JP2017190548A - Elastic warp knitted fabric and sport clothing - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an elastic warp knitted fabric having high-power stretch and high recovery properties with sufficient burst strength, equipped with a function for assisting vigorous body motion and a motion support function for reducing fatigue, and a sport clothing made from the elastic warp knitted fabric.SOLUTION: An elastic warp knitted fabric formed using two reeds including a front reed for non-elastic fiber and a back reed for elastic fiber has a stress of 9.8 N or more and 19.6 N or less at an elongation of 100% in any one alone of the warp direction and the weft direction, and an inflection constant of less than 2.0 in the area with an elongation rate of 100% or less in the elongation-stress curve.SELECTED DRAWING: None

Description

  The present invention relates to an elastic warp knitted fabric knitted by two ridges and sports clothing manufactured using the elastic warp knitted fabric.

  Conventionally, an elastic warp knitted fabric obtained by knitting elastic fibers and non-elastic fibers is mainly used as a material for clothing such as sports shirts / pants, inners, spats, swimsuits, and the like that require stretch properties.

  In recent years, there has been an increasing demand for elastic warp knitted fabrics having a function of assisting body movements accompanying intense exercise and a motion support function of reducing muscle fatigue. In order to meet this requirement, a method of finishing the fabric thickly or increasing the fineness of the non-elastic fiber which is the main material of the fabric is used.

  However, simply increasing the fineness of the non-elastic fiber or increasing the final fabric density to make the fabric thicker will increase the bursting strength, but the clothes will become bulky, making it difficult to move and making the texture rougher. In particular, there was a problem that it was not suitable as sports clothing accompanied by intense exercise.

  In order to overcome this problem, a method has been proposed in which elastic fibers are thickened and knit with non-elastic fibers using the elastic fibers as an insertion tissue (see, for example, Patent Document 1). However, the fabric obtained by this method has a so-called warai problem and lacks practicality. Here, “warai” refers to a phenomenon in which the elastic fiber in the fabric is displaced from the initial position and the fabric is distorted by repeatedly stretching and relaxing the fabric.

  In addition, as a method of providing an elastic warp knitted fabric that is lightweight and excellent in warp direction and weft direction stretch characteristics, it is possible to combine elastic fibers and inelastic fibers by using a combination of a four-sheet kite and a special combination of an insertion structure and a knit structure. A method of knitting is proposed (for example, see Patent Document 2). However, in the case of this method, since a peculiar pattern feeling is given to the fabric, there is no versatility. In addition, since it is knitted with four sheets, the productivity is low, the cost is increased, and the practicality is poor.

  On the other hand, as a knitted fabric for swimwear, at least one surface is smoothed, and the smoothed surface has a water-repellent part that defines an area ratio, and further has a basis weight, warp direction, and elongation rate in the weft direction. Has been proposed (see, for example, Patent Document 3). However, although the knitted fabric by this method is suitable for swimwear, there is a problem that it is not suitable for sports clothing that requires high power elongation and high recovery.

JP 2000-199159 A JP 2005-89909 A JP-A-8-311751

  The present invention has been made in view of the above, and has a high power extension / high recovery property and sufficient bursting strength, a function for assisting intense body movement and a motion support function for reducing muscle fatigue. It is an object of the present invention to provide an elastic warp knitted fabric and sports clothing manufactured using the elastic warp knitted fabric.

  The elastic warp knitted fabric according to the present invention is a warp knitted fabric knitted by two ridges, and includes a front heel made of non-elastic fibers and a back heel made of elastic fibers, and has a warp direction or a weft direction. The stress at 100% elongation in only one of them is not less than 9.8N and not more than 19.6N, and the inflection constant of the elongation / stress curve in the region where the elongation rate is not more than 100% is less than 2.0. Features.

The elastic warp knitted fabric according to the present invention is characterized in that, in the above invention, the basis weight is 180 g / m ² or more and 240 g / m ² or less.

  The elastic warp knitted fabric according to the present invention is characterized in that, in the above-mentioned invention, the inelastic fiber is made of a fiber selected from at least one of a polyester fiber, a polyamide fiber and a polypropylene fiber.

  In the elastic warp knitted fabric according to the present invention, in the above invention, the elastic fiber is selected from at least one of a polyurethane elastic fiber, a polyether ester elastic fiber, a polyamide elastic fiber, and a polystyrene elastic fiber. It consists of fibers.

  The elastic warp knitted fabric according to the present invention is characterized in that, in the above invention, the bursting strength is 300 kPa or more.

  In the elastic warp knitted fabric according to the present invention, the work recovery rate after 100% elongation / recovery in the direction in which the stress at 100% elongation is 9.8 N or more and 19.6 N or less is 50% or more. It is characterized by that.

  In the above-described invention, the elastic warp knitted fabric according to the present invention has an elongation recovery rate of 85% or more after 100% elongation / recovery in a direction in which the stress at 100% elongation is 9.8 N or more and 19.6 N or less. It is characterized by that.

  The elastic warp knitted fabric according to the present invention is characterized in that, in the above invention, the knitted fabric structure is an inverted half structure.

  The sports apparel according to the present invention is manufactured using at least a part of the elastic warp knitted fabric.

  According to the present invention, there is provided an elastic warp knitted fabric having a high power extension / high recovery property and sufficient bursting strength, a function of assisting intense body movement and a motion support function of reducing muscle fatigue, and Sports apparel produced using the elastic warp knitted fabric can be obtained.

FIG. 1 is a diagram showing an aspect of an elongation / stress curve of an elastic warp knitted fabric according to an embodiment of the present invention. FIG. 2 is a diagram for explaining an inflection constant in the elongation / stress curve of the elastic warp knitted fabric according to the embodiment of the present invention. FIG. 3 is a knitting diagram of an elastic warp knitted fabric according to an embodiment of the present invention. FIG. 4 is a knitted fabric diagram of an elastic warp knitted fabric according to a comparative example. FIG. 5 is a knitting diagram of an elastic warp knitted fabric according to a comparative example.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention (hereinafter referred to as “embodiments”) will be described with reference to the accompanying drawings. The elastic warp knitted fabric according to the embodiment of the present invention is a warp knitted fabric knitted by two ridges, in which non-elastic fibers are arranged on the front heel, elastic fibers are arranged on the back heel, and knitting Do it.

  As the warp knitting machine, either a single tricot machine or a single raschel machine can be used, and it is not particularly limited. However, it is more preferable to use a single tricot machine in consideration of good production efficiency and a variety of knitting machine gauges that are easy to select.

  In the case of a single tricot machine, the number of baskets is usually 2 to 4, but the production efficiency decreases and the basis weight increases as the number of baskets increases. Therefore, it is preferable to select a knitted fabric structure composed of two sheets. In addition, from the viewpoint of the stretch characteristics of the knitted fabric and the stability of the knitted fabric form, a knitted fabric structure in which each ridge is formed in a loop is preferable.

  From such a viewpoint, the knitted fabric structure in which two ridges and each ridge are loop-formed includes a half structure, a reverse half structure, a double denbi structure, a double cord structure, an atlas structure, and a satin structure, and any of them can be used. It is. Among these, it is preferable to select a reverse half structure that is easy to reduce the weight per unit weight as a sports material, has high power elongation / recovery characteristics and shape stability, and is easy to obtain the smoothness of the fabric surface.

  The elastic warp knitted fabric according to the present embodiment is formed by arranging non-elastic fibers on the front heel and elastic fibers on the back heel. By arranging elastic fibers on the back folds, elastic fibers are easily arranged in the middle layer of the knitted fabric, so that it covers the disadvantages unique to elastic fibers such as poor dyeability and suppresses the increase in basis weight. Can do. In addition, since the non-elastic fibers arranged on the front heel are easily disposed on the front and back of the knitted fabric, it is easy to express the characteristics of the non-elastic fibers. In particular, by adopting a reverse half structure and arranging elastic fibers in the back heel plain cord structure, the knit loop interval of the elastic fibers is made longer than in the case where elastic fibers are arranged in the back heel Denby structure of the half structure. By setting, the structural distortion of the knitted fabric can be suppressed, and the high recoverability of the elastic fiber can be sufficiently reflected in the knitted fabric.

  Moreover, in the knitted fabric design of the elastic warp knitted fabric according to the present embodiment, it is important to set the yarn feeding length balance of each kite to be used. The yarn feed length of the elastic warp knitted fabric is called the runner length. The runner length is the yarn feed length per unit loop. Since the number of unit loops is determined to be 480, the runner length is the yarn feeding length per 480 course. The runner length is determined for each kite according to the number of kites used. The ratio of the runner length between each side is called the runner ratio.

  A specific example of the runner ratio of the elastic warp knitted fabric according to the present embodiment will be described. For example, in the case of an inverted half structure, the runner ratio of the elastic fiber of the back heel plane cord structure to the non-elastic fiber of the front heel Denby structure is preferably 1: 1.20 to 1.40. In this way, by reducing the runner length of the elastic fiber of the back heel plane cord structure compared to the runner ratio 1: 1.50 to 1.80 of the general two-way reverse half structure, high power extension and high recovery are achieved. An elastic warp knitted fabric having properties and excellent shape stability can be obtained.

  The inelastic fiber used for the elastic warp knitted fabric according to the present embodiment is preferably made of a fiber selected from at least one of a polyester fiber, a polyamide fiber, and a polypropylene fiber. The yarn types of these synthetic fibers are not particularly limited, but it is preferable to use multifilament yarns. This is because the multifilament yarn has a better touch than the monofilament yarn and is excellent in wearing feeling.

  Synthetic fibers constituting the multifilament yarn include aromatic polyesters made of polyethylene terephthalate, polytrimethylene terephthalate, polybutylene terephthalate, etc., excluding elastic fibers (fibers having rubber-like elasticity) corresponding to JIS L0204-3 (1998). Fibers, aromatic polyester fibers obtained by copolymerizing a third component with an aromatic polyester, aliphatic polyester fibers represented by L lactic acid as a main component, polyamides such as nylon 6, nylon 66, and nylon 56 System fibers, polypropylene fibers and the like. In the present embodiment, these synthetic fibers can be used alone or as a mixture of two or more kinds, but it is preferable to use a synthetic fiber mainly composed of a polyester fiber or a polyamide fiber.

  In general, polyester fibers are dyed with disperse dyes, but when polyurethane fibers described later are used as elastic fibers, the disperse dyes contaminate the polyurethane fibers, and thus fastness such as color transfer in the final product. It may cause defects. Therefore, when a polyester fiber is employed as the inelastic fiber, it is more preferable to use a cation dyeable polyester fiber that can be dyed with a cationic dye.

  Further, as synthetic fiber multifilament yarn, filament yarn such as false twisted yarn or mixed yarn can be used in addition to a normal flat yarn.

  The total fineness of the synthetic fiber multifilament yarn is preferably 22 to 55 dtex, and more preferably 22 to 44 dtex. When this total fineness is less than 22 dtex, the bursting strength is insufficient. On the other hand, when the total fineness is larger than 55 dtex, the basis weight becomes too heavy.

  The number of filaments of the synthetic fiber multifilament yarn is preferably 10 to 55 filaments, more preferably 24 to 44 filaments. When the number of filaments is less than 10 filaments, the texture becomes rough and hard. Further, when the number of filaments is larger than 55 filaments, physical properties such as snag and pilling deteriorate.

  The fineness of the single fiber constituting the synthetic fiber multifilament yarn is preferably 0.5 to 5.5 dtex, and more preferably 0.5 to 3.0 dtex. When the single fiber fineness is less than 0.5 dtex, physical properties such as snag and pilling deteriorate. When the single fiber fineness is larger than 5.5 dtex, the texture becomes rough and hard.

  The cross-sections of single fibers are round, triangular, Y-shaped, H-shaped, T-shaped, T-shaped, W-shaped, X-shaped, plus (+)-shaped, Dharma-shaped, and eight-leaf-shaped. Any of them may be used and is not particularly limited.

  On the other hand, the elastic fiber used in the present invention is preferably composed of a fiber selected from at least one of a polyurethane-based elastic fiber, a polyether / ester-based elastic fiber, a polyamide-based elastic fiber, and a polystyrene-based elastic fiber.

  Any elastic fiber may be used as long as it is made of a fiber having rubber-like elasticity, and for example, a fiber corresponding to JIS L0204-3 (1998) is used. Such a fiber includes, for example, a fiber that has a characteristic of restoring to a length close to the original length when the external force is removed while extending to 5 to 7 times the original length with respect to the external force. Specific examples include polyurethane-based elastic fibers, polyester-based elastic fibers having the above-described elasticity, polyether-ester-based elastic fibers, and polystyrene-based elastic fibers. Among these, it is preferable to use polyurethane-based elastic fibers represented by “Lycra” (registered trademark) manufactured by Toray Operontex Co., Ltd., which is excellent in stretchability and restorability. The thickness of the elastic fiber is preferably 77 dtex or more and 165 dtex or less, and more preferably 88 dtex or more and 144 dtex or less.

  The mixing ratio of the non-elastic fibers and the elastic fiber yarns to be knitted is such that the non-elastic fibers are 25% by mass to 60% by mass and the elastic fibers are 40% by mass to 75% by mass in the knitted fabric raw machine or the final finished knitted fabric. Preferably there is.

  If the elastic fiber yarn is less than 40% by mass, the target sports shirt / pant material or sports inner material will be insufficiently stretched. If it is greater than 75% by mass, the stretch power will be too strong, making it difficult to attach and detach. To increase.

The basis weight of the elastic warp knitted fabric according to the present embodiment is preferably 180 g / m ² or more and 240 g / m ² or less, more preferably 190 g / m ² or more and 230 g / m ² or less, and 200 g / m ^2. More preferably, it is 220 g / m ² or less. If the basis weight is larger than 240 g / m ^2, it will not be possible to obtain the light weight required as a sports shirt / pant material or sports inner material, and the movement will be hindered. The wearability may be inferior, such as causing discomfort during wearing. When the basis weight is less than 180 g / m ² , it is easy to move, but it is inferior to the motion support function that assists the target body's intense movement and reduces muscle fatigue.

  According to the elastic warp knitted fabric according to the present embodiment, it has a lightweight basis weight that is different from the conventional sports shirt / pant material and sports inner material having high-power stretch characteristics. In addition, it is possible to obtain a motion support function that assists in intense body movement and reduces muscle fatigue.

  The elastic warp knitted fabric according to the present embodiment preferably has a bursting strength of 300 kPa or more, more preferably 350 kPa or more, and further preferably 400 kPa or more. When the bursting strength of the elastic warp knitted fabric is less than 300 kPa, the fabric may be broken due to intense movement during exercise.

  Further, the thickness of the elastic warp knitted fabric according to the present embodiment is preferably 0.40 mm or more and 0.80 mm or less, more preferably 0.40 mm or more and 0.70 mm or less, and the viewpoint of ease of movement. From 0.45 mm to 0.65 mm is more preferable. If the thickness of the elastic warp knitted fabric is larger than 0.80mm, it will be too thick as a sports shirt / pants material or sports inner material, and it will feel bulky while moving, or movement will be hindered. May increase fatigue and may cause poor discomfort when worn. In addition, when the thickness of the elastic warp knitted fabric is less than 0.40 mm, although it is easy to move, the fabric is too thin to cause problems such as see-through, which is not preferable from the viewpoint of aesthetics. In addition, when the thickness of the elastic warp knitted fabric is less than 0.40 mm, the bursting strength is low, and the physical properties of the fabric are not suitable as a sports shirt / pants material or a sports inner material.

  In the elastic warp knitted fabric according to the present embodiment, the stress at 100% elongation in only one of the warp direction and the weft direction is 9.8 N or more and 19.6 N or less. 100% extension in either the longitudinal direction or the weft direction is the result of the measurement of the skin elongation during physical exercise by the present inventors. When the angle is about 100 degrees, the skin stretch of the buttocks is set to about 100%. In addition, according to the stress range described above (9.8 N or more and 19.6 N or less), with respect to 100% of the maximum skin elongation, it stretches without feeling too much resistance even at high power, and is highly recovered, It is possible to obtain a motion support function that assists in violent body movement and reduces muscle fatigue.

  This high power stretch and high recovery need only be in either the warp direction or the weft direction of the elastic warp knitted fabric, and the direction of the knitted fabric having this characteristic will follow the body's skin stretch. Use it. For example, in the case of an elastic warp knitted fabric having a two-way reverse half structure, the weft direction of the knitted fabric may be used as the height direction because the weft direction has higher power elongation and higher recoverability than the warp direction.

  The present inventors performed exercise wear evaluation with sportswear of an elastic warp knitted fabric having high power elongation and high recovery. As a result, the knitted fabric's high-power stretch / high-recovery direction is aligned with the high-strength part of the skin in the height direction, and the knitted fabric's low-power stretch / low-recovery direction is at a different part from the height direction. Were used together. As a result, the present inventors have found that it is easier to move than an elastic warp knitted fabric having high power stretchability and high recoverability in both the warp direction and the weft direction, with ease of movement and a moderate feeling of tightening to the muscles.

  FIG. 1 is a conceptual diagram showing one aspect of the elongation / stress curve of the elastic warp knitted fabric of the present embodiment. In the elongation / stress curve L1 shown in the figure, point A is the zero load position (elongation start position), point B is the stress position when the knitted fabric is 100% elongated, and point C is the zero load position after elongation. (Recovery position). Point D indicates the position when the knitted fabric is stretched 100%. A specific method for evaluating the elongation / stress of the knitted fabric will be described in Examples described later.

  FIG. 2 is a conceptual diagram for explaining an inflection region in an elongation / stress curve of an elastic warp knitted fabric. The elongation / stress curve L2 shown in the figure shows the original zero load position after the knitted fabric is stretched from the stretch start position (point E) to the constant load stretch position (point F, stretch ratio L%) of 14.7N. It is an extension | expansion and stress curve at the time of making it recover to (point G). The inflection area in the extension / stress curve L2 means an area where the curve is bent more than a predetermined reference during extension (point E → point F).

Specifically, first, as a reference extension region in FIG. 2, a stress difference using an area I ₀ from an extension rate of 10% (stress a (N)) to an extension rate of 20% (stress b (N)) as a reference region. b-a (N) is obtained. Here, the reference region I ₀ is the region having an elongation rate of 10 to 20%, which is a region that starts to stabilize after the elongation stress rises, and that the elongation / stress curve can be regarded as linear. This is because.

Thereafter, a region I is set in which a difference in elongation rate is 10% in a region where the elongation rate is larger than that of the reference region, and a stress difference dc (N) at an end point of this region is obtained. At this time, the inflection constant K is defined by the following equation.
Inflection constant K = (dc) / (ba) (1)
The inflection constant K, for the slope of the straight line m1 passing an end point of a region I _0, an amount corresponding to the ratio of the slope of the straight line m2 passing through the end points of the region I. If the intersection of the two straight lines m1 and m2 is P, the region I is always located on the right side of the intersection P. In the present embodiment, a region where the inflection constant K is 2.0 or more is defined as an inflection region. At this time, in the elastic warp knitted fabric of the present embodiment, the inflection constant K of the elongation / stress curve in the region where the elongation rate is 100% or less is less than 2.0. In other words, in the elastic warp knitted fabric of the present embodiment, the inflection region of the elongation / stress curve does not exist in the region where the elongation rate is 100% or less.

  A sports garment made using at least a part of an elastic warp knitted fabric having such inflection characteristics changes to a region where the stretch rate of the knitted fabric is 100% or less, which corresponds to 100% of the maximum skin stretch during exercise. Since there is no music area, the stretch / recovery characteristics of the knitted fabric can easily follow the intense movements of the movement. Therefore, it is easy to move and it is difficult to feel fatigue. On the other hand, when using an elastic warp knitted fabric in which the inflection zone exists in the region where the stretch rate of the knitted fabric is 100% or less, it becomes difficult for the stretch / recovery characteristics of the knitted fabric to follow the intense movement in the motion, It is hard to move and feels tired.

  Also, in the region where the inflection constant K is less than 2.0, the elongation / stress curve at the time of elongation increases in a gentle curve after the stress increases almost linearly at the time of elongation. Therefore, also in this sense, the sports apparel manufactured using at least a part of the elastic warp knitted fabric of the present embodiment is easy to move and does not feel fatigue. On the other hand, in the region where the inflection constant K, which indicates the inflection region, is 2.0 or more, the stretch curve rises gradually and gradually rises as the knitted fabric stretches, so it is difficult to move and feels tired. It becomes easy clothing.

  An example of the ideal stretch / recovery characteristic is an elastic warp knitted fabric close to a rubber-like elastic body. In this case, from the start of expansion, the region is almost linear including the region where the expansion rate is 100% or more, and the inflection constant K is always less than 2.0. Such an elastic warp knitted fabric has no inflection zone. A specific method for measuring the inflection region and the inflection constant will be described in an embodiment described later.

The elastic warp knitted fabric of the present embodiment preferably has a work recovery rate of 100% elongation / recovery after stretching / recovery of 50% or more in a direction where the stress at 100% elongation is 9.8 N or more and 19.6 N or less. . In the elongation / stress curve L1 shown in FIG. 1, the area surrounded by the recovery curve that recovers from point B to point C and the elongation rate axis (work recovery area of the elongation / stress curve) is S1 (cm ² ). When the area surrounded by the elongation curve, the recovery curve, and the elongation rate axis (the work loss area of the elongation / stress curve) is S2 (cm ² ), the elongation work is S1 + S2 (cm ² ). Is given as an amount proportional to. At this time, the work recovery rate of 100% elongation / recovery is
Work recovery rate (%) = S1 / (S1 + S2) × 100 (2)
Defined by The work loss rate (%) for 100% elongation / recovery is defined as S2 / (S1 + S2) × 100.

  The elastic warp knitted fabric of the present embodiment has a work recovery rate as defined above of 50% or more, more preferably 55% or more, and further preferably 60% or more. When the work recovery rate is less than 50%, the work loss rate of the knitted fabric is large and the elongation recovery rate is inferior. Sports clothing made using elastic warp knitted fabric with a work recovery rate of less than 50% is inferior in fit and poor in appearance due to the fact that clothing stretching and recovery due to intense exercise cannot follow the movement of the body. It becomes.

  In the case of an elastic warp knitted fabric close to a rubber-like elastic body exhibiting ideal elongation / stress characteristics, the elongation / stress curve is almost linear, so the work recovery rate is 90% or more. On the other hand, in the case of a general elastic warp knitted fabric, the maximum value of the work recovery rate is about 70% because many yarns of inelastic fibers are included. A specific method for evaluating the work recovery rate of the knitted fabric will be described in an example described later.

The elastic warp knitted fabric of the present embodiment preferably has a stretch recovery rate of 85% or more after 100% stretching / recovery in a direction in which the stress at 100% stretching is 9.8 N or more and 19.6 N or less. . In FIG. 1, the recovery length after recovery from point B, which is the stress position at 100% elongation, to point C, which is the recovery arrival position, is R (cm), and the residual strain length at this time is N (cm) When the elongation recovery rate is
Elongation recovery rate (%) = R / (N + R) × 100 (3)
Defined by This elongation recovery rate is preferably 90% or more. Sports apparel made using elastic warp knitted fabric with an elongation recovery rate of less than 85% is inferior in fit and poor in appearance because the apparel stretch and recovery due to intense exercise cannot follow the movement of the body. It becomes. A specific method for evaluating the stretch recovery rate of the knitted fabric will be described in Examples described later.

  In the elastic warp knitted fabric of the present embodiment, heat treatment, scouring, dyeing and the like of the knitted raw machine are not particularly limited, and general processing steps suitable for the material configuration and application to be used and What is necessary is just to implement according to a processing method. For example, in the case of a two-way tricot knitted fabric composed of nylon and polyurethane elastic fibers, relax, scour, and pre-heat set with a continuous relaxer heat set machine, dye with a liquid dye machine, and then with a heat set machine. Just finish.

  As ancillary processing at the dyeing stage, for example, water-repellent processing agent, antifouling processing agent, antibacterial processing agent, deodorant processing agent, deodorant processing agent, sweat absorption processing agent, moisture absorption processing agent, and UV absorption processing by applying functional agents It is preferable to apply the agent. In that case, the processing agent to be applied can be appropriately selected according to the required use and demand.

  Moreover, as an incidental process other than the process of providing the functional agent, a calendar process, an emboss process, a print process, and the like can be appropriately applied according to the required characteristics of the final application.

  The elastic warp knitted fabric of the present embodiment preferably has a laundry shrinkage rate of −6% or less in both the warp direction and the weft direction, and more preferably −5% or less. This washing shrinkage rate can easily be reduced to -6% or less by optimizing the fineness balance of the yarn used, the runner ratio, and the dyeing processing conditions in the knitted fabric design described above. When the washing shrinkage rate exceeds -6%, the clothes are greatly shrunk by washing, and it becomes difficult to exercise, and the appearance is poor. In addition, what is necessary is just to perform evaluation of a washing shrinkage rate according to JISL1096 (2010) 8.39G method (household electric washing machine method).

  In addition, sports clothing manufactured using at least a part of the elastic warp knitted fabric of the present embodiment is, for example, all parts of sports shirts / pants and sports inners, or only the thighs and upper body It is also possible to use it. Moreover, if the area of use of the elastic warp knitted fabric of the present embodiment is 30% or more of the total area of sports clothing, it is possible to realize a motion support function that assists in violent body movement and reduces muscle fatigue. it can. As described above, the elastic warp knitted fabric of the present embodiment can be widely used for all parts of sports apparel or a part of a specific part.

  According to the embodiment of the present invention described above, a front collar made of non-elastic fibers and a back collar made of elastic fibers, and stress at 100% elongation in only one of the warp direction and the weft direction Is not less than 9.8N and not more than 19.6N, and the inflection constant of the elongation / stress curve in the region where the elongation rate is 100% or less is less than 2.0, so high power elongation / high recovery and sufficient Provided is an elastic warp knitted fabric having bursting strength, a function of assisting intense body movement and a motion support function of reducing muscle fatigue, and sports clothing manufactured using the elastic warp knitted fabric be able to.

  Next, the elastic warp knitted fabric and sports apparel of the present invention will be described more specifically with reference to examples, but the present invention is not limited to these examples. The evaluation used in the present invention was performed by the following methods.

(1) Fabric weight of elastic warp knitted fabric The fabric weight was measured from the finished knitted fabric according to the method A described in Section 8.3 of JISL1096 (2010). That is, three test pieces of 20 cm × 20 cm were taken from the knitted fabric after the final processing, and the mass (g) in each standard state was measured. The mass per 1 m ² (g / m ² ) by the following formula The average value was calculated and rounded off to obtain the basis weight (g / m ² ).
Weight per unit area (g / m ² ) = W / A
Here, W represents the mass (g) of the test piece in the standard state, and A represents the area (m ² ) of the test piece.

(2) Thickness of elastic warp knitted fabric The thickness of the final knitted fabric was measured according to Method A (JIS method) described in Section 8.4 of JISL1096 (2010). That is, measure the thickness (mm) at a fixed time and under a constant pressure using a thickness measuring instrument at five different locations of the sample, calculate the average value, and round off to the nearest two decimal places. did. The constant pressure during the measurement at this time was 0.7 kPa.

(3) Rupture strength of elastic warp knitted fabric From the knitted fabric after final processing, the fracture strength was measured according to the method A (Murlen type method) described in Section 8.18 of JISL1096 (2010). That is, burst strength (kPa) was measured at three different locations of the sample, and the average value was calculated and expressed.

(4) Stress at 100% elongation of elastic warp knitted fabric Three specimens each having a width of 5 cm and a length of 15 cm were collected from a sample that had been temperature-controlled and humidified to a standard state. Immediately after the test piece was pulled to a 100% elongation rate under the conditions of a constant speed extension type tensile tester with a self-recording device, the upper and lower grip widths were 5 cm on both sides, 10 cm between the grips, an initial load of 3 cN, and a tensile speed of 10 cm / min. Draw an elongation / stress curve (Fig. 1) to return to zero load, determine the stress at 100% elongation (corresponding to M in Fig. 1), calculate the average value for each of the warp and weft directions, and round off And expressed with one decimal place.

(5) Inflection region and inflection constant K when elastic warp knitted fabric is stretched at 14.7N constant load
First, in the same manner as in (4) above, three test pieces each in the longitudinal direction and the weft direction were collected, and the test pieces were taken with the same tensile tester and with the same vertical grip width, grip interval, initial load, tensile force. An elongation / stress curve (FIG. 2) was drawn after pulling to 14.7 N load under speed conditions and immediately returning to zero load.

Thereafter, the stress difference ba−a (N) at the end point (elongation rate 10%, 20%) of the reference region I ₀ in FIG. 2 is calculated, and two intersection points of the reference region I ₀ and the elongation / stress curve L2 are calculated. Draw a straight line m1 through which.

Subsequently, a region I having a larger elongation rate than the reference region I ₀ is set, a stress difference dc (N) at the end point of the region I is calculated, and the end point of the region I and the extension / stress curve L2 are calculated. A straight line m2 passing through two intersections with the curve at the time of extension was drawn.

  The inflection constant K is calculated according to the above-described equation (1) using the two stress differences b−a (N) and dc (N). As a result of the calculation, if K ≧ 2.0, the region I is set as the inflection region. On the other hand, if K <2.0 as a result of the calculation, a new area I in which the minimum value of the expansion rate is increased by a predetermined value (for example, 10%) is set, and the process is repeated until an area of K ≧ 2.0 is found.

  The position of this inflection zone is calculated by calculating the average value of the stretch ratios of three sheets each satisfying the inflection constant K ≧ 2.0. Expressed in 10% interval units to include values. For example, when the average value is 85%, it is expressed as 80 to 90%.

(6) Work recovery rate after 100% elongation / recovery of elastic warp knitted fabric:
In the same manner as in (4) above, three specimens are taken in each of the warp direction and the weft direction, and the specimens are subjected to the same tensile tester and the same upper and lower grip width, grip interval, initial load, and tensile speed conditions. After pulling up to 100%, immediately return to zero load. This operation is repeated three times to draw a third extension / stress curve (see FIG. 1).

  Thereafter, the areas S1 and S2 shown in FIG. 1 are measured. At this time, using a digital planimeter (KP-90 type, manufactured by Uchida Yoko Co., Ltd.), calculate the average value of three specimens measured in the warp direction and the weft direction, and round off to the nearest decimal place. Expressed in digits.

  Subsequently, the work recovery rate after 100% elongation / recovery of the elastic warp knitted fabric was calculated by substituting the measured areas S1 and S2 into the above formula (2).

(7) Elongation recovery rate after 100% elongation / recovery of elastic warp knitted fabric:
100% of the elastic warp knitted fabric is obtained by calculating the recovery length R and the residual strain length N based on the same elongation / stress curve as in the above (6) (see FIG. 1), and substituting it into the above-described equation (3). The elongation recovery rate after elongation / recovery was calculated. The elongation recovery rate was obtained by calculating an average value obtained by measuring three specimens each in the warp direction and the weft direction, rounded off, and expressed by one decimal place.

(8) Comprehensive evaluation as materials for sports apparel The criteria for comprehensive evaluation are as follows.
○: Easy to move, less fatigue, and suitable as a material for sports clothing.
(Triangle | delta): It is suitable as a raw material of sports clothing without a hindrance.
X: It is not suitable as a material for sports clothing because it is difficult to move and feels tired.
In the case of ○ and △ on the judgment display, it was judged as “pass” because it can feel a motion support function that follows the intense movement of the body when exercising compared to normal sports wear.

[Example 1]
A flat yarn made of nylon with a total fineness of 44 dtex, a filament count of 34 filaments (manufactured by Toray Industries, Inc.) and a polyurethane elastic fiber of 130 dtex ("Lycra" (registered trademark), manufactured by Toray Operontex Corporation). Knitted with a single tricot 28 gauge machine to obtain a knitted fabric structure. Specifically, nylon yarn is arranged on the knitted fabric constituting yarn Y1 of the front heel (F) and the knitted fabric constituting yarn Y2 of the back heel (B) by the two folds shown in the knitted fabric knitting diagram of FIG. Polyurethane-based elastic fibers were arranged on the knitted fabric and knitted with an inverted half structure to obtain a knitted fabric producing machine having a mixture ratio of 32% by mass of nylon and 68% by mass of polyurethane-based elastic fibers.

The loop formation of this reverse half structure is as follows. In the row of knitting needles n _{1 to nk} in FIG. 3, the interval between the rows of knitting needles at the front rod (F) is 0, 1, 2 and the interval between the rows of knitting needles at the back rod (B) is 0, Assuming 1, 2 and 3, the loop formation of the knitted fabric constituting yarn Y1 of the front heel (F) is 1-0 / 1-2, and the loop formation of the knitted fabric constituting yarn Y2 of the back heel (B) is 2-3. / 1-0.

  Next, this raw machine knitted fabric is dyed with an acid dye in a bath at a temperature of 100 ° C. Relaxed and scoured in a bath at a temperature of 80 ° C., in accordance with the dyeing process of a normal nylon two-way tricot knitted fabric. In addition, as an incidental process, a sweat absorbing process using a water absorbent finishing agent for nylon was performed. After that, it was dried and finished, and finished as a knitted fabric for sports shirts and pants.

The basis weight of this elastic warp knitted fabric was 220 g / m ² , the thickness was 0.41 mm, the bursting strength was 355 kPa, and the stress at 100% elongation was 52.0 N in the warp direction and 16.3 N in the weft direction. The position of the inflection region in the elongation / stress curve did not exist in the region of 100% or less when the 14.7N constant load was elongated in the warp direction, and there was little warp elongation and the elongation rate was 100% or less. On the other hand, in the latitude direction, it was not present in the region of 100% or less and the region of 100% or more. From this, it was found that the inflection constant K does not exist.

  The work recovery rate after stretching / recovery of this elastic warp knitted fabric is 50.2% in the warp direction and 70.1% in the weft direction, and the stretch recovery rate after stretching / recovery is 91.9% in the warp direction. The direction was 95.7%.

  From these facts, the elastic warp knitted fabric of Example 1 has a lower warp direction in the knitted fabric than the warp direction, and has a low stress when stretched by 100%, and has a high work recovery rate and a high stretch recovery rate. In addition, since the inflection region does not exist in the region of 100% or less in both the warp direction and the warp direction, it was found that it is suitable for sports clothing.

  A half-pants for athletics was produced with a garment design that uses the weft direction of this elastic warp knitted fabric in the height direction of the body. As a result, it was confirmed that the material is suitable for sports apparel because it has a good feeling of proper tightening on the body accompanying the movement and can realize a motion support function that follows intense movement.

[Example 2]
A flat yarn made of cationic dyeable polyester with a total fineness of 56 dtex, 24 filaments (“Tetron” (registered trademark) manufactured by Toray Industries, Inc.), and 90 dtex of polyurethane elastic fibers (Toray Operontex, Inc.) ) “Lycra” (registered trademark)) and knitted in the same manner as in Example 1. That is, with a single tricot 28 gauge machine, a cationic dye-dyeable polyester is arranged on the knitted fabric constituting yarn Y1 of the front fold (F) and the knitted fabric configuration of the back ridge (B) by the two folds shown in FIG. Polyurethane elastic fibers were arranged on the yarn Y2 and knitted with a reverse half structure to obtain a knitted fabric producing machine having 55% by mass of the cationic dye-dyeable polyester and 45% by mass of the polyurethane elastic fibers.

  Next, this raw machine knitted fabric is dyed with a cationic dye in a bath at a temperature of 130 ° C. Relaxed and scoured in a bath at a temperature of 80 ° C. according to the dyeing process of a normal polyester two-way tricot knitted fabric. In addition, sweat processing with a water-absorbing processing agent for polyester was performed as an accessory processing. After that, it was dried and finished, and finished as a knitted fabric for sports shirts and pants.

The basis weight of this elastic warp knitted fabric was 215 g / m ² , the thickness was 0.59 mm, the bursting strength was 381 kPa, and the stress at 100% elongation was 44.5 N in the warp direction and 12.1 N in the weft direction. The position of the inflection region in the elongation / stress curve was 70 to 80% in the warp direction and 100 to 110% in the weft direction. The inflection constant K in each inflection region was 3.3 in the warp direction and 2.3 in the weft direction.

  The work recovery rate after stretching / recovery of this elastic warp knitted fabric is 49.7% in the warp direction and 60.3% in the weft direction, and the stretch recovery rate after stretching / recovery is 86.2% in the warp direction. The direction was 88.3%.

  From these, it can be inferred that it is excellent as a knitted fabric for sports apparel as in Example 1.

  A long pants for athletics was produced with a garment design that uses the weft direction of this elastic warp knitted fabric in the height direction of the body, and in the same way as in Example 1, it was 100 m short for five men and women aged 19-22. As a result of the trial fitting evaluation by distance running, although the moderate tightening feeling to the body accompanying the movement is slightly weaker than in the first embodiment, the evaluation that the motion support function that follows intense movement can be fully realized is obtained, and sports It was confirmed that the material is suitable for clothing.

[Comparative Example 1]
A flat yarn made of the same cationic dye-dyeable polyester as in Example 2 with a total fineness of 56 dtex, a filament count of 24 filaments (“Tetron” (registered trademark) manufactured by Toray Industries, Inc.), and 44 dtex of polyurethane-based elastic fibers ( Using Toray Operontex Co., Ltd. “Lycra” (registered trademark)), a single tricot 28 gauge machine was used to obtain a knitted fabric structure. Specifically, by using two folds shown in the knitted fabric diagram of FIG. 4, cationic dye-dyeable polyester is used for the knitted fabric constituting yarn Y1 of the front heel (F), and the knitted fabric constituting yarn of the back heel (B). Polyurethane elastic fibers were arranged on Y2 and knitted with a half structure to obtain a knitted fabric producing machine having a mixing ratio of 82% by mass of cationic dye-dyeable polyester and 18% by mass of polyurethane elastic fibers.

This half-structure loop formation is as follows. In the rows of knitting needles n _{1 to nk} in FIG. 4, the intervals between the rows of knitting needles at the front rod (F) are 0, 1, 2, and 3, and the intervals between the rows of knitting needles at the back rod (B) are Assuming 0, 1 and 2, the loop formation of the knitted fabric constituting yarn Y1 of the front heel (F) is 1-0 / 2-3, and the loop formation of the knitted fabric constituting yarn Y2 of the back heel (B) is 1-2. / 1-0.

  Next, in the same manner as in Example 2, this raw machine knitted fabric was relaxed and scoured in a bath at a temperature of 80 ° C. according to the dyeing process of a normal polyester two-way tricot knitted fabric, pre-heat set, in a bath at a temperature of 130 ° C. Then, perspiration processing with a water-absorbing finishing agent for polyester was performed as dyeing with a cationic dye and ancillary processing. After that, it was dried and finished, and finished as a knitted fabric for sports shirts and pants.

The basis weight of this elastic warp knitted fabric was 210 g / m ² , the thickness was 0.70 mm, the bursting strength was 422 kPa, and the stress at 100% elongation was 10.5 N in the warp direction and 13.3 N in the weft direction. The position of the inflection zone on the elongation / stress curve was 90-100% in the warp direction and 60-70% in the weft direction. The inflection constant K in each inflection region was 2.3 in the warp direction and 2.7 in the weft direction.

  The work recovery rate after stretching / recovery of this elastic warp knitted fabric is 54.1% in the warp direction and 40.6% in the weft direction, and the stretch recovery rate after stretching / recovery is 86.3% in the warp direction. The direction was 85.6%.

  For these reasons, although the stress at 100% elongation is suitable in both the warp and weft directions of the knitted fabric, the position of the inflection region is 100% or less in both directions, and is not suitable as a material for sports clothing. I understood that.

  A half-pants for track and field athletic design was designed using clothes design that uses the warp direction of this elastic warp knitted fabric in the height direction of the body, and in the same manner as in Example 1, 100 m shorter than 5 men and women aged 19-22 The evaluation of try-on by distance running was performed. As a result, the stretchability of the knitted fabric to the body accompanying the movement was poor, it was difficult to move, and it was easy to get tired, so that it was evaluated that it was not suitable as a knitted fabric for sports clothing.

[Comparative Example 2]
A flat yarn made of nylon with a total fineness of 33 dtex and a filament number of 26 filaments (manufactured by Toray Industries, Inc.), and 22 dtex of polyurethane-based elastic fibers (“Lycra” (registered trademark) manufactured by Toray Operantex Co., Ltd.) Used and knitted with a single tricot 28 gauge machine to obtain a knitted fabric structure. Specifically, nylon yarn is arranged on the knitted fabric constituting yarn Y1 of the front heel (F) by the three folds shown in the knitted fabric knitting diagram of FIG. 5, and the knitted fabric constituting yarn Y3 of the middle heel (M) is arranged. The same nylon yarn is arranged, and a polyurethane elastic fiber is arranged on the knitted fabric constituting yarn Y2 of the back heel (B), and the knitted fabric constituting yarn Y3 of the middle heel (M) is inserted. To obtain a knitted fabric raw machine having 90% by mass of nylon and 10% by mass of polyurethane elastic fiber.

  The loop formation of the three-sheet insertion tissue is as follows. In FIG. 5, the loop formation of the knitted fabric constituent yarn Y1 of the front heel (F) is 1-0 / 2-3, and the loop formation of the knitted fabric constituent yarn Y3 of the middle heel (M) is 0-0 / 1-1. The loop formation of the knitted fabric constituting yarn Y2 of the back heel (B) is 1-2 / 1-0.

  Next, in the same manner as in Example 1, this raw knitted fabric was relaxed and scoured in a bath at a temperature of 80 ° C., preheated, and a bath at a temperature of 100 ° C. according to the dyeing process of a normal nylon two-way tricot knitted fabric. In particular, dyeing with an acid dye and perspiration processing with a water-absorbing finishing agent for nylon were performed as ancillary processing. After that, it was dried and finished, and finished as a knitted fabric for sports shirts and pants.

The basis weight of this elastic warp knitted fabric was 227 g / m ² , the thickness was 0.73 mm, the bursting strength was 450 kPa, and the stress at 100% elongation was 12.0 N in the warp direction and 13.7 N in the weft direction. The position of the inflection zone in the elongation / stress curve was 70 to 80% in the warp direction and 60 to 70% in the weft direction. The inflection constant K in each inflection region was 2.4 in the warp direction and 2.7 in the weft direction.

  The work recovery rate after stretching / recovery of this knitted fabric is 47.5% in the warp direction and 40.7% in the weft direction. The stretch recovery rate after stretching / recovery is 82.7% in the warp direction and 85 in the weft direction. 8%.

  For these reasons, as in Comparative Example 1, the warp and weft directions of the knitted fabric are suitable for stress at 100% elongation, but the inflection zone is in the range of 100% or less in both directions. It turns out that it is not suitable as a material for clothing.

  A half-pants for track and field athletic design was designed using clothes design that uses the warp direction of this elastic warp knitted fabric in the height direction of the body, and in the same manner as in Example 1, 100 m shorter than 5 men and women aged 19-22 The evaluation of try-on by distance running was performed. As a result, it was evaluated that the stretchability of the knitted fabric to the body accompanying the movement was poor, it was difficult to move, and it was easy to get tired. Furthermore, because the knitted fabric structure is a three-sheet inserted structure, the elastic fiber in the knitted fabric is displaced from the initial position due to intense movement and the fabric is distorted, which is not suitable as a material for sports clothing. Became clear.

A table summarizing the results of Examples 1 and 2 and Comparative Examples 1 and 2 described above is shown.

L1, L2 Elongation / stress curve Y1, Y2, Y3 Knitted fabric yarn (F) Front heel (M) Middle heel (B) Back heel

Claims (9)

It is a warp knitted fabric knitted by two sheets,
A front collar made of non-elastic fibers;
A back bag made of elastic fibers,
With
The inflection constant of the elongation / stress curve in the region where the stress at 100% elongation in either the warp direction or the weft direction is 9.8 N or more and 19.6 N or less and the elongation rate is 100% or less is 2. An elastic warp knitted fabric characterized by being less than 0. The elastic warp knitted fabric according to claim 1, wherein the basis weight is 180 g / m ² or more and 240 g / m ² or less.   The elastic warp knitted fabric according to claim 1 or 2, wherein the non-elastic fiber is made of a fiber selected from at least one of a polyester fiber, a polyamide fiber, and a polypropylene fiber.   4. The elastic fiber according to claim 1, wherein the elastic fiber comprises a fiber selected from at least one of a polyurethane elastic fiber, a polyether ester elastic fiber, a polyamide elastic fiber, and a polystyrene elastic fiber. The elastic warp knitted fabric according to any one of the above.   The elastic warp knitted fabric according to any one of claims 1 to 4, wherein the bursting strength is 300 kPa or more.   6. The work recovery rate after 100% elongation / recovery in the direction in which the stress at 100% elongation is 9.8 N or more and 19.6 N or less is 50% or more. The elastic warp knitted fabric according to Item.   The elongation recovery rate after 100% elongation / recovery in the direction in which the stress at 100% elongation is 9.8 N or more and 19.6 N or less is 85% or more. The elastic warp knitted fabric according to Item.   The elastic warp knitted fabric according to any one of claims 1 to 7, wherein the knitted fabric structure is an inverted half structure.   A sports apparel produced by using at least a portion of the elastic warp knitted fabric according to any one of claims 1 to 8.

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