JP4693486B2 - underwear - Google Patents

Description

The present invention relates to underwear. More specifically, the present invention relates to an underwear having both excellent stretchability and recoverability, mechanical strength and softness.

  Many underwear such as slips, camisole, petticoats, shorts, shirts, body suits, girdle, bra and other general ladies' underwear, or round neck shirts, U-neck shirts, running shirts, briefs, etc. There is.

  These underwears are required to have an appropriate fit to the body, excellent stretchability and recovery without following the movement of the body, soft touch feeling, and mechanical strength that can withstand repeated wear.

  Compared to textiles, knitted fabrics are more likely to be stretchable due to their fabric structure, and are often used for underwear due to their ease of movement with body movement and softness.

  However, in recent years, an underwear that fits the body and is easy to move is desired, and various technical improvements have been made on the fibers and fabrics used.

  In particular, in order to obtain high stretchability and recoverability, an underwear is often used by using a knitted fabric obtained by combining polyurethane elastic fibers called spandex with nylon fibers, polyester fibers, cotton yarns, and the like.

  However, although polyurethane-based elastic fibers have a high stretch property, when they are mixed, the texture becomes hard as a characteristic property of polyurethane, and the texture and drape of the underwear due to this knitted fabric tend to decrease. In addition, when mixed with polyester fiber, it is difficult to disperse in polyester disperse dyes, and there are problems of washing liquid contamination and a decrease in fastness to wet friction of the underwear. For this reason, the dyeing process such as the enhancement of reduction cleaning becomes complicated, and it is difficult to dye in a desired color. Furthermore, since heat resistance is inferior, there is a problem of rough surface of the knitted fabric and eventually rough surface of the underwear. In addition, the cost of the polyurethane elastic fiber is very high.

  In addition, for example, a method of imparting stretch properties by applying false twisting to polyester fiber or nylon fiber and mixing fibers in which torque by twisting / untwisting is mixed is generally performed. It remains within the range of conventional stretch properties.

Also, for example, a method of mixing polybutylene terephthalate fibers has been adopted. However, even if this fiber is mixed, it is not possible to obtain an underwear with stretch properties that is still satisfactory.
Japanese Patent Publication No. 43-19108

  The present invention solves the above-mentioned problems of the prior art and comprises a knitted fabric having excellent stretchability and recoverability while maintaining mechanical strength, chemical resistance, dyeing processability, soft feeling, swell feeling, etc. The object is to provide an underwear and to provide such an underwear efficiently and at low cost.

  In order to achieve the above object, the present invention adopts the following configuration.

That is, a composite fiber filament in which different types of polyester polymers are bonded side-by-side along the fiber length direction, and at least one of the different types of polyester polymers is a composite structure mainly composed of polytrimethylene terephthalate. undrawn yarn was drawn and then without once winding, comprising continuously obtained Tsu collected wound relaxed, three-dimensional coil takes the form of a crimped the conjugate fiber filaments of the entire constituent yarn 10 wt% or more, that make up the yarn a coil different phases knitted fabric of the entire monofilament, obtained by relaxation scouring heat treatment at 80 ° C. or higher for the knitted fabric, the density of the knitted fabric is from 22 to 85 wells / inch and 28 to 138 courses / inch and basis weight 60~280g ^{/ m} 2, and rupture of the knitted fabric strength is more than 0.25 MPa, Kanchire Stiffness is 5~30mm underwear by chromatography method.

  The undergarment of the present invention is superior in stretch rate and stretch recovery rate compared to conventional underwear, has sufficient bursting strength and drapeability as an undergarment, and can be applied to a wide range of fields from ladies to gentlemen. It can be manufactured efficiently and at low cost.

  The underwear knitted fabric of the present invention includes a composite fiber filament in which different types of polyester polymers are bonded in a side-by-side manner along the fiber length direction.

  Side-by-side type composite fiber is a polymer that has different types of polymers, intrinsic viscosity, copolymerization component, copolymerization rate, etc. . In the case of a combination of polymers having different viscoelasticity, the stress is concentrated on the high viscosity side during spinning and drawing, so that the internal strain differs between the two components. Therefore, the high-viscosity side contracts due to the difference in elastic recovery rate after stretching and the heat shrinkage rate difference in the heat treatment process of the knitted fabric, and distortion occurs in the single fiber, which takes the form of a three-dimensional coil crimp. It can be said that the diameter of the three-dimensional coil and the number of coils per unit fiber length are determined by the shrinkage difference (including the elastic recovery rate difference) between the high shrinkage component and the low shrinkage component. Smaller and more coils per unit fiber length.

  Coil crimps required as an underwear stretch material have a small coil diameter, a large number of coils per unit fiber length (excellent stretch characteristics and good appearance), and good resistance to stretch of the coil (stretch recovery) The amount of settling of the coil is small and the stretch retention is excellent), and the hysteresis loss is small when the coil is stretched and recovered (excellent elasticity and good fit). The diameter of this coil is preferably 250 μm or less, and more preferably 200 μm or less.

  In addition, when the phase of the coil formed in the length direction of the filament yarn is the same as the coil phase of all the single fibers constituting the yarn, one filament yarn and one spring-like yarn Become. The knitted fabric using the yarn has a soft feeling with a flaming, and the surface of the knitted fabric has a fine texture and a beautiful underwear made of a knitted fabric with a beautiful surface. On the contrary, when the coil phases of all the single fibers constituting the yarn are different, one filament yarn becomes a false twisted / untwisted temporary twisted yarn having one fluff. The knitted fabric using the yarn has a soft feeling with further scouring, and an underwear made of a knitted fabric having a flat and beautiful surface can be obtained. When obtaining an underwear stretch knitted fabric, there is no particular limitation as to which yarn is used, and it may be properly used depending on the type of underwear, preference, and the like.

  While satisfying these requirements, the underwear made of a stretch material having an excellent total balance can be obtained by having characteristics as polyester, for example, moderate tension, drape, and high dyeing fastness. Here, in order to satisfy the coil characteristics described above, the characteristics of the high shrinkage component (high viscosity component) are important. Since the expansion and contraction characteristics of the coil are dominated by the expansion and contraction characteristics of the high contraction component with the low contraction component as a fulcrum, the polymer used for the high contraction component is required to have high extensibility and recovery characteristics.

  Accordingly, as a result of intensive studies to satisfy the above-mentioned properties without impairing the properties of the polyester, the present inventors use a polyester mainly composed of polytrimethylene terephthalate (hereinafter abbreviated as PTT) as a high shrinkage component. I found it preferable. PTT fibers have the same mechanical and chemical properties as polyethylene terephthalate (hereinafter abbreviated as PET) and polybutylene terephthalate (hereinafter abbreviated as PBT) fibers, which are typical polyester fibers, and are stretch-recoverable. It is extremely excellent. This is because the methylene chain of the alkylene glycol part in the crystal structure of PTT is a Gauche-Gauche structure (the molecular chain is bent at 90 degrees), and further, the density of restraint points due to the interaction between benzene rings (stacking, parallel) This is because the molecular chain can be easily stretched and recovered by the rotation of the methylene group.

  Here, PTT is a polyester obtained using terephthalic acid as the main acid component and 1.3-propanediol as the main glycol component. However, it may contain a copolymer component capable of forming another ester bond at a ratio of 20 mol%, more preferably 10 mol% or less. As copolymerizable compounds, for example, dicarboxylic acids such as isophthalic acid, succinic acid, cyclohexanedicarboxylic acid, adipic acid, dimer acid, sebacic acid, 5-sodium sulfoisophthalic acid, ethylene glycol, diethylene glycol, butanediol, neopentyl glycol And diols such as cyclohexanedimethanol, polyethylene glycol, polypropylene glycol and the like, but are not limited thereto. Further, if necessary, titanium dioxide as a matting agent, silica or alumina fine particles as a lubricant, hindered phenol derivatives as an antioxidant, coloring pigments and the like may be added.

  The low-shrinkage component is not particularly limited as long as it is a fiber-forming polyester that has good interfacial adhesion with PTT, which is a high-shrinkage component, and has stable yarn-making properties. PTT, PET, and PBT having fiber forming ability are preferable in consideration of physical properties and raw material prices.

  The melt viscosity at the spinning temperature of PTT is preferably 1.0 to 5.0 times the melt viscosity at the spinning temperature of the other low shrinkage component. By setting the ratio to 1.0 times or more, preferably 1.1 times or more, the PTT receives a larger spinning stress during fiber formation of spinning, and a stronger crimp expression ability can be obtained. On the other hand, when the ratio is 5.0 times or less, preferably 4.0 times or less, the composite form can be easily controlled, and the bending of the discharged polymer below the die can be suppressed to a level that does not cause any problem in spinning.

  Moreover, the composite ratio of both components is preferably in the range of high shrinkage component: low shrinkage component = 75: 25 to 35:65 (% by weight) in terms of yarn production and dimensional homogeneity of the coil in the fiber length direction. : The range of 35-45: 55 is more preferable.

In addition, the fiber cross-sectional shape of the side-by-side type composite fiber is a round cross section, a triangular cross section, a multi-lobe cross section, a flat cross section, a Dalma type cross section, a C type cross section, an M type cross section, an H type cross section, an X type cross section, an I cross section. The mold cross section and + mold cross section can be used, but from the balance of crimp development and texture, a semi-circular side-by-side (a) with a round cross section as shown in FIG. In the case of a hollow side-by-side (d), in the case of an underwear aiming at a dry texture, a triangular section side-by-side (g) is preferably used.
The side-by-side type composite fiber is preferably composed of filament yarns having a single yarn fineness of 0.1 to 11 dtex and a total fineness of 22 to 193 dtex.

  By setting the single yarn fineness to 11 dtex or less, the texture of the knitted fabric has a soft and appropriate drape, and can be preferably used as an underwear. Moreover, composite yarn-making becomes favorable by setting it as 0.1 dtex or more, More preferably, 1.1 dtex or more, Moreover, a crimped structure is reflected and favorable stretch property can also be obtained. Further, yarns having different single yarn finenesses such as different fineness mixed yarns may be used. Such a different fineness mixed yarn is preferable from the viewpoint of making an underwear made of a knitted fabric that is soft and has an appropriate tension.

  The mixing ratio of the side-by-side type composite fiber to the constituent yarn of the knitted fabric is 10% by weight or more, preferably 20% by weight or more, and more preferably 30% by weight or more. When the mixing ratio is less than 10% by weight, it becomes difficult to obtain good characteristics with respect to the average elongation rate and the average elongation recovery rate in the vertical and horizontal directions of the knitted fabric for skin wear described later. As a method of mixing side-by-side type composite fibers into knitted fabrics, normal knitting with other materials, knitting, twisting, covering, blending, etc. can be adopted. What is necessary is just to use suitably according to a ground formation method, a knitting organization, etc.

  Other materials are synthetic fibers such as polyester fibers, polyamide fibers, polyacrylonitrile fibers, polyvinyl alcohol fibers, polyvinyl chloride fibers, polypropylene fibers, polyurethane fibers, or semi-synthetic fibers. Acetate fiber or regenerated fiber viscose rayon, cellulosic fiber including cupra, milk protein fiber, protein fiber including soy protein fiber, polylactic acid fiber, or using these filament yarn or spun yarn, Alternatively, there are blended yarn use, plant-based natural fibers including cotton and hemp, or animal-based natural fibers including wool, cashmere, and silk, and further these mixed yarns.

  Further, the underwear knitted fabric of the present invention is characterized in that an excellent elongation rate and elongation recovery rate can be obtained without mixing polyurethane-based elastic fibers as in the prior art. In order to obtain the above characteristics, polyurethane elastic fibers may be used in a range that does not impair the texture and dyeability.

  There are single circular knitted fabric and double circular knitted fabric that are circular knitted fabric, single tricot knitted fabric and double tricot knitted fabric that are warp knitted fabric, single raschel knitted fabric and double raschel knitted fabric. It can be knitted by each dedicated knitting machine according to the target underwear type. The knitted fabric is used as an underwear for round knitted fabrics such as tengu, kanoko, interlock, mesh, single-sided uneven texture, such as warp knitted half, satin, mesh, single-sided textured Applicable knitting organization is applicable.

The skin knitted fabric of the present invention preferably has a density of 22 to 85 well / inch and 28 to 138 course / inch, and a basis weight of 60 to 280 g / m ² . By setting the density of the knitted fabric to 22 wells / inch or more and 28 courses / inch or more, there is no decrease in strength as an undergarment, occurrence of twisting of the eyes, etc., and knitting is improved. Further, it is preferable that the density is 85 wells / inch or less and 138 courses / inch or less because the texture of the knitted fabric does not become hard, and the knitting property is further improved without impairing the lightweight feeling.

In addition, when the fabric weight is 60 g / m ² or more, the underwear has a mechanical strength, and when it is 280 g / m ² or less, the texture of the underwear is not stiff and feels heavy and is easy to move. Unhindered and wearable.

  As for the knitting conditions in this knitting, it is preferable that the loop length and the runner length be slightly larger than the knitting conditions for normal yarn use to increase the knitting density. As a result, the composite fiber bonded to the side-by-side mold passes through the dyeing process, so that the crimp expression is fully exhibited and a knitted fabric with excellent stretch, softness, and bulge feel is obtained. Can do.

  Heat treatment, scouring and dyeing of the knitted raw machine knitted fabric may be performed in accordance with ordinary knitted fabric processing methods, but the latent crimp of side-by-side type composite fibers is more effectively expressed as a spring structure. Therefore, it is preferable that the relaxation / scouring heat treatment temperature is 80 ° C. or higher. In addition, as ancillary processing at the dyeing stage, antifouling processing, antibacterial processing, deodorization processing, deodorization processing, sweat absorption processing, moisture absorption processing, UV absorption processing, weight loss processing, etc., and post processing, calendar processing, embossing processing, wrinkle processing, etc. It is desirable to apply appropriately according to the required characteristics of the final target underwear type such as processing, raising processing, opal processing and the like.

  In the knitted fabric for skin wearing of the present invention, it is important that the average elongation rate in the vertical and horizontal directions is 55% or more, and the average elongation recovery rate in the vertical and horizontal directions is 60% or more.

  The average elongation rate and the average elongation recovery rate can be measured by the method shown in the examples, but the elongation rate represents the degree of elongation of the knitted fabric, and the larger this value, the more worn underwear. At times, it is easy to follow the movement of the body, easy to move, and hard to get tired. The stretch recovery rate indicates the degree of recovery that the knitted fabric stretched by the movement of the body tries to quickly return to the original state. The larger this value, the better the fit when worn as underwear. Easy to move.

  It is necessary to consider the elongation rate and the elongation recovery rate by averaging the values in the warp direction and the transverse direction of the knitted fabric. This is because when the garment is actually worn and moved, it is not stretched in only one direction of the knitted fabric or in the horizontal direction, but the knitted fabric is stretched three-dimensionally according to the roundness of the human body. Because. This three-dimensional stretch characteristic correlates well with the average stretch rate, which is the average stretch rate in the warp direction and the horizontal direction of the knitted fabric, and the average stretch recovery rate.

  The average elongation rate in the warp and transverse directions of the knitted fabric in the present invention is 55% or more, preferably 70% or more, more preferably 80% or more. When the average elongation rate is less than 55%, it is not preferable because it is difficult to follow the movement of the body, and it is easy to get tired when wearing as underwear and making intense movements.

  Further, the average elongation recovery rate in the warp and transverse directions of the knitted fabric in the present invention is preferably 60% or more, more preferably 70% or more, and further preferably 80% or more. When the average stretch recovery rate is less than 60%, the knitted fabric stretched from the movement becomes stretched, and the fit to the body is inferior, making it difficult to follow the movement of the body. Moreover, it will be inferior in appearance as underwear.

  It is important that the underwear of the present invention has a bending resistance by the cantilever method of 5 to 30 mm. The bending resistance by the cantilever method serves as a reference for the softness of the knitted fabric, and can be measured by the method shown in the examples. If the bending resistance is less than 5 mm, the texture of the knitted fabric becomes too soft and clings to the body, making it difficult to move. On the other hand, if it is larger than 30 mm, the texture of the knitted fabric becomes hard and it is not suitable as an underwear.

  In addition, the bursting strength of the knitted fabric used for the undergarment of the present invention is 0.25 MPa or more. If the bursting strength of the knitted fabric is less than 0.25 MPa, it will be torn during wearing and cannot be used.

  If it is only the above-mentioned bending resistance, it can be achieved to some extent by appropriately setting the fineness of the yarn to be used and the basis weight of the knitted fabric, but it is important to obtain the desired bending resistance while maintaining this bursting strength. is there.

  Also from this point, since the composite fiber of PTT / PET has good flexibility while maintaining the strength as the fiber, it is suitable for the underwear knitted fabric of the present invention.

  The underwear of the present invention can be widely developed as follows by selecting as appropriate. For example, slips, camisoles, petticoats, shorts, underpants, shirts, body suits, girdles, bras, etc., which are general women's underwear. It can be preferably used for round neck shirts, U-neck shirts, running shirts, briefs, trunks, underpants, etc., which are general men's underwear.

Hereinafter, the present invention will be described using examples. Each evaluation in the examples was performed as follows.

(1) Melt viscosity Measured in a nitrogen atmosphere using a Capillograph 1B manufactured by Toyo Seiki Co., Ltd. The temperature shown in the examples (275 ° C. in Example 1) was taken as the measurement temperature, the measurement was carried out three times at a strain rate of 6080 sec ⁻¹ , and the average value was taken as the melt viscosity.

(2) Average elongation rate First, the elongation rate was tested in accordance with the grab method of the constant speed elongation method of JIS L 1018 "Testing method of knitted fabric". That is, three test pieces each having a size of 10 cm × about 15 cm were collected in the vertical and horizontal directions. Using a constant-speed extension type tensile tester with a self-recording device, both the upper and lower grips are 2.54cm x 2.54cm on the front side and 2.54cm x 5.08cm on the back side, and the grip interval is 7.6cm. It was fixed to the grip by removing the slack and tension. This was stretched to a load of 17.7 N (1.8 kg) at a tensile speed of 10 cm / min, and the gripping interval at that time was measured. Immediately thereafter, the load was returned to 7.6 cm, which was the original gripping interval, in the direction of removing the load. This behavior due to load-deweight was drawn as a load-elongation-recovery curve on a self-recording recorder (see FIG. 1). Based on this, the elongation LA (%) was obtained by the following formula and expressed as an average value of three sheets.
Elongation rate LA (%) = [(L1-L) / L] × 100
L: Grasp interval (mm)
L1: Grasp interval when extended to 17.7N (mm)
The elongation rates for the warp direction and the horizontal direction of the knitted fabric were added, and the added value was halved to obtain the average elongation rate.

(3) Average elongation recovery rate Further, the elongation recovery rate LB (%) is based on the load-elongation-recovery curve drawn with the self-recording recorder, and the residual strain rate L2 ( %), The elongation recovery rate LB (%) was calculated by the following formula, and expressed as an average value of three sheets.
Elongation recovery rate LB (%) = (L3 / L1) × 100
The elongation recovery rate for each of the warp direction and the horizontal direction of the knitted fabric was added, and the added value was halved to obtain an average elongation recovery rate.

(4) Bursting strength It was performed according to JIS L 1018 “Testing method of knitted fabric”. Five test pieces of 15 mm × 15 mm are collected. With the test piece face up, the burst strength was measured by attaching it to a Murren burst tester in an ordinary state without applying tension, and the average value of the five pieces was shown.

(5) Bending softness by cantilever method It was performed according to JIS L 1018 “Knitted fabric test method”. Collect 5 pieces of 2 cm x 15 cm test pieces in the vertical and horizontal directions. Using a cantilever type tester with one end having a 45 ° slope, the short side of one end of the test piece is adjusted to the scale reference on the slope side of the tester. Slide the test piece in the direction of the slope and read the position of the other end when one end of the test piece touches the slope. The length that the test piece slips is defined as the bending resistance (mm). Evaluate with an average value of 5 pieces each for vertical and horizontal. A smaller value means softer.

(6) Wear evaluation (ease of movement when worn)
Each knitted fabric is made of slips that are women's underwear, and 5 adult female subjects walk at a speed of 5 km / h using a treadmill in a room at 20 ° C x 65% RH, wearing outer garments, slips and underwear. For 10 minutes. Subsequent test subjects' self-reports were used to evaluate the ease of walking in the following three-step evaluation.
Judgment display ○: Very easy to move and walk
Δ: Easy to move and easy to walk
X: It is difficult to walk because it is difficult to move.

(7) Comprehensive evaluation Displayed in two stages as follows.
Judgment display ○: Excellent as underwear
X: Inferior as underwear.

[Example 1]
A homo-PTT having an intrinsic viscosity (IV) of 1.40 at 275 ° C. and a homo-PTT having an intrinsic viscosity of 0.60 at 275 ° C. and a homo-PET having an intrinsic viscosity (IV) of 0.60 and 275 ° C. were melted separately, respectively, and the spinning temperature It was discharged from a 48-hole composite spinneret at 275 ° C. at a composite ratio (% by weight) of 50:50 and taken up at a spinning speed of 1400 m / min to obtain a side-by-side composite structure undrawn yarn. Further, the film was stretched using a hot roll-hot plate stretching machine, and then continuously relaxed and wound without being wound once, to obtain a drawn fiber of 56 dtex 24 filaments (the fiber cross section is a in FIG. 2).

  In the 40G double-sided circular knitting machine, both the component yarns I and B in the knitting diagram of FIG. 3 are fed to the yarn feeders F1 and F2 in the knitting diagram using the above-mentioned PTT / PET side-by-side composite filament yarns, An interlock structure knitted fabric made of 100% PTT / PET side-by-side composite filament yarn was knitted.

In accordance with a normal polyester circular knitted fabric dyeing method, this raw machine was subjected to relaxation / scouring, dyeing and finishing set to obtain a knitted fabric of 143 g / m ² , density 61 wale, 65 course. The obtained knitted fabric was excellent in stretch properties with an average stretch rate of warp and width of 103% and an average stretch recovery rate of 82%. Further, the bursting strength was 0.7 MPa, and the bending resistance by the cantilever method was 22 mm. The result of wearing evaluation with a camisole made of this knitted fabric was also judged to be easy to move and excellent as underwear. Detailed results are shown in Table 1.

[Example 2]
A PTT / PET side-by-side composite filament yarn of the same PTT / PET as in Example 1 except that the fineness and the number of filaments are different (the fiber cross section is a in FIG. 2) using a 33 decitex 12 filament in a 36G single tricot machine, as shown in FIG. The half-knitted fabric was knitted by arranging the PTT / PET side-by-side composite filament yarn on the Back side constituting yarn C of the knitting diagram and arranging 33 dtex 24 filaments made of PET yarn on the Front side constituting yarn D. The yarn blend ratio (% by weight) in this knitted fabric design was 25% for the PTT / PET side-by-side composite yarn and 75% for the PET yarn.

This raw machine was subjected to relaxation / scouring, dyeing, and finishing set in accordance with a normal polyester warp knitting method, and a knitted fabric of 83 g / m ² , density 66 wale, 78 course was obtained. The obtained knitted fabric had excellent stretch properties with an average stretch rate of 92% and an average stretch recovery rate of 87%. Further, the bursting strength was 0.32 MPa, and the bending resistance by the cantilever method was 9 mm. The result of wearing evaluation by slip consisting of this knitted fabric was also judged to be easy to move and excellent as underwear. Detailed results are also shown in Table 1.

[Comparative Example 1]
Using the same circular knitting machine as in Example 1, both the component yarns I and B in the knitting diagram of FIG. 3 are fed with PET processed yarn 56 dtex 12 filament yarn, and fed to each of the yarn feeders F1, F2 in the knitting diagram, An interlock structure knitted fabric composed of 100% normal yarn was knitted.

This raw machine was subjected to the same dyeing method as in Example 1 to obtain a knitted fabric of 121 g / m ² , density 65 wale, 57 course. The obtained knitted fabric was inferior in stretch properties with an average elongation rate of 48%, although the average elongation recovery rate of warp and width was 61%. Moreover, although the bursting strength was 0.65 MPa, the bending resistance by the cantilever method was 32 mm, which was inferior to the drapeability. The result of wearing evaluation by slip consisting of this knitted fabric was determined to be unsuitable as underwear because it is difficult to move. Detailed results are also shown in Table 1.

[Comparative Example 2]
Using the same warp knitting machine as in Example 2, a PET yarn 33 dtex 24 filament yarn is arranged on the Back side component yarn C and the Front side component yarn D in the knitting diagram of FIG. 4, and a half made of 100% PET yarn. Organized an organization.

This raw machine was subjected to the same dyeing process as in Example 2 to obtain a knitted fabric of 71 g / m ² , density 55 wale, 71 course. The obtained knitted fabric was inferior in stretch properties, with an average stretch rate of 48% for warp and width and 57% for an average stretch recovery rate. Moreover, the bursting strength was inferior at 0.21 MPa. The bending resistance by the cantilever method was 11 mm. The result of wearing evaluation by slip consisting of this knitted fabric was determined to be unsuitable as underwear because it is difficult to move. Detailed results are also shown in Table 1.

It is explanatory drawing of a load-elongation recovery curve. It is a model figure which shows an example of the fiber cross-sectional shape of the fiber used for this invention. FIG. 2 is a knitting diagram of a knitted fabric of Example 1 and Comparative Example 1. FIG. 3 is a knitting diagram of a knitted fabric of Example 2 and Comparative Example 2.

Explanation of symbols

L1: Elongation of knitted fabric L2: Elongation of strain of knitted fabric L3: Recovery elongation of knitted fabric ag: Fiber cross-sectional shape F1-F2: Yarn feeder NO of knitting machine
I ~ Ha: Knitting fabric yarn

Claims (1)

A composite fiber filament in which different types of polyester polymers are bonded side-by-side along the fiber length direction, and at least one of the different types of polyester polymers is unstretched with a polytrimethylene terephthalate as a main component without wound yarn was stretched then once comprises continuously obtained Tsu collected wound relaxed, three-dimensional coil takes the form of a crimped the conjugate fiber filaments of the entire constituent yarn 10 wt% or more, yarn coil phase of all monofilament that make up the is different knitted fabric, obtained by relaxation scouring heat treatment at 80 ° C. or higher for the knitted fabric, the density of the knitted fabric is from 22 to 85 wells / inch and 28 to 138 courses / inch, and a basis weight of 60~280g ^{/ m} 2, and the knitted fabric of the rupture strength is more than 0.25MPa, the cantilever method Underwear stiffness is 5~30mm.

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