JP5779341B2 - Elastic warp knitted fabric - Google Patents

Description

  The present invention provides an elastic warp knitted fabric whose temperature rises instantaneously when stretched in a fabric containing elastic yarns.

Conventionally, clothes such as heat-insulating clothing that increase in temperature when worn are manufactured using a cloth mixed with moisture-absorbing heat-generating fibers such as cellulose, and heat is generated by insensitive excretion or sweating from the human body when worn. (For example, refer to Patent Document 1). However, the moisture-absorbing exothermic fiber does not generate any further heat when the fiber's moisture absorption reaches saturation, and not only the heat generation time is short, but also after the moisture absorption reaches saturation, the moisture in the fiber causes a cooling sensation. I even felt it.
Further, as heat-generating fabrics and heat-generating clothes other than moisture-absorbing heat generation, it is known to incorporate heaters such as planar heating elements and linear heating elements into clothes. If you wear it, it will be heavy, and you will need an electrode, making it difficult to move.

  In this way, currently clothes that rise in temperature when worn and are easy to move and light are not found except for moisture-absorbing heat generation, but fabrics that absorb moisture are limited in moisture absorption, so there is a limit to moisture absorption heat generation. I don't see any garments that wear as a permanent fever and are light and easy to move.

JP 2003-227043 A

  An object of the present invention is to provide an elastic warp knitted fabric that elastically contains knitted fabric, and its temperature rises instantaneously when stretched and generates heat when stretched permanently even if the fabric is repeatedly expanded and contracted. To sew this elastic warp knitted fabric on clothes such as inner and sportswear, and to provide products that can be expected to retain heat, prevent injuries caused by warming muscles and joints at the stretched part, and produce a fat burning effect. It is.

As a result of intensive studies to achieve the above object, the present inventors are a knitted fabric composed of an inelastic yarn and an elastic yarn, wherein the instantaneous heat generation temperature at 100% elongation is 1 ° C. or higher. The present inventors have found that the above-described object can be achieved by an elastic warp knitted fabric, which has led to the present invention.
That is, the present invention is as follows.

(1) An elastic warp knitted fabric comprising an inelastic yarn and an elastic yarn, wherein an instantaneous heat generation temperature at 100% elongation is 1 ° C. or higher.
(2) The elastic warp knitted fabric according to (1) above, wherein the elastic yarn is contained in an amount of 40 g / m ² or more.
(3) The elastic warp knitted fabric according to (1) or (2) above, wherein at least a part of the elastic yarn is knitted with a looping structure.
(4) The elastic warp knitted fabric according to any one of (1) to (3), wherein the elastic yarns are fixed to each other at an intersection of the elastic yarns.

  The garment provided with the elastic warp knitted fabric of the present invention is warmed by heating the knitted fabric at 1 ° C. or more due to bending and stretching of knees and arms, and is excellent in heat retention. And has a fat burning effect. Furthermore, when worn during winter exercise, it is possible to prevent a decrease in muscle temperature due to fever and to prevent a decrease in motor function due to a decrease in muscle temperature.

Hereinafter, the present invention will be described in detail.
The elastic warp knitted fabric of the present invention is a warp knitted fabric made of a non-elastic yarn and an elastic yarn manufactured by a warp knitting machine, and the instantaneous heat generation temperature at 100% elongation of the knitted fabric is 1 ° C. or higher. Features.
The instantaneous heat generation temperature in the present invention is a process in which the elastic warp knitted fabric is stretched 100% under conditions that do not receive external energy supply other than expansion and contraction, and then is restored once to the original length. This is a value calculated from the difference from the knitted fabric temperature before the start of the test after the knitted fabric temperature at the 100th elongation of the 100th time is measured by thermography after 100 times of repeated stretching.

  If the knitted fabric temperature at the 100th elongation of the 100th time becomes higher than the knitted fabric temperature before the start of the test, it indicates that instantaneous heat generation is indicated, and the elastic warp knitted fabric of the present invention has an instantaneous heat generation temperature measured by this method of 1 It is necessary to be at least ° C. At an instantaneous heat generation temperature of less than 1 ° C., almost no heat generation is felt and the object of the invention cannot be achieved. Therefore, the instantaneous heat generation temperature at 100% elongation is 1 ° C. or higher, preferably 1.5 ° C. or higher. The upper limit is not particularly limited as long as the instantaneous exothermic temperature is high, and the upper limit is not particularly limited as long as it does not adversely affect the human body, but if the elastic fiber content becomes too high to increase the instantaneous exothermic temperature, the knitted fabric will have high power. Therefore, the instantaneous heat generation temperature is preferably 10 ° C. or less. In addition, about the measurement of exothermic temperature, it shows concretely in an Example.

In the elastic warp knitted fabric of the present invention, in order to set the instantaneous heat generation temperature at 100% elongation to 1 ° C. or higher, it is preferable to contain 40 g / m ² or more of elastic yarn in the elastic warp knitted fabric. The exothermic temperature increases as the content increases, more preferably 50 g / m ² or more, and still more preferably 55 g / m ² or more. However, if the elastic yarn content is too high, the weight of the knitted fabric increases, and the knitted fabric becomes high power and difficult to move as a garment, so 200 g / m ² or less is preferable.

  The elastic warp knitted fabric according to the present invention cannot exhibit the effects of the invention only by the elastic yarn content described above, and the object of the present invention is suitable because at least a part of the elastic yarn is knitted with a looping structure. Can be achieved. That is, it is preferable that the loop structure of the elastic yarn supplied to at least one ridge is a looping structure, and when using an elastic yarn for a plurality of ridges, at least one ridge may be a looping structure. preferable.

  Examples of the looping structure of the elastic yarn in the present invention include a chain (10/01), denby (10/12), cord (10/23, 10/34), and satin (10/45, 10/56). Changes in the amount of swing of the sinker loop, or changes such as atlas (for example, 10/12/23/34/32/21, 10/23/45/67/54/32), and 2 at the time of overlapping There are two stitches (for example, 20/13, 20/24) for supplying an elastic thread to the needle, etc. In addition to the closed eye tissue, an open eye tissue or a mixture thereof can also be used.

  In order to further exhibit the heat generation effect when stretched, the elastic yarn is swung with two or more stitches such as 10/23, 10/34, or two stitches such as 20/13, 20/24 and the like. It is preferable to do. The yarn arrangement of the elastic yarn is not particularly limited, and arbitrary yarn arrangements such as total filling (all-in) in the cocoon and 1-in-1 out of threading every other elastic yarn are possible. The method of knitting with all-in-one is preferable because the content of the elastic yarn is easily increased and the knitted fabric is dense and generates heat uniformly.

  The elastic warp knitted fabric according to the present invention can be manufactured by a warp knitting machine such as tricot and russell capable of forming a looping structure of elastic yarn. It is also possible to knit, and it is preferable that at least one elastic yarn is looped, and it is more preferable that any elastic yarn is looped.

  Also, the elastic yarn in the knitted fabric is partially melted at the intersecting portion and the elastic yarns are fused and fixed, or the intersecting portion of the elastic yarn is deformed and elastic It is preferable that the elastic yarns are fixed at the intersection of the elastic yarns such that the yarns are meshed and fixed. In such a state, the heat generation effect at the time of extension becomes high. In addition, the part where the elastic yarn intersects includes the part where the needle loops intersect, the part where the needle loop and the sinker loop intersect, and the part where the sinker loop intersects. In the invention, the portion where the elastic yarn intersects means at least the intersection of the needle loops, and the elastic yarns at the upper and lower portions of the needle loop continuous in the vertical direction in the knitted fabric are fixed at the intersection. Is.

  As for the method of fixing the elastic yarns at the intersection, it is easy to fix them by heat, and the temperature at the time of heat setting using a pin tenter or the like at the time of dyeing is set to a high temperature of 185 ° C. or more to pass the knitted fabric. For example, the elastic yarn can be easily fixed. If the fixing is insufficient, the heat setting time may be increased or the heat setting temperature may be increased within a range not exceeding 200 ° C. If the heating temperature is set to 200 ° C. or higher and heating is performed for 30 seconds or more, both the elastic yarn and the inelastic yarn may be embrittled or yellowed. Therefore, the heat setting temperature is set not to exceed 200 ° C.

  To determine the fixed state of the crossing part between elastic yarns, it is possible to determine whether the crossing part is fixed with a microscope after dissolving the non-elastic yarn in the elastic warp knitted fabric and making it a knitted fabric with only elastic yarn In the case where the crossing portions of the elastic yarns are lightly elongated and do not easily peel off, it can be determined that they are fixed. If the non-elastic yarn of the elastic warp knitted fabric cannot be melted, check with a microscope to cut and remove the non-elastic yarn in the elastic warp knitted fabric, and check if the crossing part of the elastic yarns is fixed only as an elastic yarn Can be determined. In addition, even in a knitted fabric in which the crossing portions after elastic yarns are fixed, it is not necessary that the crossing portions of all the loops in the knitted fabric are fixed, and 60% or more of the knitted fabric area may be fixed. .

  The elastic yarns used in the elastic warp knitted fabric according to the present invention are polyurethane-based and polyetherester-based elastic yarns. For example, polyurethane-based elastic yarns that are dry-spun or melt-spun can be used. There is no particular limitation. It is preferable that the elastic yarn has a breaking elongation of about 400% to 1000%, is excellent in stretchability, and does not impair the stretchability around a normal processing temperature of 180 ° C. in the presetting process during dyeing. In addition, an elastic yarn provided with functionality such as high setting property, antibacterial property, moisture absorption, water absorption, etc. by adding a special polymer or powder to the elastic yarn can also be used. Regarding the fineness of the elastic yarn, it is possible to use a fiber of about 10 to 160 dt, and it is preferable to use an elastic fiber of about 20 to 80 dt, which is easy to manufacture a knitted fabric.

  Furthermore, the elastic warp knitted fabric of the present invention can contain an inorganic material in the elastic yarn, and can be made into a knitted fabric taking into account the performance of the contained inorganic material. The heat generated by the warp knitted fabric can be stored in titanium oxide, and heat retention can be imparted by the far infrared effect. As for the method of containing an inorganic substance, the method of spinning an elastic yarn containing an inorganic substance in a spinning stock solution of elastic yarn can be most easily contained. The inorganic substance referred to in the present invention is an inorganic substance alone and / or an inorganic compound such as ceramics such as titanium oxide, carbon, carbon black, etc., and is preferably finely powdered so as not to hinder spinning of elastic yarn. It is preferable that these inorganic substances are contained in the elastic yarn in an amount of 1 to 10% by weight. By containing the inorganic substances, it is possible to more effectively exert a heat retaining effect when the elastic warp knitted fabric generates heat. . If the inorganic substance is small, the heat retention effect is small, and if it is too large, the yarn may break during spinning or stretching. Therefore, the content is preferably 1 to 10% by weight, more preferably 2 to 5% by weight. is there.

  As a result of further studying the heat generation effect of the elastic warp knitted fabric of the present invention, when the elastic warp knitted fabric is sewn and worn on a garment, there is no feeling of tension and comfortable wearing, and in order to exert the effect of the present invention, The longitudinal stress is preferably 80 to 600 cN (the same symbol is used hereinafter), more preferably 100 to 500 cN. Further, the warp direction elongation is also important, and the warp direction elongation is preferably 50 to 250%, more preferably 60 to 210%, within the prescribed range of the warp direction stress. If it is this range, a comfortable wearing feeling and favorable exothermic property can be exhibited. When the warp stress is greater than 600 cN, or when the warp elongation is less than 50%, there is a strong feeling of tension when worn, resulting in a wearable garment. When the warp stress is less than 80 cN, or If the degree is greater than 250%, the heat generation effect is small and the knitted fabric may fail to achieve the object of the present invention. Furthermore, the elongation recovery rate of the elastic warp knitted fabric is also important, and the elongation recovery rate is preferably an elastic warp knitted fabric of 90% or more in both the warp direction and the weft direction. An elongation recovery rate of less than 90% is not preferable because it causes a decrease in the amount of heat generated during repeated expansion and contraction. In addition, the measuring method of a warp direction stress, a warp direction elongation, and an elongation recovery rate is shown concretely in an Example.

The elastic warp knitted fabric of the present invention is not particularly limited, but it is desirable that the elongation ratio between the warp direction and the weft direction is 1.0 to 2.5, and garment sewing was performed with the elastic warp knitted fabric of this elongation ratio. In this case, there is a moderate tightening feeling, and the body can be bent and stretched easily. When the elongation ratio is less than 1.0, the body has a feeling of tension when the body is bent and stretched, and the clothes are not comfortable to wear. When the elongation ratio is larger than 2.5, it is not preferable because wrinkles may occur during bending and stretching of the body, and the knitted fabric may become slack. Therefore, it is preferable that the elongation ratio between the warp direction and the lateral direction of the knitted fabric is 1.0 to 2.5, and more preferably 1.2 to 2.3. The elongation ratio referred to in the present invention is obtained by the following equation by measuring the elongation in both the longitudinal direction and the weft direction.
Elongation ratio = (elongation in warp direction) / (elongation in latitude direction)
As an example of garment sewing of the elastic warp knitted fabric of the present invention, it is only necessary to sew so that the direction in which the product elongation at the time of wearing becomes the high stress direction of the knitted fabric, for example, the elastic warp whose warp direction is higher than the weft direction. In the case of knitted fabric, when sewing the legging-like bottom to the ankle, the knee has a higher product elongation in the warp direction. Become.

Examples of inelastic yarns used in the present invention include polyester fibers such as polyester and polytrimethylene terephthalate, polyamide fibers, and synthetic fibers such as polypropylene, and cellulose fibers such as cupra, rayon, cotton and bamboo fibers, and wool. All kinds of fibers such as animal hair fibers can be used. Also, these bright yarns, semi-dal yarns, full-dal yarns, etc. can be used arbitrarily, and the fibers can have any cross-sectional shape such as round, oval, W-shaped, saddle-shaped and hollow fibers. The form of the fiber is not particularly limited, and a crimped yarn such as a raw yarn and false twist can be used. Furthermore, it may be a long fiber or a spun yarn, and a composite yarn obtained by mixing two or more kinds of fibers by twisting, covering, air blending, or the like can also be used. Furthermore, it is possible to mix two or more types of fibers on the knitting machine instead of mixing with the fibers themselves, and the two or more types of fibers may be prepared by knitting corresponding to each.
About the thickness of a fiber, the use of a fiber of about 15 to 160 dt is possible, and the use of a fiber of about 20 to 110 dt is preferable in view of the bursting strength and thickness of the knitted fabric. In addition, when using cotton or wool, the thickness of the fiber used may be determined by a conversion formula.
Further, the ratio of the elastic yarn to the inelastic yarn is not particularly limited, but the ratio of the inelastic yarn is preferably 30 to 80%, and more preferably 40 to 75%. If the proportion of the inelastic yarn is less than 30%, the dyeing fastness may be lowered, or the strength of the knitted fabric may not be sufficiently obtained. If the proportion of the inelastic yarn is more than 80%, a sufficient elongation heat generation effect is obtained. I can't show it.

  The inelastic yarn used in the present invention preferably contains 0.3 to 5% by weight of an inorganic substance, and particularly preferably contains polyester fibers, polyamide fibers and cellulose fibers. By containing the inorganic substance, it is possible to more effectively exert the heat retaining effect when the elastic knitted fabric generates heat. If the inorganic substance is small, the heat retention effect is small, and if it is too large, the yarn may break during spinning or stretching. Therefore, the content is more preferably 0.5 to 5% by weight, particularly preferably 0.4 to The content is 3% by weight.

  In the elastic warp knitted fabric of the present invention, if a material that absorbs moisture such as cellulose is used for the non-elastic yarn, heat is generated by absorbing moisture when worn, and heat is generated even by exercising, and the effect of the present invention is further exhibited. Is possible. Furthermore, it is possible to make it difficult to release the heat generated by using spun yarn or raising, and it is possible to enhance the heat retaining effect.

  The elastic warp knitted fabric according to the present invention can be manufactured by a tricot and Russell warp knitting machine, and either a single warp knitting machine or a double warp knitting machine can be used. As for the gauge of these knitting machines, a knitting machine of an arbitrary gauge can be used. However, it is preferable to use a knitting machine of about 20 to 40 gauge. If the gauge is rough, the aesthetics of the knitted fabric is not good. The higher the gauge, the poorer the stretchability, and the less effective the effects of the present invention are.

  The dyeing and finishing method of the elastic warp knitted fabric of the present invention can use a normal dyeing finishing process, and dyeing conditions according to the fiber material to be used. The dyeing machine to be used is also a liquid dyeing machine, a wins dyeing machine and a paddle dyeing machine. For example, a processing agent that improves water absorption and flexibility can be used.

Hereinafter, the present invention will be described in detail by way of examples. Of course, the present invention is not limited to these examples. In addition, evaluation in an Example was performed with the following method.
(1) Instantaneous exothermic temperature The instantaneous exothermic temperature was measured by using a demacher tester, repeating elongation and relaxation (returning), and then measuring the calorific value by thermography.
Repeating expansion and contraction machine: Dematcher testing machine (manufactured by Daiei Scientific Instruments)
Sample size: length 100 mm (excluding gripping part), width 60 mm
Measurement environment: constant temperature and humidity conditions of temperature 20 ° C. and humidity 65% RH. Measured with no external energy supply other than expansion and contraction.
Elongation amount: 100% in the length direction
Repeated expansion / contraction cycle: 1 time / second Exothermic temperature measurement: Sample surface temperature at 100% elongation at the 100th repetition elongation was measured by thermography. The emissivity of the thermography is set to 1.0.
Exothermic temperature evaluation: The maximum surface temperature of the sample to be measured is read, and the number of times the temperature rises compared to before the expansion / contraction is defined as the exothermic temperature.

(2) Elastic yarn content The elastic yarn content (g / m ² ) in the knitted fabric is obtained by the following method and rounded to one decimal place.
The inelastic yarn in the knitted fabric is removed by dissolution or the like, and the weight of only the elastic yarn is measured and converted. If it is difficult to remove the non-elastic yarn, the elastic yarn is removed from the knitted fabric after the weight measurement by dissolving, etc., and the weight of only the non-elastic yarn is measured. To do.

(3) Fixing between elastic yarns It is determined according to the following evaluation criteria whether or not the elastic yarns are fixed at the intersections, and whether or not 50 elastic yarns are fixed at the intersections by the above method. And Δ were accepted.
○: 80% or more of the intersections are fixed.
Δ: 60% or more and less than 80% of the intersections are fixed.
X: The fixing of the intersection is less than 60%.

(4) Stress The longitudinal stress is measured by the following method.
Sample size: length 100 mm (excluding gripping part), width 25 mm
Tensile tester: Tensilon tensile tester Initial load: 0.1N
Tensile and return speed: 300 mm / min Tensile length: Elongates the knitted fabric to 80%.
Measurement: Elongation and return are repeated three times under the above conditions, and the third 80% elongation stress is obtained.

(5) Extension recovery rate The extension recovery rate is measured by the following method.
Sample size: length 100 mm (excluding gripping part), width 25 mm
Tensile tester: Tensilon tensile tester Initial load: 0.1N
Tensile speed: 300 mm / min Tensile length: 80 mm (80% elongation)
Tensile times: Repeated expansion and contraction three times.
Measurement: The elongation recovery rate at the third repetitive expansion / contraction of the knitted fabric under the above conditions is obtained by the following equation.
Elongation recovery rate (%) = [(180−a) / 80] × 100
a: Sample length when the stress at the third repetition of elongation becomes zero (100 mm + residual strain)

[Example 1]
Using a 28-gauge tricot warp knitting machine, elastic yarn 44dt (trade name Roika CR: manufactured by Asahi Kasei Fibers Co., Ltd., all elastic yarns are the same product name) on the back collar, and nylon yarn 17dt / 7f on the front collar. Prepared and organized with the following organization.
Front 筬 10/23
Back bag 12/10
The knitted fabric that had been knitted was relaxed and scoured with a continuous scourer, then pre-set at 190 ° C. for 1 minute, and then nylon dyed with a liquid dyeing machine. After dyeing, the fabric was padded with a soft finish and finished with a set at 170 ° C. for 1 minute to obtain an elastic warp knitted fabric.
The performance of the obtained knitted fabric was evaluated, and the results are shown in Table 1. The elastic warp knitted fabric of the present invention had an instantaneous exothermic temperature of 1 ° C. or higher, and became a target knitted fabric.

[Examples 2-5, Comparative Examples 1-2]
In Example 1, the swing width of the elastic yarn, the runner at the time of knitting, and the fineness of the elastic yarn are changed. Various knitted fabrics were manufactured by changing.
The performance of the obtained knitted fabric was evaluated, and the results are shown in Table 1.

[Example 6]
Using a 32-gauge tricot warp knitting machine, an elastic yarn 22dt was prepared for the back rod, an elastic yarn 22dt for the middle rod, and a nylon base yarn 33dt / 34f for the front rod, and knitted with the following structure.
Front 筬 10/23
Middle rice cake 12/10
Back bag 10/12
The knitted fabric that had been knitted was relaxed and scoured with a continuous scourer, then pre-set at 190 ° C. for 1 minute, and then nylon dyed with a liquid dyeing machine. After dyeing, the fabric was padded with a softening finish, and a finish set was performed at 170 ° C. for 1 minute to obtain an elastic knitted fabric.
The performance of the obtained knitted fabric was evaluated, and the results are shown in Table 1. The elastic knitted fabric of the present invention had an instantaneous heat generation temperature of 1 ° C. or more when stretched, and became a target knitted fabric.

[Example 7]
Using a 28-gauge (inch) Russell warp knitting machine, an elastic yarn 22dt was prepared for the back rod, an elastic yarn 78dt for the middle rod, and a nylon base yarn 44dt / 34f on the front rod, and knitted with the following structure (tricot (Indicated by the organization symbol).
Front fence 23/21/12/10/12/21
Middle coffee 00/11/00/11/00/11
Back bag 10/12
The knitted fabric that had been knitted was relaxed and scoured with a continuous scourer, then pre-set at 190 ° C. for 1 minute, and then nylon dyed with a liquid dyeing machine. After dyeing, the fabric was padded with a soft finish and finished with a set at 170 ° C. for 1 minute to obtain an elastic warp knitted fabric.
The performance of the obtained knitted fabric was evaluated, and the results are shown in Table 1. The elastic warp knitted fabric of the present invention had an instantaneous exothermic temperature of 1 ° C. or higher, and became a target knitted fabric.

  The elastic knitted fabric of the present invention is a knitted fabric that generates heat instantaneously when stretched, and if sewn on clothes such as inner and sportswear, it retains heat, prevents injuries caused by warming muscles and joints of stretched parts, and fat burning effect Products that can be expected.

Claims (3)

A knitted fabric composed of inelastic yarns and elastic yarns, the elastic yarn structure is 10/23, the warp direction stress of the knitted fabric is 100 to 500 cN, and the instantaneous heat generation temperature at 100% elongation is 1 ° C. An elastic warp knitted fabric characterized by the above. The elastic warp knitted fabric according to claim 1, wherein the elastic yarn is contained in an amount of 40 g / m ² or more. The elastic warp knitted fabric according to claim 1 or 2, wherein the elastic yarns are fixed to each other at an intersection of the elastic yarns.