JP2012122171A - Warp knitted fabric and method for producing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a warp knitted fabric which has stretchability with a well-balanced stretch in a warp direction and a weft direction, and a plain surface appearance, and thereby is suitable for a field of various sportswear and a field of underwear.SOLUTION: The warp knitted fabric comprises a half texture having a front part formed of non-elastic yarn and a back part formed of polyurethane elastic yarn, and satisfies following requirements: (1) 1.3≤C/W≤1.6 (where C represents a weft density (course/inch) of the warp knitted fabric and W represents a warp density (wale/inch) of the warp knitted fabric); and (2) a content of the non-elastic yarn in the warp knitted fabric is 70-90 mass% and a content of the polyurethane elastic yarn is 30-10 mass%.

Description

  The present invention relates to a warp knitted fabric excellent in a stretch balance in the warp direction and the weft direction used in the field of sports clothing and the underwear field, and a method for producing the same.

  Warp knitted fabrics composed of elastic yarns and non-elastic yarns are excellent in stretchability and are therefore widely used in sports clothing and various underwear undergarments. Particularly, these days, they are used in sports inners. In particular, a half-structure warp knitted fabric is frequently used for sports inners because the surface appearance is plain (Patent Document 1). However, the warp knitted fabric of the conventional half structure has a significantly lower stretch rate in the warp direction compared to the stretch rate in the weft direction. It did not satisfy the feeling.

  On the other hand, warp knitted fabrics of an atlas structure are known as warp knitted fabrics having an excellent stretch balance in the warp direction and the weft direction (Patent Documents 2 and 3). However, warp knitted fabrics of an atlas structure are used only for limited apparel due to the knitted fabric appearance having a border-like shape and a hard texture, and are limited in use.

JP-A 64-20302 JP 2003-129361 A JP 2007-131956 A

  An object of the present invention is to provide a warp knitted fabric suitable for various sports apparel and underwear fields and having a stretch property excellent in the stretch balance in the warp direction and the weft direction and a plain surface appearance.

The gist of the first invention of the present invention is a half-structure warp knitted fabric having a front portion made of inelastic yarn and a back portion made of polyurethane elastic yarn, and satisfies the following requirements (1) and (2): Located in warp knitted fabric.
(1) 1.3 ≦ C / W ≦ 1.6
(However, C represents the weft density (course / inch) of the warp knitted fabric, and W represents the warp density (well / inch) of the warp knitted fabric.)
(2) The content of inelastic yarn in the warp knitted fabric is 70 to 90% by mass, and the content of polyurethane elastic yarn is 30 to 10% by mass.
The gist of the second invention of the present invention is that a warp knitted fabric knitted into a half structure under the following condition (a) using an inelastic yarn for the front portion and a polyurethane elastic yarn for the back portion, It is in the manufacturing method of the warp knitted fabric characterized by heat-setting so that (b) may be satisfied.
(A) 1.7 ≦ C ₀ /G≦2.1
(However, C ₀ represents the on-machine course (course / inch) of the warp knitting machine, and G represents the gauge (well / inch) of the warp knitting machine.)
(B) 2.5 ≦ W / G ≦ 2.75
(W represents the warp density (well / inch) of the warp knitted fabric.)

  The warp knitted fabric of the present invention is a half-structure warp knitted fabric, has a stretch property excellent in the stretch balance in the warp direction and the weft direction, has a plain surface appearance due to the half structure, and is further provided with a cation as an inelastic yarn. When using dye-dyeable yarns, the color developability and dyeing fastness will be excellent, so according to the present invention, stretch properties with excellent stretch balance suitable for various sports clothing fields and underwear fields. Thus, it is possible to provide a warp knitted fabric rich in color, and to obtain such a warp knitted fabric stably with high productivity.

It is a load-elongation curve for the measurement of the elongation force (S value) in this invention.

Hereinafter, embodiments of the present invention will be described in detail.
<Half structure warp knitted fabric having a front portion made of inelastic yarn and a back portion made of polyurethane elastic yarn>
The warp knitted fabric of the present invention is a half-structure warp knitted fabric having a front part and a back part. The front part is made of inelastic yarn and the back part is made of polyurethane elastic yarn.

  The polyurethane elastic yarn in the present invention is a polyester-based urethane elastic yarn, a polyether-based urethane elastic yarn, or the like, and the type and manufacturing method thereof are not particularly limited. Polyurethane elastic yarns have extremely high extensibility and stretch with a small force, so that they can follow the movement of the body without feeling uncomfortable and give excellent body fit.

  Examples of the inelastic yarn in the present invention include synthetic fiber filament yarn such as polyester fiber, polyamide fiber, polypropylene fiber and acrylic fiber, and regenerated and semi-synthetic fiber filament yarn such as rayon and acetate fiber.

  If dyeing of warp knitted fabrics containing polyurethane elastic yarn is considered, warp knitted fabrics must be capable of normal pressure dyeing, and the dyed product must have excellent color developability and dyeing fastness. is there. From such a viewpoint, the non-elastic yarn used together with the polyurethane elastic yarn is preferably a cationic dye-dyeable filament yarn, more preferably a cationic dye-dyeable polyester filament yarn, particularly 5-sodium sulfoisophthalic acid. This is a cationic dyeable dyeable polyester filament yarn made of polyethylene terephthalate copolymerized with 1.5 to 2.5 mol% and adipic acid 3 to 10 mol%.

  Cationic dye-dyeable polyester filament yarn composed of polyethylene terephthalate copolymerized with 1.5-2.5 mol% of 5-sodium sulfoisophthalic acid and 3-10 mol% of adipic acid is vividly colored when dyed with a cationic dye. A warp knitted fabric having a high dyeing fastness, a Young's modulus of 85 cN / dtex or less, a soft texture of the warp knitted fabric, and including such a cationic dye-dyeable polyester filament yarn as an inelastic yarn. When it is used as sports clothes or underwear, a comfortable wearing feeling is easily obtained. Further, when the single fiber fineness of the filament yarn used as the inelastic yarn is 1 dtex or less, the texture of the warp knitted fabric becomes softer and a more comfortable wearing feeling is easily obtained.

<(1) 1.3 ≦ C / W ≦ 1.6, (2) Inelastic yarn content in the warp knitted fabric is 70 to 90% by mass, polyurethane elastic yarn content is 30 to 10% by mass>
The warp knitted fabric of the present invention has requirements (1) 1.3 ≦ C / W ≦ 1.6 (where C is the weft density of the warp knitted fabric (course / inch), W is the warp knitted fabric warp density (well / Inch))), and requirement (2) The content of the non-elastic yarn in the warp knitted fabric needs to satisfy 70 to 90% by mass, and the content of the polyurethane elastic yarn needs to satisfy 30 to 10% by mass. is there.
By setting C / W within the range of 1.3 to 1.6, the stretch balance in the warp direction and the weft direction can be improved. Moreover, the warp knitted fabric is combined with the knitted structure of the warp knitted fabric by setting the content of the non-elastic yarn in the warp knitted fabric to 70 to 90% by mass and the content of the polyurethane elastic yarn to 30 to 10% by mass. Gives good stretchability.

  In addition to the requirements (1) and (2), the warp knitted fabric of the present invention further includes requirement (3) elongation at constant load (A rate) in the warp direction and elongation at constant load (A) in the weft direction. Rate) is 170 to 250%, requirement (4) difference (E value) between warp-direction A rate and weft-direction A rate is 50 or less, and requirement (5) warp-direction elongation recovery rate (B-rate) Both the elongation recovery rate (B rate) in the weft direction is 80% or more, the requirement (6) the longitudinal extension force (S value) is 90 to 170 cN, and the requirement (7) the extension force (S value) in the weft direction is 40. It is desirable to satisfy ˜90 cN.

<(3) Both the elongation at constant load (A rate) in the warp direction and the elongation at constant load (A rate) in the weft direction are both 170 to 250%>
When the A ratio in the warp direction and the A ratio in the weft direction are both 170% or more, and preferably 180%, excessive tightening is eliminated when exercising while wearing them as clothing. In addition, since both the A-rate in the warp direction and the A-rate in the weft direction are 250% or less, appropriate tightening can be obtained when clothing or the like is worn.

<(4) Difference (E value) between A-rate in warp direction and A-rate in latitude direction is 50 or less>
In the warp knitted fabric of the present invention, an E value of 50 or less means that the warp and stretch directions are well balanced, and the body fit when worn when used as a garment such as an inner for sports. A feeling becomes good.

<(5) Both longitudinal recovery rate (B rate) and weft recovery rate (B rate) are 80% or more>
When the B ratio in the warp direction and the B ratio in the weft direction are both 80% or more, it becomes difficult for the warp knitted fabric to stretch and not return. It becomes difficult to decrease.

<(6) Stretching force in the warp direction (S value) is 90 to 170 cN>
In the warp knitted fabric of the present invention, when the S value in the warp direction is 90 cN or more, moderate tightening can be obtained when exercising while wearing them as clothing. Moreover, when the S value in the warp direction is 170 cN or less, excessive tightening on the body is eliminated when clothing or the like is worn.

<(7) Wet extension force (S value) is 40 to 90 cN>
Further, in the warp knitted fabric of the present invention, when the S value in the weft direction is 40 cN or more, moderate tightening can be obtained when wearing and exercising as clothing. Moreover, when the S value in the weft direction is 90 cN or less, excessive tightening on the body is eliminated when clothing or the like is worn.

<Method for producing warp knitted fabric of the present invention>
In producing the warp knitted fabric of the present invention, the non-elastic yarn as described above is used for the front portion, and the polyurethane elastic yarn as described above is used for the back portion. The knitted warp knitted fabric is heat set so as to satisfy the following condition (b).
(A) 1.7 ≦ C ₀ /G≦2.1
(However, C ₀ represents the on-machine course (course / inch) of the warp knitting machine, and G represents the gauge (well / inch) of the warp knitting machine.)
(B) 2.5 ≦ W / G ≦ 2.75
(W represents the warp density (well / inch) of the warp knitted fabric.)

The gauge G of the warp knitting machine in the knitting of the warp knitted fabric of the present invention is not particularly limited, but in order to make the thickness and texture of the warp knitted fabric suitable for various sports clothes and underwear, it is 20 to 40 gauge. It is preferable to be within the range of (well / inch). Moreover, on-press course C ₀ of the warp knitting machine in the production of warp knitted fabric of the present invention also, for the same reason, preferably in the range of 40 to 80 courses / inch.

  When producing the warp knitted fabric of the present invention, a warp knitted fabric knitted into a half structure with a warp knitting machine, preferably a warp knitted fabric dyed by a conventional method, with a W / G of 2.5. Heat set to be in the range of ~ 2.75. In dyeing warp knitted fabrics, among the inelastic yarns and polyurethane elastic yarns, in particular, the inelastic yarn is disposed on the front portion, and therefore, a dyeing method according to the dyeability of the inelastic yarn is preferably used. Cationic dye-dyeing made of polyethylene terephthalate copolymerized with 1.5 to 2.5 mol% of 5-sodium sulfoisophthalic acid and 3 to 10 mol% of adipic acid, in which non-elastic yarn is a dye dyeable yarn, particularly preferably used When the polyester filament yarn is used, normal dyeing using a cationic dye is adopted, and a dyed warp knitted fabric with high dyeing fastness can be obtained.

  In heat setting, it is preferable to use a heat treatment apparatus capable of strictly controlling the width and temperature of the warp knitted fabric because the heat set conditions greatly affect the stretchability and dimensional stability of the warp knitted fabric. As a preferred heat treatment apparatus used for heat setting, a pin tenter can be mentioned. The heat set temperature varies depending on the inelastic yarn used, and is not particularly limited. For example, the inelastic yarn is composed of 1.5 to 2.5 mol% of 5-sodium sulfoisophthalic acid and 3 to 10 mol% of adipic acid. When it is a cationic dyeable dyeable polyester filament yarn made of polymerized polyethylene terephthalate, it is preferably 140 to 180 ° C., and the heat set time is 30 seconds or more, and 90 seconds or less in consideration of productivity. Preferably, under such heat setting conditions, the warp knitted fabric can be uniformly heat set without causing fusion.

  Hereinafter, the present invention will be specifically described by way of examples. In addition, the elongation rate at constant load (A rate), the elongation recovery rate (B rate), and the elongation force (S value) representing the stretch characteristics in the present invention and examples were measured by the following methods. In addition, the texture and wearing feeling were evaluated by handling.

<Elongation at constant load (A rate)>
(1) Two 2.5 cm × 16.0 cm test pieces were collected from the warp knitted fabric.
(2) The test piece was attached to a constant speed extension tensile tester with an upper grip portion of 2.5 cm, a lower grip portion of 3.5 cm, and a grip interval of 10.0 cm.
(3) A load of 22.1 cN was applied to the test piece at a speed of 30 cm ± 2 cm / min, and the length L ₁ (cm) when the load was applied was measured.
(4) The elongation at constant load (A rate) was determined by the following equation.
A rate (%) = [(L ₁ -10.0) /10.0] × 100
(5) The above-mentioned elongation at constant load (A rate) is measured on the second test piece, the arithmetic mean value is calculated from the two measured values, and one decimal place is rounded off. Shown as a rate.

<Elongation recovery rate (B rate)>
(1) Two 2.5 cm × 16.0 cm test pieces were collected from the warp knitted fabric.
(2) The test piece was attached to a constant speed extension tensile tester with an upper grip portion of 2.5 cm, a lower grip portion of 3.5 cm, and a grip interval of 10.0 cm.
(3) The test piece was stretched to 80% elongation at a speed of 30 cm ± 2 cm / min (the length L at that time was 8.0 cm), and then returned to the original position at the same speed, as shown in FIG. A load-elongation curve was drawn.
(4) The load - than elongation curve was measured residual elongation L _0.
(5) The elongation recovery rate (B rate) was determined by the following equation.
B rate (%) = [(8.0−L ₀ ) /8.0] × 100
(6) The above-described elongation recovery rate (B rate) is measured on the second test piece, the arithmetic mean value is calculated from the two measured values, and the decimal point is rounded off to the B rate. Indicated.

<Extension force (S value)>
(1) Two 2.5 cm × 16.0 cm test pieces were collected from the warp knitted fabric.
(2) The test piece was attached to a constant speed extension tensile tester with an upper grip portion of 2.5 cm, a lower grip portion of 3.5 cm, and a grip interval of 10.0 cm.
(3) The test piece was stretched to 80% elongation at a speed of 30 cm ± 2 cm / min, then returned to the original position at the same speed, and a load-elongation curve as shown in FIG. 1 was drawn.
(4) The elongation-recovery of (3) was then repeated twice, and a load-elongation curve was similarly drawn.
(5) In the first load-elongation curve and the third load-elongation curve, the load at 50% elongation (= extension force (S value (cN))) was measured.
(6) Measure the elongation force (S value) at the time of 50% elongation on the second test piece, calculate the arithmetic mean value from the two measured values, and round off one decimal place. Indicated as S value.

Example 1
As an inelastic yarn, a cationic dye-dyeable polyester filament yarn comprising polyethylene terephthalate copolymerized with 2.25 mol% of 5-sodium sulfoisophthalic acid and 5 mol% of adipic acid (Bright 33 dtex / 36 filament manufactured by Mitsubishi Rayon Textile Co., Ltd.) (F), Young's modulus of 70 cN / dtex), polyether urethane elastic yarn (Asahi Kasei Fibers Co., Ltd., 22 dtex) as elastic yarn, and cationic dye-dyeable polyester filament yarn arranged on the front, An ether-based urethane elastic yarn is arranged on the back portion and knitted into a warp knitted fabric with a half structure of front 10/23 and back 10/10 using a warp knitting machine (Karl Meyer, gauge G: 32). . The on-machine course C0 of the warp knitting machine at this time is 65 courses / inch, the content of the cationic dye-dyeable polyester filament yarn in the raw machine obtained is 84% by mass, and the content of the polyether urethane elastic yarn is It was 16% by mass. The obtained raw machine is scoured by a conventional method, dyed with a cationic dye at a dyeing temperature of 105 ° C., and then used with a pin tenter, and at 60 ° C. at 170 ° C. so that the warp density W of the finished product is 87 wells / inch. Heat set for 2 seconds. The finished weft density C was 123 course / inch.

The warp knitted fabric thus obtained had the warp density W and the weft density C as shown in Table 1 and had a basis weight of 202 g / m ^2. The stretch characteristics of the obtained warp knitted fabric are shown in Table 1. The obtained warp knitted fabric has both sublimation fastness and washing fastness, contamination and discoloration grade 5 and there is no problem in fastness to dyeing, and there is no problem with the A rate in the warp direction and the A rate in the weft direction (E value) ) Is 38 and has excellent elasticity in the expansion and contraction balance of the background, is thin and light, and has a comfortable fit and a body fit that follows the movement of the body without a sense of incongruity. It was suitable as a material for skin wear. In Table 1,% of the content of inelastic yarn and elastic yarn means mass%.

(Example 2)
After the raw machine obtained in Example 1 was dyed with a cationic dye, the set width was set so that the warp density W of the finished product was 80 wells / inch, and W / G was 2.50 (80/32). Except for the above, heat setting was performed in the same manner as in Example 1. The obtained warp knitted fabric had a warp density W of 80 wells / inch, a weft density C of 121 course / inch, and a basis weight of 185 g / m ^2. The stretch characteristics of the obtained warp knitted fabrics are shown in Table 1. The obtained warp knitted fabric has no problem in dyeing fastness, has an E value of 31 and has excellent elasticity in the stretch balance of the background, thin and light, comfortable wearing feeling and body movement It was excellent in body fit to follow without a sense of incongruity.

(Example 3)
As an inelastic yarn, a cationic dye-dyeable polyester filament yarn made of polyethylene terephthalate copolymerized with 2.25 mol% of 5-sodium sulfoisophthalic acid and 5 mol% of adipic acid (Mitsubishi Rayon Textile, Bright 56 dtex / 48f, Young's modulus 70 cN / dtex), polyether urethane elastic yarn (Asahi Kasei Fibers Co., Ltd., 44 dtex) is used as the elastic yarn, cationic dye dyeable polyester filament yarn is arranged in the front part, and polyether urethane elastic The yarn was arranged in the back portion and knitted into a warp knitted fabric with a half structure of front 10/23 and back 12/10 using a warp knitting machine (Karl Meyer, gauge G: 28). The on-machine course C0 of the warp knitting machine at this time is 50 courses / inch, the content of the cationic dye-dyeable polyester filament yarn in the obtained raw machine is 84% by mass, and the content of the polyether urethane elastic yarn is It was 16% by mass. The obtained raw machine is scoured by a conventional method, dyed with a cationic dye at a dyeing temperature of 105 ° C., and then used with a pin tenter, and at 60 ° C. at 170 ° C. so that the warp density W of the finished product is 76 wells / inch. Heat set for 2 seconds. The finished weft density C was 104 courses / inch.

The warp knitted fabric obtained has the warp density W and the weft density C as shown in Table 1, has a basis weight of 283 g / m ² , both sublimation fastness and wash fastness are contamination and discoloration are 5th grade, and dye fastness There was no problem at all. The stretch characteristics of the obtained warp knitted fabric are shown in Table 1. The resulting warp knitted fabric has a W / G of 2.71 (76/28), a low E value of 40%, an excellent stretch balance of warp and stretch, thin, light and comfortable to wear It was excellent in body fit to follow the feeling and movement of the body without a sense of incongruity, and was suitable as various sports clothes and skin wear materials.

(Comparative Example 1)
After the raw machine obtained in Example 1 is dyed with a cationic dye, the set width is set so that the warp density W of the finished product is 74 wells / inch, and W / G is 2.31 (74/32). Except for the above, heat setting was performed in the same manner as in Example 1. The obtained warp knitted fabric had a warp density W of 74 wells / inch, a weft density C of 125 courses / inch, and a basis weight of 164 g / m ^2. The stretch characteristics of the obtained warp knitted fabrics are shown in Table 1. The obtained warp knitted fabric has no problem in dyeing fastness, but W / G is as low as 2.31, C / W is as high as 1.69, E value is large as 92, It was inferior and lacked body fit.

(Comparative Example 2)
Using the same inelastic yarn and elastic yarn as used in Example 1, using a warp knitting machine (Karl Meyer, gauge G: 32), front 10/12/23/21, back 23/21/10 / Knitted into warp knitted fabric with 12 atlas organizations. The on-machine course C0 of the warp knitting machine at this time was 110 courses / inch, and the content of the inelastic yarn in the obtained raw machine was 78% by mass, and the content of the elastic yarn was 22% by mass. The obtained raw machine is scoured by a conventional method, dyed with a cationic dye at a dyeing temperature of 105 ° C., and then heat set at 170 ° C. for 60 seconds using a pin tenter, and the warp density W is 66 wells / inch. The density C was finished at 160 course / inch and the basis weight was 129 g / m ² . The stretch characteristics of the obtained warp knitted fabric are shown in Table 1. The obtained warp knitted fabric had no problem in fastness to dyeing, W / G was 2.06 (66/32), E value was as small as -2, and the warp stretch balance was excellent. The appearance of the surface of the knitted fabric exhibited a border pattern coming from the atlas structure.

(Comparative Example 3)
In Example 3, the raw machine obtained by knitting was scoured by a conventional method, dyed with a cationic dye at a dyeing temperature of 105 ° C., and then finished with a pin tenter to obtain a warp density W of 64 wells / inch. Thus, heat setting was performed at 170 ° C. for 60 seconds. The finished weft density C was 104 courses / inch and the basis weight was 240 g / m ^2. The stretch characteristics of the obtained warp knitted fabric are shown in Table 1. The obtained warp knitted fabric has no problem in dyeing fastness, but W / G is as low as 2.29 (64/28), C / W is as high as 1.63, E value is as large as 89, It was inferior to the expansion / contraction balance of the background and lacked body fit.

  The warp knitted fabric of the present invention is a half-structure warp knitted fabric, has a stretch property excellent in the stretch balance in the warp direction and the weft direction, has a plain surface appearance due to the half structure, and is further provided with a cation as an inelastic yarn. When dye-dyeable yarn is used, it has excellent color developability and dyeing fastness, and the warp knitted fabric of the present invention requires a balance of stretch and body fit in various sports apparel and underwear fields. It is extremely suitable as a material for applications that can be used, and for applications that provide richness in color.

L ₀ Length of residual elongation L Length when stretched to 80% elongation (8.0 cm)

Claims (5)

A warp knitted fabric having a half structure having a front portion made of non-elastic yarn and a back portion made of polyurethane elastic yarn, which satisfies the following requirements (1) and (2).
(1) 1.3 ≦ C / W ≦ 1.6
(However, C represents the weft density (course / inch) of the warp knitted fabric, and W represents the warp density (well / inch) of the warp knitted fabric.)
(2) The content of inelastic yarn in the warp knitted fabric is 70 to 90% by mass, and the content of polyurethane elastic yarn is 30 to 10% by mass. The warp knitted fabric according to claim 1, further satisfying the following requirements (3) to (7).
(3) Elongation at constant load (A rate) in the warp direction and Elongation at constant load (A rate) in the weft direction are both 170 to 250%
(4) The difference (E value) between the A rate in the longitudinal direction and the A rate in the weft direction is 50 or less. (5) Both the longitudinal recovery rate (B rate) and the longitudinal recovery rate (B rate) are both 80% or more (6) Stretching force (S value) in the warp direction is 90 to 170 cN
(7) The extension force (S value) in the weft direction is 40 to 90 cN The inelastic yarn is a dye dyeable polyester filament yarn made of polyethylene terephthalate copolymerized with 1.5 to 2.5 mol% of 5-sodium sulfoisophthalic acid and 3 to 10 mol% of adipic acid. 2. Warp knitted fabric according to 2. Heat setting a warp knitted fabric knitted into a half structure under the following condition (a) using an inelastic yarn at the front part and a polyurethane elastic thread at the back part so as to satisfy the following condition (b) A method for producing a warp knitted fabric characterized.
(A) 1.7 ≦ C ₀ /G≦2.1
(However, C ₀ represents the on-machine course (course / inch) of the warp knitting machine, and G represents the gauge (well / inch) of the warp knitting machine.)
(B) 2.5 ≦ W / G ≦ 2.75
(W represents the warp density (well / inch) of the warp knitted fabric.) The cationic dyeable dyeable polyester filament yarn made of polyethylene terephthalate copolymerized with 1.5 to 2.5 mol% of 5-sodium sulfoisophthalic acid and 3 to 10 mol% of adipic acid is used as the inelastic yarn. Manufacturing method of warp knitted fabric.