bundle forming the sheath portion, Thereafter, it can be obtained by twisting and winding. At this time, the covering ratio of the sheath can be increased by applying a constant tension to the multifilament yarn of the core or overfeeding the short fiber bundle of the sheath.

  Ring spinning is the most suitable spinning method. If only for the purpose of preventing pilling, the anti-pilling property can be improved even when a general-purpose polyethylene terephthalate short fiber is used for the sheath by using a bundling spinning method such as MVS, but it can be obtained by bundling spinning. Since the spun yarn has strong yarn binding, it does not exhibit good crimping due to heat treatment and is difficult to impart stretch properties. large. For these reasons, in the present invention, a specific copolyester short fiber excellent in anti-pilling property is disposed in the sheath portion, and ring spinning in which the texture of the obtained spun yarn is soft is preferably employed.

  When creating a knitted fabric using the long and short composite spun yarn of the present invention, it is necessary to close the fabric by shrinkage of the composite spun yarn. Therefore, the knitted fabric is used in combination with yarns other than the long and short composite spun yarn of the present invention. When knitting the ground, it is preferable not to use non-stretchable yarn. Here, the non-stretchable yarn is a yarn that does not have crimps, elasticity, or the like. For example, an ordinary spun yarn made of 100% short fibers or an inelastic filament raw yarn that does not have crimps. Applicable. If a non-stretchable yarn is used, the degree of the fabric cannot be sufficiently packed, the desired stretchability cannot be imparted to the knitted fabric, and the obtained knitted fabric is likely to be snagged. Although it is preferable not to use a non-stretchable thread, it may be used because it does not affect the occurrence of snuggling or pilling unless they are on the same plane. Here, as an example that is not on the same surface, there is a double-layered knitted fabric such as a double face. The long and short composite spun yarn of the present invention is used on one surface, and a non-stretchable yarn is used on the other surface. The non-stretchable yarns arranged on the other side can be used to design the other side's structure, knitting length, etc., so that it is possible to make room for expanding and contracting the fabric. It can be done.

  In addition, in order to give stretchability to the knitted fabric by shrinking the long and short composite spun yarn and improve the anti-snugging property by tightly filling the stitches, the knitted fabric obtained after the composite spun yarn is shrunk by heat treatment is covered with The factor is preferably 0.055 to 0.066, and more preferably 0.058 to 0.062. If the cover factor is less than 0.055, the stitches are sweet and easy to cause snagging. Conversely, if the cover factor exceeds 0.065, the stitches are too clogged, and the spun yarn does not sufficiently exhibit stretch properties. There are concerns. To make the desired cover factor range, use the long and short composite spun yarns of the present invention, and when using in combination with other yarns, consider the shrinkage rate, yarn count, and knitting structure of the yarn to be used together. What is necessary is just to set the gauge and knitting length of a knitting machine suitably.

The cover factor is a value obtained by “JIS L1096 8.8 stitch length and cover factor method”, and is calculated by the following equation.
S1 (mm / loop) = L / n
S1: stitch length (mm / loop)
L: Length of loosened thread (mm)
n: Number of loose stitches (loop)
Fw = 1 / S1√N
Fw: Cover factor in case of constant weight type S1: Stitch length (mm)
N: Constant weight count

  In the knitted fabric using the long and short composite spun yarn of the present invention, the knitting structure is not particularly limited, but considering the anti-pilling property and anti-snugging property, the surface is smoother and the stitches are more uniformly packed. It is preferable to select a simple organization, for example, a tempura knitting, a smooth knitting, and an application organization thereof.

  The knitted fabric using the long and short composite spun yarn of the present invention can be processed by a known dyeing technique, but by performing heat treatment at a temperature of 130 ° C. to 145 ° C. for 10 minutes to 90 minutes in a wet state, It reduces the strength of the polyester short fibers in the sheath and imparts anti-pilling properties, and at the same time develops the crimp of the multifilament yarn in the core to shrink the spun yarn, closes the knitted fabric, Anti-snugging property can be imparted. This heat treatment may be performed in a relaxation stage after refining the living machine, a dyeing stage, or the like. Here, the wet state refers to a state in which the knitted fabric sufficiently contains water or under high humidity in a treatment liquid such as water or a dyeing liquid.

  According to the long and short composite spun yarn of the present invention, it is possible to obtain a knitted fabric having an excellent stretch rate and stretch recovery rate and excellent anti-pilling property and anti-snugging property.

  Next, the present invention will be described specifically by way of examples. In addition, evaluation in an Example was performed with the following method.

<Measurement of yarn>
The filament yarn and long / short composite spun yarn used for the core were measured as follows.
(1) Crimp rate: Filament yarn used for the core, JIS L1013 Stretchability: Measured using a sample that was naturally dried all day and night after being treated in boiling water for 30 minutes as a pretreatment based on method A The results were calculated under the conditions of JIS L1015 and expressed as the crimp rate (%).
(2) Hot water shrinkage rate: About the obtained long and short composite spun yarn, the hot water dimensional change rate in JIS L1013 dimensional change rate: measured based on A method (skein dimensional change rate), and the result is the hot water dimensional change rate (%).

<Measurement of dough>
The knitted fabric using the obtained long and short composite spun yarn was measured as follows.
(1) Elongation rate: JIS L1096 Elongation rate in stretchability of stretchable woven fabrics and knitted fabrics: Measured based on the D method (constant load method of knitted fabrics), and the results are shown as elongation rates (%).
(2) Elongation recovery rate: JIS L1096 Elongation recovery rate and residual strain rate in stretchability of stretchable woven fabrics and knitted fabrics: Measured based on the E method (repetitive constant load method), and the results are shown in stretch recovery rate (%) .
(3) Pilling: Measured based on JIS L1076A method (ICI method), and the result was shown by class judgment.
(4) Snugging: Measured based on JIS L1058 D-3 method (gold saw method), and the result was shown by class judgment.
(5) Appearance of fabric: Appearance of the obtained knitted fabric was confirmed on an inspection table, and the determination was made in the following three stages.
○: No problem was observed in the appearance of the fabric, and the fabric appearance was good.
(Triangle | delta): The fault which is worrisome on an appearance is seen occasionally.
X: Many defects which are anxious on appearance can be seen.
(6) Wearing feeling: A T-shirt is sewn using the obtained knitted fabric, and the wearing feeling when exercising wearing this is determined in the following three stages from the ease of movement, touch and feeling of cold sweat It was.
○: Easy to move, less sweaty feeling, good touch.
(Triangle | delta): There exists a point which is worried a little by easiness of movement and / or a feeling of cold sweat, and / or touch.
X: There exists a point which feels quite uncomfortable by easiness of movement and / or a feeling of cold sweat and / or touch.

Example 1
Polybutylene terephthalate (inherent viscosity IV: 1.2, product name “Novaduran 5020” manufactured by Mitsubishi Chemical Corporation) and polyethylene terephthalate (inherent A polyester filament false twisted yarn (60 dtex / 24f) having a viscosity IV: 0.45) arranged in parallel at a mass ratio of 50:50 is prepared, and a polyester short fiber bundle to be arranged in a sheath portion is prepared by using phosphoric acid 1.3 Prepare short polyethylene terephthalate fibers (1.45 decitex coarse yarn 130 gelen / 30 yards) copolymerized with mol%, feed the coarse yarn from the back roller, draft at 37.15 times draft with apron and front roller The multifilament yarn was fed from the front roller so as to overlap the short fiber bundle. , Z twist, and multiply twisted in several 24 times / inch twist, was 40 fastest composite yarn. The core / sheath ratio was 40/60. In addition, the intrinsic viscosity of the polyester constituting the filament was measured at 20 ° C. using an equal mass mixture of phenol and tetrachloroethane as a solvent.

Using only the obtained long and short composite spun yarns, a 30-inch 28-gauge circular knitting machine is used to knitting a tentacle knitted fabric, and the resulting green machine is scoured and then 140 ° C. × 30 minutes in a liquid dyeing machine. After performing heat treatment in a wet state, a preset knitting fabric with a basis weight of 160 g / m ² was obtained by proceeding with pre-setting, dyeing, drying, water-absorbing resin application and final setting. This fabric had a density of 48 w / 吋 × 60 c / 吋, a knitting length of 2.65 mm / loop, and a cover factor of 0.597.

Comparative Example 1
As polyester multifilament yarn arranged in the core, as a high shrinkage component, 5 mol% of 2-2bis [4- (2-hydroxyethoxy) phenyl] propane and 8 mol% of isophthalic acid, ethylene glycol and terephthalate Polyester terephthalate copolymerized with an acid, polyethylene terephthalate as a low shrinkage component, and a polyester composite multifilament yarn (56 dtex / 12f) arranged in parallel at a mass ratio of 50:50 A 40th composite spun yarn was obtained in the same manner as in Example 1 except that the draft ratio when using the spun yarn was 37.15 times. The core / sheath ratio was 38/62.

Using only the obtained spun yarn, the knitted fabric was knitted and processed in the same manner as in Example 1 to obtain a circular knitted fabric with a basis weight of 150 g / m ² . The density of the fabric was 46 w / 吋 × 58 c / 吋, the knitting length was 2.70 mm / loop, and the cover factor was 0.586.

Comparative Example 2
Spinning was carried out in the same manner as in Example 1 except that a false twisted yarn consisting only of polyethylene terephthalate was used as the polyester multifilament yarn disposed in the core, and a 40th composite spun yarn was obtained. The core / sheath ratio was 40/60. Using only the obtained spun yarn, the knitted fabric was knitted and processed in the same manner as in Example 1 to obtain a circular knitted fabric with a basis weight of 154 g / m ² . The density of the dough was 37 w / 吋 × 56 c / 吋, the knitting length was 2.76 mm / loop, and the cover factor was 0.0573.

Comparative Example 3
In Example 1, the total fineness of the false twisted yarn arranged in the core part was 110 dtex / 48f, the count of the polyester short fiber bundle was 60 gelen / 30 yards, and the draft rate was 41.13 times. Except for the above, spinning was performed in the same manner as in Example 1 to obtain a 40th spun yarn. The core / sheath ratio was 75/25. Using only the obtained spun yarn, the knitted fabric was knitted and processed in the same manner as in Example 2 to obtain a circular knitted fabric with a basis weight of 155 g / m ² . The density of the fabric was 50 w / 吋 × 61 c / 吋, the braiding length was 2.63 mm / loop, and the cover factor was 0.0601.

Comparative Example 4
In Example 1, the total fineness of the false twisted yarn arranged in the core is 22 dtex / 12f, the count of the polyester short fiber bundle is 180 gelen / 30 yards, and the draft rate is 35.94 times. Was spun in the same manner as in Example 1 to obtain a 40th spun yarn. The core / sheath ratio was 15/85. Using only the obtained spun yarn, the knitted fabric was knitted and processed in the same manner as in Example 1 to obtain a circular knitted fabric with a basis weight of 158 g / m ² . This fabric had a density of 38 w / 吋 × 55 c / 吋, a knitting length of 2.69 mm / loop, and a cover factor of 0.0587.

Comparative Example 5
In Example 1, spinning was carried out in the same manner as in Example 1 except that polyethylene terephthalate short fibers not copolymerized with phosphoric acid were used as the polyester short fibers arranged in the sheath part. It was a thread. The core / sheath ratio was 40/60. Using only the obtained spun yarn, the knitted fabric was knitted and processed in the same manner as in Example 1 to obtain a circular knitted fabric with a basis weight of 158 g / m ² . The density of this fabric was 47 w / 吋 × 59 c / 吋, the braided length was 2.64 mm / loop, and the cover factor was 0.0599.

  Table 1 shows the evaluation results of the multifilament yarns and spun yarns of Example 1 and Comparative Examples 1 to 5. Table 2 shows the evaluation results of the knitted fabrics of Example 1 and Comparative Examples 1 to 5.

  As shown in Tables 1 and 2, Example 1 was a knitted fabric with excellent stretch properties and good anti-pilling properties and anti-snugging properties, and was excellent in both appearance and wearing feeling.

  On the other hand, Comparative Example 1 was inferior to Examples in both anti-pilling properties and snuggling properties.

  In Comparative Example 2, the obtained knitted fabric was inferior in stretch properties and inferior in anti-snugging properties.

  In Comparative Example 3, since the ratio of the filament yarn in the core portion in the spun yarn was large, the short fiber bundle in the sheath portion could not be sufficiently covered. As a result, the appearance was large and the anti-snugging property was poor. . In addition, there were problems in the spinning process, such as poor spinning and splicing.

  In Comparative Example 4, since the ratio of the filament yarn in the core portion in the spun yarn is small, the short fiber bundle in the sheath portion strongly restrains the movement of the filament yarn in the core portion, and the crimp cannot be sufficiently expressed. It was inferior to stretchability and anti-snugging property.

In Comparative Example 5, a lot of pilling occurred because the short fiber strength of the sheath portion was too high. Moreover, since many pillings generate | occur | produced, it became inferior to evaluation of snuggling.

Claims (6)

Polyester multifilament yarn at the core,
It is a composite spun yarn having a two-layer structure in which polyester short fibers are arranged in the sheath,
The polyester multifilament yarn in the core
It is composed of a composite filament in which polybutylene terephthalate and polyethylene terephthalate having different heat shrinkage properties are eccentrically combined, and the crimp rate is 60% or more,
The mass ratio of the core to the entire spun yarn is 20 to 70% by mass,
The polymer constituting the polyester short fiber of the sheath is a copolymerized polyester obtained by copolymerizing phosphoric acid in an amount of 0.5 to 1.5 mol%,
A long / short composite spun yarn, wherein the hot water shrinkage of the spun yarn is 10% or more. The long and short composite spun yarn according to claim 1, wherein the polyester multifilament yarn of the core is false twisted yarn. 3. The long / short composite spun yarn according to claim 1, wherein the spun yarn is produced by ring spinning. A knitted fabric knitted using the long and short composite spun yarn according to any one of claims 1 to 3, wherein the polyester multifilament yarn at the core constituting the long and short composite spun yarn by heat treatment A knitted fabric characterized by having crimps and having a snag test evaluation of 4.5 or more. The knitted fabric according to claim 4, wherein the knitted fabric is knitted using only the long and short composite spun yarn according to any one of claims 1 to 3. A knitted fabric knitted using the long and short composite spun yarn according to any one of claims 1 to 3 is heat-treated in a wet state at a temperature of 130 ° C to 145 ° C for a time of 10 minutes to 90 minutes, 5. The method for producing a knitted fabric according to claim 4 , wherein the strength of the polyester short fibers is reduced, and at the same time, crimping of the multifilament yarns in the core is caused to shrink the long and short composite spun yarns.