JPH09268456A - Polyester sport wear - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a polyester sport wear which is made of a knitted fabric containing specific polyester filaments and having a triboelectric voltage lower than a prescribed value and a bursting strength higher than a prescribed value, free from sweatiness, stickiness, clinging and dustiness with high shape stability. SOLUTION: This sport wear comprises a knitted fabrics from a polyester conjugated fibers or polyester blend filaments which contains, as a constitution yarn, more than 5wt.% of a copolyester having humidity absorption and release parameter (ΔMR) of >=1%, containing hydrophilic compounds as a copolymer component and at least one of a polar group-bearing compound and a crosslinking reagent. This knitted fabric has <=3KV tribological voltage and >=3kg/cm<2> burst strength, a knitting density of 22-82 well/inch and 28-130 course/ inch and the filament fineness of at least one yarn constituting the well and course is 0.1-10 denier, total fineness is 30-300 deniers and the unit weight is 80-330g/m<2> .

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a polyester sportswear having a hygroscopic property. More specifically, running shirts / pants, competition shirts, tennis shirts, golf shirts, training wear, baseball uniforms, etc.
Alternatively, the present invention relates to a hygroscopic polyester sportswear that can be comfortably worn as swimwear, leotards, cycle pants, etc. that require larger stretch.

[0002]

2. Description of the Related Art Polyester fibers are widely used mainly for clothing and industrial applications because they are excellent in morphological stability, mechanical strength, chemical resistance, heat resistance and washing durability. On the other hand, however, polyester fiber has a very low moisture absorption rate, so for applications where it is worn by touching the skin directly, such as athletic clothing, or in a state close to the skin side, stuffiness and stickiness due to sweating from the skin, etc. There was a drawback that caused.

Further, since polyester fibers are apt to be charged and have a high friction electrification voltage, they tend to cling to the skin when worn. Also, when the environmental humidity is low such as in winter, dust in the air adheres due to the generation of static electricity at the time of storage or wearing at sewing factories, retail stores, or at home, and the work clothes become dark. Is a problem.

In this respect, in terms of comfort, it is inferior to natural fibers typified by cotton and cellulosic synthetic fibers typified by rayon, and there is a strong demand for improvement in using it for exercise wear. The reality is that For this reason, it is often common to mix natural fibers or cellulosic synthetic fibers by interlacing or the like to produce a knit. However, the fibers typified by these have high hygroscopicity and can be worn comfortably, but have low strength, poor wash durability, wrinkling, and lack of shape stability. In addition, since the strength of natural fibers and cellulose fibers is weak, if too much is mixed, the knitted fabric itself will be inferior in burst strength, and there is a problem that it cannot be used as sportswear for the purpose of exercise.

In order to eliminate the above-mentioned drawbacks of the polyester fiber, it is possible to obtain a moisture absorbing comfort as a fabric by mixing, blending and aligning a fiber having a high equilibrium moisture content (moisture absorption rate) with a synthetic fiber. Attempts have been proposed. According to these, the comfort is certainly improved, but the effect is not always sufficient, and disperse dyes commonly used when dyeing synthetic fibers cause contamination or have poor homochromaticity,
There is a problem that the original physical properties of synthetic fibers are lost.

There is also a method of imparting hygroscopicity in the post-processing stage. However, in order to obtain sufficient hygroscopicity with this method, a large amount of hygroscopic resin needs to be picked up by the knitted fabric for exercise wear, so the knitted fabric needs to have a certain thickness, and it can be used from thin fabrics such as athletic wear. In the case of knitted fabrics that are thick, it is not suitable for thin fabrics. Further, even if sufficient hygroscopicity can be obtained, a film of hygroscopic resin is formed on the surface of the knitted fabric, so that the texture becomes hard and the feel is poor when worn as sportswear. Further, there is a problem that durability is lost because the resin drops due to washing.

[0007]

SUMMARY OF THE INVENTION The object of the present invention is to overcome the above-mentioned problems of the prior art and to maintain high shape absorption and softness while maintaining the shape stability and strength retention which are the characteristics of polyester fiber. (EN) It is intended to provide a polyester athletic garment that has a feeling of feeling, is comfortable to wear, and does not deteriorate in quality due to dust in the air.

[0008]

The polyester sportswear of the present invention for solving the above-mentioned problems includes a polyester-based filament having a moisture absorption / release parameter ΔMR of 1% or more as a constituent yarn, and has a frictional electrification voltage according to JIS L 1094 B method. Is less than 3 kv and is composed of a knitted fabric.

Since the athletic garment is made of a knitted fabric containing the above-mentioned polyester type filament, it has high hygroscopicity and soft texture while maintaining the original shape stability and strength retention of the polyester fiber. Moreover, it is possible to eliminate the deterioration of quality due to the adhesion of dust. In addition, the strength as a sports war can be sufficiently endured.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION In the present invention, polyester kimono means a knitted fabric in which a polyester component is contained as a constituent yarn (knitting yarn) of the knitted fabric. This polyester sportswear is not limited to sportswear that uses only polyester fibers, but is also made of knitted fabric that uses mixed fibers of natural fibers and cellulose-based synthetic fibers, and natural fibers and cellulose. It also includes athletic clothing knitted with a synthetic fiber and is not limited in any way.

The polyester-based filament used for sportswear of the present invention has a moisture absorption / release parameter ΔMR of 1% or more, and a moisture-absorbing / release parameter ΔMR of an athletic knit made of this polyester filament is 1% or more. is there. More preferably, from the viewpoint of comfort when worn, yarn-forming property, and knitting property, moisture absorption / release parameter ΔM
R is 1.5 to 10%, and more preferably 3% to 10%.
%. If the moisture absorption / release parameter ΔMR is less than 1%, the moisture absorption rate is low, and it becomes difficult to prevent stuffiness and stickiness due to sweating from the skin.

Further, it is preferable that the washing durability is excellent with respect to hygroscopicity, and it is preferable that the moisture absorbing / releasing parameter ΔMR after washing 5 times is within 70% of that before washing. In the present invention, the moisture absorption / release parameter ΔMR is 3
Moisture absorption rate MR _{2 at} 0 ° C × 90% RH and 20 ° C × 65
Expressed as the difference from the moisture absorption rate MR ₁ in% RH, ΔM
Refers to a value represented by the formula _{R (%) = MR 2 -MR} 1.

That is, the moisture absorption / release parameter ΔMR is
It is a driving force to obtain comfort by releasing moisture inside clothes to the outside air when wearing clothes.
The difference in moisture absorption rate between the temperature inside clothes represented by 30 ° C. × 90% RH and the outside temperature humidity represented by 20 ° C. × 65% RH is shown when performing moderate exercise. In the present invention, this moisture absorption / desorption parameter ΔMR is used as a scale for moisture absorption evaluation. The larger the value, the higher the moisture absorption / desorption power, and the better the wearing comfort is. It is possible to prevent the adhesion of dust inside.

The polyester sportswear of the present invention is JIS
The friction electrification voltage by the L 1094 B method (friction electrification voltage measurement method) is less than 3 kv, and more preferably less than 1 kv. Further, from the viewpoint of the antistatic effect of durability against washing, the friction electrification voltage after 5 times of washing is preferably less than 3 kv, and less than 1 kv and substantially 0.
More preferably kv.

Here, one wash means that 25 liters of a 0.2% slightly alkaline synthetic detergent solution at 40 ± 2 ° C. is put in a washing tub of a commercially available automatic reversing spiral type electric washing machine to prepare a test cloth and an additional cloth. After adjusting the total weight to about 500g,
Laundry 5 minutes, dehydration 30 seconds, rinsing 2 minutes, dehydration 30 seconds, rinsing 2 minutes, dehydration 30 seconds. In addition, rinsing is performed while overflowing using room temperature water.

The polyester sportswear of the present invention is composed of a knitted fabric. A knitted fabric having this knitted fabric has a density of 2
2 to 82 wells / inch and 28 to 130 courses / inch, and the constituent yarn of at least one of the wells and courses has a single yarn fineness of 0.1 to 10 denier and a total fineness of 30 to 300 denier, And the weight is 8
It is preferably from 0 to 330 g / m ² .

When the density of the knitted fabric is less than 22 wells / inch and less than 28 courses / inch, it becomes difficult to use as a sportswear such as a decrease in strength as a sportswear and generation of eye distortion, and the knitability is also improved. It tends to get worse. Further, when the density exceeds 82 wells / inch and when it exceeds 130 courses / inch, the texture of the knitted fabric becomes stiff, the feeling of lightness is impaired, and further the knitting property deteriorates.
It tends to be difficult to use as sportswear.

When the basis weight of the knitted fabric is less than 80 g / m ² , the knitted fabric has no beam and is 330 g.
If it is larger than / m ² , the texture of the athletic suit becomes stiff or heavy, and the motility is impaired.
When the single yarn fineness of at least one of the course and the well of the yarn constituting the knit exceeds 10 denier, the texture of the knit becomes hard and it becomes difficult to use it as an athletic garment. On the other hand, if it is less than 0.1 denier, the spinning property tends to decrease. The lower limit of the single yarn fineness is more preferably 1 denier or more, from the viewpoints of knitting property and strength of sportswear.

Further, as the constituent yarns of the knitted fabric, yarns having different finenesses such as mixed yarns of different fineness can be used, and such mixed yarns of different fineness make soft and tight athletic clothes. From the viewpoint of In the case of using this mixed yarn of different fineness, if hygroscopic polyester fiber is used as the yarn of large fineness, it is possible to obtain a soft and tight athletic wear having a high moisture absorption rate.

When the total fineness of the yarns constituting the knitted fabric is less than 30 denier, the knitting property and the yarn forming property are deteriorated, and the garment tends to have no elasticity. If the total fineness is more than 300 denier, the texture of the knitted fabric becomes hard and it becomes difficult to use it as an attire. The burst strength of the knitted fabric must be 3 kg / cm ² or more. If it is less than 3 kg / cm ² , it cannot be used because it may be torn during wearing. This burst strength is generally high at about 30 kg / cm ² , but in this case, it is a heavy material using a thick thread.

The polyester knitted knitted fabric of the present invention is
The warp knitted fabric may be a tricot fabric, a Russell fabric, or a circular knitted fabric such as a single circular knitted fabric or a double circular knitted fabric, and is not particularly limited. Further, the knitting structure is usually used as an attire such as a half structure of a warp knitted fabric, a mesh structure, a one-sided unevenness changing structure, a satin structure, or a circular knitted fabric, an interlock structure, a one-sided unevenness change structure. It is not particularly limited as long as it has a knitting structure.

In the polyester sportswear of the present invention, the hygroscopic polyester filament has a moisture absorption / release parameter ΔMR of 1% or more, and is not particularly limited as long as it is a filament containing a polyester component. However, it is preferable to use a fiber having the following constitution in consideration of the yarn-forming property, the knitting property, the dyeing property, and the durability of the yarn performance.

That is, a polyester obtained by copolymerizing a hydrophilic compound (A) and containing 5% or more of at least one of a polar group-containing compound (B) and a cross-linking agent (C) and having hygroscopicity. It is preferable to use a composite fiber containing polyester (D) or a composite fiber containing 5% or more of a polyether ester amide (E) or a mixture of a polyether ester amide and another thermoplastic resin (F). preferable.

Hereinafter, each fiber will be described in detail. First, a description will be given of a hygroscopic copolymerized polyester (D) which is a polyester copolymerized with a hydrophilic compound (A) and contains at least one of a polar group-containing compound (B) and a crosslinking agent (C). To do. The molecular weight of the hydrophilic compound (A) is 600 to 600 from the viewpoint of compatibility with polyester and dispersibility in polyester.
It is preferably 20,000, more preferably 1
000 to 10,000, more preferably 200
It is 0 to 6000.

The hydrophilic compound (A) is preferably a compound containing one or more ester-forming groups, and is not particularly limited, but typical compounds include polyoxyalkylene compounds, polyoxazolines, and polyoxyazolines. Acrylamide and its derivatives can be used. Among them, polyoxyalkylene compounds are preferable, and polyoxyethylene compounds are more preferable.

Further, among the polyoxyethylene compounds, polyethylene glycol compounds are preferable, and polyethylene glycol containing a crystallization inhibitor is particularly preferable. Here, the crystallinity-suppressing factor refers to an organic residue that exists in the molecular chain or at the terminal and disturbs the symmetry of the repeating unit of polyethylene glycol. Crystallization suppression refers to chain scanning calorimetry (DSC, temperature rising condition 16 ° C / min)
Is lower than the melting point of polyethylene glycol having the same molecular weight.

The copolymerization ratio of the hydrophilic compound (A) is not particularly limited, but from the viewpoint of spinnability, it is preferably 40 to 99% by weight based on the total weight of the polymer. Most of these compounds are preferably copolymerized in the polyester, but some of them may be present in a dispersed state in the polymer. The polar group-containing compound (B) contained in the copolymerized polyester (D) is not particularly limited, but may be represented by the following general formula (I): Y _i -R ₁ -X _n (I) (where R ₁ is organic residue, X is one selected ester is formed group n is 1 or a positive number, Y _i is an amino group, a sulfonic group, a carboxyl group, a hydroxyl group, among the derivatives such as amide groups and phosphonic acid groups A compound having a polar group represented by the following polar group (i is an integer of 1 or more) is preferable.

Here, the term "containing" means a state of being dispersed or copolymerized in the polyester, and particularly preferably a state of being copolymerized. As the compound, a compound having a sulfonate group is particularly preferable. By incorporating a polar group-containing compound, not only the hygroscopicity of the polymer further increases, but also hydrogen bonding and ionic mutual bonding action occur in the polymer, and when it is made into a fiber, it is difficult to change the physical properties over time. can get.

From the viewpoint of preventing the occurrence of yarn breakage and making it less likely to change over time, the content of the polar group-containing compound (B) is 0 to 50 relative to the acid component constituting the whole polymer.
It is preferably mol%, more preferably 2 to 15
Is a mole. The crosslinking agent (C) contained in the copolyester (D) is not particularly limited as long as it is a compound that reacts with the polyester to form a crosslinked structure, but is not limited to the following general formula (II) (R ₃ O) _n R ₂ (COOR ₄ ) _m (II) (wherein R ₂ is a trivalent to hexavalent organic residue, R ₃ is hydrogen or an acetyl group, and R ₄ is hydrogen or an alkyl group. It is preferable to use a polyfunctional compound represented by 3 ≦ m + n ≦ 6)).

Here, the term "containing" means a state of being dispersed in polyester, but a state of having a crosslinked structure by copolymerization is preferable. As the compound, polyfunctional carboxylic acids such as trimellitic acid and pyromellitic acid, and polyols such as glycerin, trimethylolpropane, and pentaerythritol are preferable, and trimellitic acid is particularly preferable. By containing the cross-linking agent (C), not only the hygroscopicity of the polymer is further enhanced, but also a cross-linked structure is formed in the polymer, and the effect of hardly causing a change in physical properties over time when the fiber is used is obtained. .

The proportion of the cross-linking agent (C) is preferably 0 to 30 mol%, more preferably 1 to 15 mol%, and particularly preferably 2-1 to the acid component constituting the whole polymer.
0 mol%. When the content is within the above range, it is preferable because the moisture absorption is kept high, the spinning properties are improved, and the fiber properties such as strength are improved. In addition, copolyester (D)
Preferably contains at least one of the polar group-containing compound (B) and the cross-linking agent (C).
It is more preferable to include both (B) and (C).

The copolymerized polyester (D) contains pigments such as titanium oxide and carbon black, surfactants such as alkylbenzene sulfonates, various antioxidants, and coloring agents within the range not impairing the object of the present invention. Of course, an inhibitor, a light stabilizer, an antistatic agent, etc. may be added. Next, the polyether ester amide (E) or a mixture of the polyether ester amide and another thermoplastic resin (F) will be described.

The polyether ester amide (E) is
A block copolymer having an ether bond and an ester bond in the same molecular chain. More specifically, one or two or more polyamide-forming components (G) selected from lactams, aminocarboxylic acids, and salts of diamines and dicarboxylic acids, and poly (alkylene oxide) glycols composed of dicarboxylic acids and poly (alkylene oxide) glycols A block copolymer obtained by subjecting the ether ester-forming component (H) to a polycondensation reaction can be preferably used.

As the polyamide-forming component (G) of the polyether ester amide, lactams, ω-aminocarboxylic acids, nylon salts and the like can be used, and these can be used alone or in combination of two or more. You can Preferred polyamide-forming components are ε-caprolactam and nylon 66 salt. On the other hand, the polyetherester component (H) constituting the soft segment of the polyetheresteramide is preferably a dicarboxylic acid having 4 to 20 carbon atoms and poly (alkylene oxide) glycol.

As the dicarboxylic acid having 4 to 20 carbon atoms,
Aliphatic, aromatic dicarboxylic acids, alicyclic dicarboxylic acids, and the like can be used, and one kind or a mixture of two or more kinds can be used. Preferred dicarboxylic acids include polyamides such as adipic acid and seba polyglycine, general-purpose thermoplastic resins such as polyester and polyolefin, cinnic acid, decadic acid, terephthalic acid, and isophthalic acid.

The poly (alkylene oxide) glycol may be polyethylene glycol, poly (1,2).
-Propylene oxide) glycol, poly (1,3-propylene oxide) glycol, polytetramethylene oxide glycol, polyhexamethylene oxide glycol, ethylene oxide and propylene oxide or
Random or block copolymerization with tetrahydrofuran can be used, and polyethylene glycol is particularly preferable. The number average molecular weight of the poly (alkylene oxide) glycol is preferably from 300 to 10,000, more preferably from 500 to 4,000.

The polyetheresteramide block copolymer is obtained by polycondensing the above-mentioned polyamide-forming component (G) and polyetherester-forming component (H). As the thermoplastic resin (F), for example,
One or more of polyamides, polyesters, and polyolefins such as nylon 66 and nylon 6 can be used. In particular, nylon 66, nylon 6,
Modified polyethylene terephthalate copolymerized with a sulfonate compound is preferable because it has good compatibility with polyetheresteramide, can be finely dispersed in each other, and has a small swelling due to hot water.

Preferred sulfonate compounds as a copolymerization component of the modified polyester herein are 5-sodium sulfoisophthalic acid, 5- (tetraalkyl) phossonium sulfoisophthalic acid and their ester derivatives, sodium p-hydroxyethoxybenzenesulfonate. , 2,5-bis (hydroxyethoxy) benzenesulfonate and the like can be used.

The copolymerization amount of the sulfonate compound is preferably 0.1 to 7 mol% with respect to the acid component in view of compatibility with the polyether ester amide and physical properties of the resulting blend fiber, and more preferably. , 0.2 to 6 mol%, and more preferably 0.5 to 5 mol%. Polyetheresteramide and thermoplastic resin (F)
The mixing ratio is preferably from 5 to 50% by weight, more preferably from 5 to 50% by weight, from the viewpoint of obtaining sufficient moisture absorption properties and preventing cracking of the fiber surface due to swelling in a hot water atmosphere such as a dyeing process. It is 7 to 45% by weight, more preferably 10 to 40% by weight.

As the fiber-forming polymer, polyethylene,
Polyolefins such as polypropylene, polyamides such as nylon 6 and nylon 66, polyesters such as polyethylene terephthalate and polybutylene terephthalate can be used, but are not limited thereto. It is preferable to use a polyester mainly composed of polyethylene terephthalate, which is the most versatile synthetic fiber for clothing.

The form of the composite fiber is not particularly limited, but a core-sheath composite fiber, a core-sheath composite hollow fiber, a sea-island composite fiber, a laminated composite fiber or a blend fiber can be used. A polymer having a hygroscopic property such as a copolyester (D), a polyether ester amide (E) or a mixture of a polyether ester amide and another thermoplastic resin (F) is added to these conjugate fibers at an arbitrary ratio. It can be used as a constituent.

For example, in the case of the core-sheath type composite fiber composed of the core part 1 and the sheath part 2 shown in FIG. 1 and the core-sheath type composite hollow fiber composed of the core part 1, the sheath part 2 and the hollow part 3 shown in FIG. Uses a polymer having a hygroscopic property such as a copolymer polyester (D), a polyether ester amide (E) or a mixture of a polyether ester amide and another thermoplastic resin (F) for the core 1, and A polymer can be used for the sheath 2.

In this case, the composite ratio (% by weight) is core / sheath =
It is preferably 5/95 to 90/10. More preferably, 7/93 to 50/50, particularly preferably 1
0/90 to 30/70. The composite ratio can be arbitrarily selected for dyeing use and non-dying use. The lower limit of the composite ratio of the core portion is appropriately set for the purpose of imparting sufficient hygroscopicity, and the upper limit thereof may be appropriately set from the viewpoint of preventing deterioration of spinnability and deterioration of fiber physical properties.

The core-sheath cross-section of the core-sheath type composite fiber may be concentric or eccentric, and the shape of the fiber may be round, polygonal, or H-shaped. Kaifu 1a shown in FIG.
Also in the sea-island type composite fiber composed of the island portion 2a and the laminated type composite fiber composed of the laminated portions 1b and 2b shown in FIG. 4, the same copolyester (D), polyetheresteramide (E) or polyetherester as described above is used. A hygroscopic polymer such as a mixture of an amide and another thermoplastic resin (F) can be used for the island portion 2a or the laminating portion 2b, and a fiber-forming polymer can be used for the sea portion 1a or the other laminating portion 1b. .

The composite ratio of these hygroscopic polymers to the fiber-forming polymer is preferably 5 to 90% by weight. It is more preferably 7 to 50% by weight, and particularly preferably 10 to 30% by weight. The composite ratio can be arbitrarily selected for dyeing use and non-dying use. The lower limit of the composite ratio is appropriately set for the purpose of imparting sufficient hygroscopicity, and the upper limit is appropriately set from the viewpoint of preventing deterioration of spinnability and deterioration of fiber physical properties.

Further, the hygroscopic polymer such as the above-mentioned copolyester (D), polyether ester amide (E) or a mixture of polyether ester amide and another thermoplastic resin (F) is a fiber-forming polymer. It can also be used as a blended fiber blended in a coalescence. In this case, the compounding ratio of these hygroscopic polymers to the fiber-forming polymer is 3 to 80% by weight based on the total amount of the polymers.
It is preferred that It is more preferably 5 to 35% by weight, still more preferably 7 to 30% by weight. The lower limit of the compounding ratio is appropriately set for the purpose of imparting sufficient hygroscopicity, and the upper limit of the compounding ratio is appropriately set from the viewpoint of preventing deterioration of spinnability and fiber physical properties.

The main component to be combined with the fiber-forming polymer is the above-mentioned copolyester, but may contain polyolefin, polyamide, polyester, polycarbonate, etc. within a range not impairing the effect thereof. Also,
To the fiber-forming polymer, pigments such as titanium oxide and carbon black, various antioxidants, anti-coloring agents, light-proofing agents, antistatic agents, etc. may be added to the fiber-forming polymer within the range that does not impair the object of the present invention. Of course good.

The sportswear knitted fabric of the present invention may contain a rubber-like elastic yarn typified by a polyurethane-based elastic yarn. Swimsuits, leotards, cycle pants, etc. that require a larger stretch contain the elastic rubber thread as described above, and the stretch power fits the athlete's body and enhances the exercise functionality during exercise. It will be. The mixing ratio of the rubber-like elastic yarn is preferably 30% or less of the total weight of the knitted fabric. If it exceeds 30%, the stretching power of the athletic suit is too strong, and when worn, the feeling of oppression becomes inferior to the feeling of wearing and the mobility is impaired. In addition, the cost is high.

The method of mixing the rubber-like elastic yarn into the knitted fabric is as follows.
For example, a pair of polyurethane elastic yarns may be commonly knitted, or a covering yarn having the elastic yarn as a core and another fiber as a sheath may be knitted, and the knitting is not particularly limited. Dyeing process of the polyester athletic wear knitted fabric of the present invention, relax refining-dyeing-functionalization processing-finishing set, etc., there is no problem in the usual knitting process.
Other than that, there is no problem even if greige set or alkali treatment is performed.

As the function-imparting process, antistatic, deodorant, water-repellent, antifouling, sweat-absorbing process and antifungal process can be used as long as the knitted fabric is kept soft and does not impair the object of the present invention. It is not limited in any way. Further, it is more preferable to impart the functionality of the moisture absorption processing, since the moisture absorption rate of the knitted fabric is increased and the comfort when worn is improved. The polyester attire of the present invention may be either entirely or partially using the above-mentioned knitted portion,
It can be used without any limitation.

[0051]

EXAMPLES In the examples of the present invention described below, evaluations of physical properties and the like were obtained by the following methods. [Moisture absorption and desorption parameter ΔMR] Original yarn or knitted fabrics 1 to 3
g, dry weight and 20 ° C x 65% R
The moisture absorption rate of the following equation was calculated and calculated from the weight change from the weight after standing for 24 hours in a commercially available thermostat and humidity chamber under the atmosphere of H and 30 ° C. × 90% RH. Moisture absorption rate (%) = [(weight after moisture absorption−weight in absolute dryness) / weight in absolute dryness] × 100 Moisture absorption rate MR ₁ and 30 ° C. × 90% under the condition of 20 ° C. × 65% RH From the moisture absorption rate MR _{2 under} the condition of RH, the difference between both the moisture absorption rates ΔMR (%) = MR ₂ −MR ₁ is taken as the moisture absorption / desorption parameter.

[Burst Strength] The test was carried out according to JIS L 1018 “Knitted fabric test method”. Collect 5 pieces of 15 mm × 15 mm test piece. The test piece was attached to a Murren type burst tester in a normal state without applying tension and the burst strength was measured, and the average value of 5 sheets was evaluated. [Comfort when wearing and clinging] Each knitted fabric is made into a running shirt / pants and jogging at a speed of 12 km / h using a treadmill while wearing the running shirt / pants in a room with constant temperature and humidity of 30 ° C x 65%. After exercising for 15 minutes, the subject's sensory test was performed to evaluate the comfort, and the running shirt / pants were examined for clinging to the body.

The results of the comfort evaluation were displayed as ×: discomfort, Δ: somewhat comfortable, ◯: comfortable, ⊚: very comfortable. Example 1 As a copolyester, dimethyl terephthalic acid 19
4 parts, ethylene glycol 135 parts, dimethyl 5-sodium sulfoisophthalate 26.6 parts, trimethyl trimellitate 7.5 parts and tetrabutyl titanate 0.
After adding 1 part and carrying out a transesterification reaction, a molecular weight of 40
328 parts of polyethylene glycol of 00 was added and polymerized to obtain a copolyester which is a hygroscopic polymer.

The thus-obtained copolymerized polyester was used as a core component, and polyethylene terephthalate was used as a sheath component, and the copolymerized polyester was 20% by weight based on the total weight of the fiber. 30 denier, 12 filaments (single yarn fineness 2.5
A denier) concentric core / sheath composite fiber was obtained. The moisture absorption / release parameter ΔMR of this yarn was 3.4%. Aiming at knitting for running shirts and pants, this filament 10
After knitting a raw machine with a half structure of a tricot knitting machine 36G using 0%, a knitted fabric having a finish density of 52 wells / inch and a weight per unit area of 88 g / m ² is produced in accordance with a usual tricot fabric dyeing processing method. Then, using this knitted fabric, running shirts / pants for wearing evaluation were prepared in order to evaluate clinging to the body.

The moisture absorption / release parameter ΔMR of this knitted fabric was 3.4%, the moisture absorption / release parameter ΔMR after 5 washes was 3.3%, the friction electrification voltage was 0.1 kv, and the friction band after 5 washes. The voltage was 0.2 kv. The burst strength of this knit was 3.5 kg / cm ² . In the comfort test, it was very comfortable (◎), and no clinging to the body of the running shirt / pants was observed. Furthermore, the comfort test after 5 washes was also very comfortable (⊚), and no clinging to the body of the running shirt / pants was observed. Table 1 shows the evaluation results.

[0056]

[Table 1]

Example 2 In Example 1, a composite fiber of 75 denier and 96 filaments (single yarn fineness 0.8 denier) in which the hygroscopic polymer was 10% by weight based on the total weight of the fiber was obtained. The moisture absorption / release parameter ΔMR of this raw yarn was 1.7%.

Aiming at a soccer shirt knitting, which is a kind of competitive shirt, using 100% of this filament to knit a raw machine with an interlock structure of a double circular knitting machine 24G, and then according to a usual circular knitting dyeing method. , Finishing density 35 wells / inch, 57 courses / inch, areal weight 148g / m
The knitted fabric of No. ² was prepared, and running shirts / pants for evaluating clinging to the body were prepared in the same manner as in Example 1.

The moisture absorption / release parameter ΔMR of this knitted fabric was 1.7%, the moisture absorption / release parameter ΔMR after 5 washes was 1.5%, the friction electrification voltage was 0.3 kv, and the friction band after 5 washes was determined. The voltage was 0.5 kv. The burst strength of this knitted fabric was 7.8 kg / cm ² . In the comfort test, it was very comfortable (◎), and no clinging to the body of the running shirt / pants was observed. Furthermore, the comfort test after 5 washes was also very comfortable (⊚), and no clinging to the body of the running shirt / pants was observed.

Further, as a result of making and wearing a soccer shirt which is a specific athletic suit, it was comfortable without clinging to the body as described above. Table 1 shows the evaluation results. Example 3 In Example 1, a composite fiber of 175 denier and 36 filaments (single yarn fineness 4.9 denier) in which the hygroscopic polymer was 7% by weight based on the total weight of the fiber was obtained. The moisture absorption / release parameter ΔMR of this yarn was 1.5%.

Aiming at a knit for leotards, using 80% of this filament and 20% of 40-denier polyurethane elastic yarn (trademark "Operon" manufactured by Toray-Dupont Co., Ltd.) as a knitting knit, a single circular knitting machine 28G After knitting a raw fabric with a reversible structure, a knitted fabric with a finish density of 42 wells / inch and a basis weight of 270 g / m ² at a finishing density of 42 wells / inch and 53 courses / inch is prepared in accordance with the usual dyeing method for a polyurethane-based elastic yarn interlaced circular knitted fabric. Furthermore, as in Example 1, a running shirt
Pants were made.

The moisture absorption / release parameter ΔMR of this knitted fabric was 1.4%, the moisture absorption / release parameter ΔMR after 5 washes was 1.2%, the friction electrification voltage was 0.6 kv, and the friction band after 5 washes was determined. The voltage was 0.8 kv. The burst strength of this knit was 10.7 kg / cm ² . In the comfort test, it was comfortable (○) and no clinging to the body of the running shirt / pants was observed. Furthermore, the comfort test after 5 times of washing was also comfortable (○), and the clinging of the running shirt / pants to the body was not a problem.

Further, as a result of making and wearing a leotard which is a concrete athletic suit, it was comfortable without dust adhesion. Table 1 shows the evaluation results. Comparative Example 1 In Example 1, a composite fiber of 20 denier and 12 filaments (single yarn fineness of 1.7 denier) in which the hygroscopic polymer was 3% by weight with respect to the total weight of the fiber was obtained. The moisture absorption / release parameter ΔMR of this yarn was 0.6%.

Aiming at knitting for running shirts and pants,
After using 100% of this filament to knit a raw machine with a half structure of a tricot machine 36G, a finishing density of 40 wells / inch, 5 according to the usual tricot textile dyeing processing method.
Fabricate a knitted fabric with a basis weight of 48 g / m ² at 2 courses / inch,
Further, using this knitted fabric, running shirts and pants were produced in the same manner as in Example 1.

The moisture absorption / release parameter ΔMR of this knitted fabric was 0.7%, the moisture absorption / release parameter ΔMR after 5 washes was 0.5%, the frictional electrification voltage was 1.2 kv, and the frictional band after 5 washes. The voltage was 1.5 kv. The burst strength of this knit was 2.1 kg / cm ² . The comfort test was slightly comfortable (△), and the comfort test after 5 times of washing was also slightly comfortable (△). The clinging to the body of the running shirt / pants was not seen before and after washing. However, it was too thin as an athletic suit to be easily seen through and at the same time, it was easily broken and weak in strength.

The evaluation results are summarized in Table 1. Comparative Example 2 Polyurethane elastic yarn of 50 denier and 40 denier of normal polyester multi-filament 50 denier, 4 filament (single yarn fineness 12.5 denier) having a moisture absorption / release parameter ΔMR of 0% (manufactured by Toray DuPont Co., Ltd.) Trademark "Operon" of 12%, using a knitting for cycle pants, aiming at a knit for cycle pants, knitting a raw machine with a 3-bar 3-layer structure of a 28G tricot machine, and then dyeing a normal polyurethane elastic yarn interwoven tricot cloth Finishing density 59 wells /
A knitted fabric having a weight per unit area of 350 g / m ² was produced at 80 courses / inch, and running shirts and pants were produced in the same manner as in Example 1 using the knitted fabric.

The moisture absorption / release parameter ΔMR of this knit is 0.
%, The moisture absorption / release parameter ΔMR after 5 times washing was 0%, the friction electrification voltage was 3.6 kv, and the friction electrification voltage after 5 times washing was 3.6 kv. The burst strength of this knit is 1
It was 9.9 kg / cm ² . In the comfort test, it was unpleasant (x), and clinging to the body of the running shirt / pants occurred violently. Furthermore, the comfort test after 5 times of washing was also unpleasant (x), and the clinging to the body of the running shirt / pants was as strong as before washing.

Further, as a result of manufacturing and wearing the cycle pants which is a concrete athletic suit, as a result, a large amount of dust is attached and it becomes dark, and it is too heavy to be easily moved and tired, and at the same time, the single yarn fineness is 12.5. Because it was thick and denier, the texture was rough and hard to touch. The evaluation results are summarized in Table 1.

Comparative Example 3 Polyurethane elastic yarn of 40 denier, 18 filament (single yarn fineness: 2.2 denier) 80% and 50 denier of a polyester multifilament having a moisture absorption / release parameter ΔMR of 0% (manufactured by Toray DuPont) "Operon") Aiming at the same knit for cycle pants as in Comparative Example 2 using 20% of mixed knitting, knitting a raw machine with a 3-bar special three-layer structure of a tricot machine 32G, and then a normal tricot fabric dyeing method. After dyeing according to the procedure described above, antistatic processing is further performed to produce a knitted fabric having a finish density of 92 wells / inch and 144 courses / inch and a basis weight of 338 g / m ² , and using this knitted fabric, running shirts and pants are used in the same manner as in Example 1. Was produced.

The moisture absorption / release parameter ΔMR of this knitted fabric was 0.1%, and the moisture absorption / release parameter ΔMR after washing 5 times was 0.
%, The frictional electrification voltage was 0.6 kv, but the frictional electrification voltage after washing 5 times was 3.1 kv. The burst strength of this knitted fabric was 19.3 kg / cm ² . In the comfort test, it was uncomfortable (x) before washing and after 5 times of washing.
Although there was no clinging to the body of the running shirt / pants before washing, clinging to the body after 5 washes was severe. In addition, as a result of manufacturing and wearing cycle pants as a specific athletic outfit, they were too heavy, difficult to move, and easily tired. A lot of dust adhered and it became blackish.

The evaluation results are summarized in Table 1. Example 4 ε-caprolactam 340 parts, terephthalic acid 18 parts, polyethylene glycol 100 having a number average molecular weight of 1000
One part was placed in a polymerization reaction vessel and a polymerization reaction was carried out to obtain a polyether ester amide block copolymer having an N6 component content of 45% by weight.

70 parts by weight of the polyether ester amide block copolymer thus obtained and 30 parts by weight of modified polyethylene terephthalate obtained by copolymerizing 2 mol% of 5-sodium sulfoisophthalic acid were blended in a chip state as a core component, Using polyethylene terephthalate as a sheath component, a concentric core / sheath composite fiber having 30 denier 12 filaments (single yarn fineness 2.5 denier) was obtained. The moisture absorption / release parameter ΔMR of this yarn was 2.5%.

Aiming at knitting for running shirts and pants,
After using 100% of this filament to knit a raw machine with a half structure of a tricot machine 36G, a finishing density of 51 wells / inch, 7 was obtained according to the usual tricot textile dyeing processing method.
A knitted fabric with a basis weight of 86 g / m ² is produced at 1 course / inch,
Further, using this knitted fabric, running shirts and pants were produced in the same manner as in Example 1.

The moisture absorption / release parameter ΔMR of this knitted fabric was 2.4%, the moisture absorption / release parameter ΔMR after 5 washes was 2.1%, the frictional electrification voltage was 0.1 kv, and the friction band after 5 washes. The voltage was 0.2 kv. The burst strength of this knitted fabric was 3.4 kg / cm ² . In the comfort test, it was very comfortable (◎), and no clinging to the body of the running shirt / pants was observed. Furthermore, the comfort test after 5 washes was also very comfortable (⊚), and no clinging to the body of the running shirt / pants was observed.

The evaluation results are shown in Table 1. Comparative Example 4 The copolymer polyester obtained in Example 4 was used as a core component,
A 20 denier 12 filament (single yarn fineness 1.7 denier) concentric core / sheath composite fiber in which polyethylene terephthalate was used as a sheath component and the amount of the copolymerized polyester was 3% by weight based on the total weight of the fiber was obtained. The moisture absorption / release parameter ΔMR of this raw yarn was 0.5%.

Using this composite fiber, a running shirt
Aiming at a knit for pants, in the same manner as in Comparative Example 1, a finishing density of 41 wells / inch and a basis weight of 53 courses / inch 5
A knit of ² g / m ² was prepared, and a running shirt / pants was prepared in the same manner as in Example 1 using this knit.
The moisture absorption / release parameter ΔMR of this knitted fabric is 0.4%, the moisture absorption / release parameter ΔMR after 5 times washing is 0.3%, the friction electrification voltage is 1.8 kv, and the friction electrification voltage after 5 washings is 2 It was 0.0 kv.

The burst strength of this knit is 2.0 kg / cm.
^{Was 2} . It was unpleasant (×) in the comfort test and washes 5
The comfort test after turning was also unpleasant (x). However, no clinging of the running shirt / pants to the body was observed before and after washing. Also, no dust adhered. However, it was too thin for running shirts and pants to be transparent, and it was weak in strength and easy to tear.

The evaluation results are summarized in Table 1. Comparative Example 5 Using 100% of normal polyester multifilament 300 denier 96 filament (single yarn fineness 3.1 denier) having a moisture absorption / release parameter ΔMR of 0%, a double circular knitting machine 18G 1 /
After knitting a raw machine with 1 needle pull out change structure, finish density 20 wells / inch, 3 according to the usual circular knitting dyeing method.
A knitted fabric having a basis weight of 180 g / m ² was produced at 6 courses / inch, and a running shirt / pants was produced in the same manner as in Example 1 using this knitted fabric.

The moisture absorption / release parameter ΔMR of this knitted fabric was 0% before and after washing, and the frictional electrification voltage was 3.6 kv before and after washing. The burst strength of this knitted fabric was 11.4 kg / cm ² . The comfort test was unpleasant (x), and the comfort test after 5 times of washing was also uncomfortable (x). The clinging of the running shirt / pants to the body was severe both before and after washing. In addition, as a result of making and wearing training wear that is a concrete athletic wear, as a result of wearing a lot of dust, it becomes dark and it is easy to see through as training wear, and it also has poor extension recovery rate and at the same time strength. It was easy to tear and weak. The evaluation results are summarized in Table 1.

[0080]

As described above, according to the present invention, the movement which does not cause clinging to the skin and dust adhesion when worn due to stuffiness and stickiness caused by low moisture absorption which is a defect of polyester fiber, and high friction electrification voltage. You can get clothes. In addition, the polyester fiber can have inherent shape stability, mechanical strength, chemical resistance, heat resistance, and washing durability.

[Brief description of drawings]

FIG. 1 is a model diagram showing a cross section of a core-sheath composite fiber used in the present invention.

FIG. 2 is a model diagram showing a cross section of a core-sheath composite hollow fiber used in the present invention.

FIG. 3 is a model diagram showing a cross section of a sea-island composite fiber used in the present invention.

FIG. 4 is a model diagram showing a cross section of a laminated conjugate fiber used in the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Core part 2 Sheath part 1a Island part 2a Sea part 1b, 2b Lamination part 3 Hollow part

Claims (5)

[Claims] 1. A moisture absorbing / releasing parameter ΔMR as a constituent yarn.
Contains a polyester-based filament whose ratio is 1% or more,
Friction charge voltage according to JIS L 1094 B method is 3 kv
A knitted fabric that is less than 3 and has a burst strength of 3 kg
/ Cm ² or more polyester sportswear. 2. The density of the knitted fabric is 22 to 82 wells / inch and 28 to 130 courses / inch, and the single yarn fineness of at least one of the wells and courses is 0.1 to 10 denier, Total fineness is 30-300
The polyester sportswear according to claim 1, which has a denier and a basis weight of 80 to 330 g / m ² . 3. The polyester sportswear according to claim 1, wherein a moisture absorption / release parameter ΔMR of the knitted fabric is 1% or more. 4. A composite fiber in which the polyester-based filament is a polyester obtained by copolymerizing a hydrophilic compound and contains 5% by weight or more of a copolymerized polyester containing at least one of a polar group-containing compound and a crosslinking agent, or The polyester sportswear according to any one of claims 1 to 3, which is a blended fiber. 5. The polyester filament according to claim 1, which is a composite fiber or a blend fiber containing 5% by weight or more of a polyether ester amide or a mixture of a polyether ester amide and another thermoplastic resin. Polyester sportswear described in.