JP2010242250A - Inner wear - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide inner wear comfortable to wear, and reducing sticky feeling or feeling of cold during much perspiration by long-time exercise or the like. <P>SOLUTION: The inner wear is configured such that the contact cold sense value of at least a part of a skin surface layer when giving 200g/m<SP>2</SP>moisture is 240 W/m<SP>2</SP>*°C or less. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to innerwear. More specifically, the present invention provides an innerwear excellent in dryness that does not feel sticky or wet due to sweat when sweating a large amount during wearing.

  The inner wear is in close contact with the skin, and may feel sticky when sweated while wearing. The innerwear made of cotton material, which has been commonly used in the past, feels wet and sticky when sweat remains on the skin, and becomes cold and uncomfortable after sweating. Also, when worn, the wear may stick to the skin with sweat and feel difficult to move. This sticky feeling, cold feeling, and difficulty in movement are unpleasant feelings often felt when worn outdoors in summer.

  In order to suppress these discomforts, it is effective to combine hydrophobic fibers that do not easily hold sweat, such as polyester, and transfer sweat from the skin side to the front side of the inner wear, leaving no moisture on the skin side. Studies on innerwear made of various fabrics are underway.

  As examples, various fabrics have been proposed in which the single yarn fineness and cross-sectional shape of the yarn to be used are different on the knitted fabric front side and back side. Patent Document 1 uses a synthetic fiber filament having an irregular cross section and having a plurality of concave grooves in the longitudinal direction on the surface side of the knitted fabric, and a synthetic fiber filament having no concave portion in the longitudinal direction on the back side of the knitted fabric. A knitted fabric has been proposed that absorbs and diffuses moisture to the surface, reducing stickiness and quick drying. In Patent Document 2, moisture is left on the back side of the knitted fabric by using a fiber having excellent water absorption capability such as cotton on the front side of the knitted fabric and a fiber having poor water absorption capability such as polyester filament on the back side of the knitted fabric. There has been proposed a knitted fabric having a structure that does not have a sticky feeling and a feeling of cooling. Although these can exhibit a certain effect depending on the type of yarn used, there is a limit to the effect of reducing the stickiness in a situation where the amount of perspiration is large. In addition, the yarn is limited, is not versatile, and by using a yarn having a special cross-sectional shape, labor may be required for stable processing and quality stabilization of the yarn.

On the other hand, a knitted fabric in which the feeling of stickiness of the skin is suppressed by giving a difference in density between the front and back sides of the knitted fabric is also being studied. For example, in Patent Document 3, hydrophilic fibers are used on the knitted fabric surface side and hydrophobic fibers are used on the knitted fabric back side, the density on the knitted fabric surface side is made larger than the density on the knitted fabric back side, and irregularities are formed on the knitted fabric surface side. By applying, a knitted fabric having a smooth feeling of the skin has been proposed, but the surface side of the knitted fabric with high density and unevenness is used on the skin side, and there are hydrophilic fibers on the skin side. Therefore, the water is retained on the skin side, and even if there are irregularities, the feeling of stickiness is large, and the skin dryness is insufficient for clothing applications.
Accordingly, there is currently no fabric or wear that suppresses the feeling of stickiness and coldness when a large amount of sweat is generated.

Japanese Patent No. 3724190 JP 2001-81652 A JP 2004-190151 A

  The subject of this invention is providing the innerwear which is comfortable at the time of wear, and reduces a sticky feeling and a cold feeling at the time of a lot of sweating at the time of wearing in the summer.

As a result of intensive studies to achieve the above-mentioned problems, the present inventors have found that the surface of a fabric having a contact cooling sensation value of not more than 240 W / m ² · ° C. when 200 g / m ² moisture is applied to at least one surface layer. The present inventors have found that the inner wear using the layer on the skin side does not leave sweat on the skin side of the wear and can achieve the above-mentioned problems, and has reached the present invention.

That is, the present invention is as follows.
(1) Inner wear, wherein at least a part of the skin-side surface layer has a contact cooling sensation value of 240 W / m ² · ° C. or less when 200 g / m ² moisture is applied.
(2) The inner wear according to (1) above, wherein the height difference between the convex part and the concave part of the skin-side surface layer is 0.10 to 0.40 mm.
(3) The innerwear according to (1) or (2) above, wherein the coefficient of friction increase rate at the time of applying moisture to the skin side surface layer is 100% or less.

  The inner wear of the present invention is comfortable when worn, and reduces the feeling of stickiness and cooling when a large amount of sweat is generated due to long-time exercise or the like, so that a comfortable wearing feeling can be obtained.

1 is a knitted fabric organization chart of a fabric used in Example 1. FIG. 3 is a knitted fabric organization chart of the fabric used in Example 2. FIG. It is a knitted fabric organization chart of the fabric used in Example 4. 2 is a knitted fabric organization chart of the fabric used in Comparative Example 1. FIG.

Hereinafter, the present invention will be described in detail.
The inner wear of the present invention is obtained by applying a fabric having a contact cooling sensation value of 240 W / m ² · ° C. or less at the time of applying moisture of 200 g / m ² on at least one surface to at least a part of the fabric constituting the inner wear. It is characterized by being used so that the layer is on the skin side. Preferably it is 220 W / m ² · ° C. or less, more preferably 200 W / m ² · ° C. or less. Further, the contact cooling sensation value is desirably 120 W / m ² · ° C. or more. When the temperature is less than 120 W / m ² · ° C., the unevenness of the fabric becomes extremely large, and the touch becomes worse.

It is assumed that you will sweat a lot when you wear innerwear. Moisturization of 200 g / m ² is a considerable amount of sweating during general wear, such as walking under hot weather for about 15 minutes, and it is not sticky in this state of the inner comfort of summer inner wear Is very important in terms. The amount of stickiness during sweating can be evaluated by the contact cooling sensation value. In the present invention, the contact cold sensation value is represented by the maximum value of instantaneous heat transfer (labeled Qmax) measured using a Thermolab tester manufactured by Kato Tech.

As a method for applying moisture at the time of measurement, moisture may be applied by spraying to the measurement surface side of the sample so that the weight of the sample sampled at 8 cm × 8 cm is +1.28 g. The water temperature in the spray bottle at this time is 20 ° C. When the stickiness is large, a lot of water is present on the measurement surface, so the contact cooling sensation value becomes a very large value. On the contrary, when the surface is not sticky, that is, when there is not much water on the surface, the contact cooling sensation value becomes small. This value is preferably 240 W / m ² · ° C. or less in order to prevent stickiness.

As a first method for suitably producing a fabric having a surface having a contact cooling sensation value of 240 W / m ² · ° C. or lower when water is applied at 200 g / m ² , the knitted structure is tacked when the fabric is a circular knitted fabric. There are methods such as reversible, dimple mesh, and comfort, in which the number of loops in the well direction on one side of the knitted fabric is small, and a structure using tuck knitting that can provide unevenness is used. In the knitted fabric having the knitted structure, the other surface has a large number of loops in the well direction and small irregularities. As for the warp knitted fabric, it is preferable to provide unevenness on one side such as a mesh structure on one side. The inner wear of the present invention is manufactured using the uneven surface side as the skin side. As the degree of unevenness on the skin side, the difference between the convex part and the concave part is more preferably 0.10 to 0.40 mm, and further preferably 0.15 to 0.35 mm. The difference in height between the convex part and the concave part here is taken with a cross-sectional photograph of the knitted fabric with an electron microscope or the like. The height to the convex part on the skin side with large irregularities is measured at five places and averaged. Similarly, five heights from the front side to the skin side concave portion are measured and averaged. It calculates with the following formula from each average value.
Difference in height between convex part and concave part = (average value of height from the knitted fabric surface side to the convex part on the knitted fabric skin side) −
(Average value of the height from the knitted fabric surface side to the concave portion on the knitted fabric skin side)
In addition, when there is unevenness on the front side, a reference line is drawn at a position substantially at the middle height of the unevenness on the front side, and the heights of the convex portions and the concave portions on the skin side from the reference line may be obtained.

  If the difference between the height of the convex part on the skin side and the concave part is less than 0.10 mm, the uneven part is too small, and thus it is difficult to reduce the stickiness of the knitted fabric, and the difference in height between the convex part and the concave part is 0. If it exceeds 40 mm, the feeling of roughness becomes large, and the cloth becomes thick, which is not preferable as inner wear in which smooth and thin fabric is preferred.

  When the difference between the convex part and the concave part on the skin side is 0.10 to 0.15 mm, the front side is made higher in density with respect to the skin side, or the front side is made finer. It is preferable to use other preferable yarn designs and knitting designs described later, such as arranging large fibers.

As a second method for suitably producing a fabric having a surface with a contact cooling sensation value of 240 W / m ² · ° C. or less when moisture is applied at 200 g / m ² , the density of the knitted fabric constituting the surface layer on the front side is the skin The method of making it 1.1 to 4.5 times the knitted fabric density which comprises the surface layer of the side is mentioned. Preferably it is 1.2 to 4.2 times, more preferably 1.3 to 4.0 times. As a result, a capillary phenomenon occurs and moisture can be transferred from the skin side to the front side, so that moisture hardly remains on the skin surface even when sweating a lot, and the feeling of stickiness and cooling when worn can be reduced. . In order to provide a density difference between the skin side and the front side, a multilayer knitted fabric or a multilayer woven fabric is preferable.

  When the front side density is less than 1.1 times the skin side density, the capillary phenomenon hardly occurs, and the improvement effect of stickiness due to the occurrence of moisture transfer by the capillary phenomenon cannot be expected. If the density on the front side exceeds 4.5 times the density on the skin side, the moisture transfer due to the capillary phenomenon is large, but the skin side becomes a rough tissue, and the texture such as a tingling feeling when worn is worsened. Moreover, there is a concern that the snacking property is also deteriorated.

  In the case of a knitted fabric, the density of the front and back sides of the fabric is determined by measuring the number of stitch loops per width of 2.54 cm (1 inch) with a densimeter, a linen tester, or the like. Here, the number of loops is the number of stitches of the knit loop, and stitches such as tack loops and sinker loops are not included in the number of loops. The method of changing the density of the front side and the skin side of the knitted fabric is not particularly limited, but a method using a double circular knitting machine with different numbers of gauges on the dial side and the cylinder side, or making the knitted fabric skin side with a needle-free structure The method is preferred. It is also effective to arrange spandex fibers on the front side and increase the density on the front side by expansion and contraction of the spandex.

As a third method of suitably producing a fabric having a surface with a contact cooling sensation value of 240 W / m ² · ° C. or less when moisture is applied at 200 g / m ^{2, the} use of yarn on the fabric surface side and the skin side is optimized. Is also effective. The single yarn fineness of the material constituting the innerwear of the present invention can be in the range generally used in clothing and the like, and among them, the single yarn fineness is preferably 0.2 to 7.0 dtex. More preferably, the single yarn fineness on the front side is preferably smaller than the single yarn fineness on the skin side. Specifically, a yarn having a single yarn fineness of 0.3 to 3.0 dtex on which the capillary phenomenon is likely to occur on the front side, and a single yarn fineness of 1.0 to 4.0 dtex on which the water is easily transferred to the front side on the skin side. It is effective to use yarn and make the single yarn fineness on the front side smaller than the single yarn fineness on the skin side. When a modified cross-section yarn having a large surface area, which will be described later, and is prone to capillary action, is used on the front side, the single yarn fineness on the front side and the skin side may be equal. The single yarn fineness is calculated by the total fineness / number of single yarns. It is also effective to place hydrophilic fibers such as cotton, cupra and rayon on the front side, and composite yarns of these hydrophilic fibers and hydrophobic fibers such as polyester and polyamide, and hydrophobic fibers on the skin side. It is.

  The total fineness of the material constituting the inner wear of the present invention can be in the range used for general inners, among which the total fineness is preferably 16 to 170 dtex. Furthermore, the material used for the innerwear of the present invention may have crimps and fluff, the front side is a low crimped yarn that is prone to capillary action, and the skin side is a high crimp that reduces the contact area with the skin. Shrinking is preferred. The low crimped yarn has a crimp elongation of 0 to 25%, and the high crimped yarn has a crimp elongation of 25 to 250%. The crimp elongation of the false twisted yarn is measured under the following conditions.

The upper end of the crimped yarn is fixed, a load of 1.77 × 10 ⁻³ cN / dt is applied to the lower end, and the length (A) after 30 seconds is measured. Next, the load of 1.77 × 10 ⁻³ cN / dt is removed, the load of 0.088 cN / dt is applied, the length (B) after 30 seconds is measured, and the crimp elongation rate is obtained by the following formula.
Crimp elongation (%) = ((B−A) / A) × 100

Although the fabric weight of the fabric used for the innerwear of this invention is not specifically limited, 40-250 g / m < ² > is preferable, More preferably, it is 70-200 g / m < ² >. Although it does not specifically limit about thickness, 0.3-2.0 mm is preferable, More preferably, it is 0.5-1.5 mm, More preferably, it is 0.6-1.2 mm. In addition, the thickness of the knitted fabric is averaged by using a thickness measuring device manufactured by Peacock and bringing a measuring part having a diameter of 3.0 cm into contact with the knitted fabric with a load of 5 g and measuring three places.

The material of the fabric used for the innerwear of the present invention includes synthetic fiber multifilament yarns such as polyester, polyamide, polypropylene and polyacrylonitrile, regenerated fiber multifilament yarns such as rayon, cupra and acetate, and spun yarns obtained therefrom. And processed yarns, and mixed yarns. Further examples include natural fibers such as cotton, wool, hemp and silk, and blended yarns thereof, but are not limited thereto. In particular, a polyester multifilament is preferable as the material constituting the skin side in terms of reducing stickiness.
The processed yarn may be obtained from a multifilament that is generally used for clothing. For example, a latent crimped multifilament such as a side-by-side type, false twisting, shaping and indenting into a multifilament. Examples thereof include, but are not limited to, those having crimps and the like obtained from two or more types of multifilaments by fluid blending or twisting. Among these, false twisted yarn obtained by false twisting a multifilament is preferred from the viewpoint of swelling when stretched into fabric, stretchability and uniformity of the fabric surface.
Furthermore, synthetic fiber multifilament yarns include matting agents such as titanium dioxide, stabilizers such as phosphoric acid, ultraviolet absorbers such as hydroxybenzophenone derivatives, crystallization nucleating agents such as talc, lubricants such as aerosil, and hindered phenol derivatives. Antioxidants such as flame retardants, antistatic agents, pigments, fluorescent brighteners, infrared absorbers and antifoaming agents may be contained.
Inner wear has many uses that require stretchability, and it is preferable to use polyurethane fibers for covering or aligning to impart stretchability.

  The single yarn cross-sectional shape of the material constituting the innerwear of the present invention is arbitrary, and is round, triangular, L-shaped, T-shaped, Y-shaped, W-shaped, H-shaped, # -shaped, Yaba-shaped, dog-bone-shaped, etc. And those having a hollow portion in these yarns, and may further have a concave portion continuously or partially in the single yarn yarn length direction. Among them, an atypical single yarn cross section such as a W cross section having a large surface area is preferable on the front side of the fabric constituting the innerwear, and a round cross section that does not retain moisture is preferable on the skin side due to the small surface area.

The fabric used for the innerwear of the present invention is obtained by combining one or a plurality of methods for making the fabric having a surface having a contact cooling sensation value of 240 W / m ² · ° C. or less when the above-mentioned 200 g / m ² moisture is applied. Preferably obtained. The inner wear of the present invention preferably uses 30% or more, more preferably 50% or more, of a fabric having a surface with a contact cooling sensation value of 240 W / m ² · ° C. or less when 200 g / m ² moisture is applied. It is good to use. Among the inner wear, it is preferable to dispose on the chest, back, side, etc. that are particularly prone to sweating.

The fabric used for the inner wear of the present invention preferably has a coefficient of friction increase rate of 100% or less when moisture is applied on the skin side. The friction coefficient increase rate was prepared using a 5 cm x 5 cm sample using HEIDON-10 manufactured by Shinto Kagaku Co., Ltd., first measuring the friction coefficient at the time of drying, then applying 1 ml of moisture and measuring in the same manner, The coefficient of friction increase rate at the time of moisture application is calculated by the following formula.
[(Friction coefficient at the time of moisture application−Friction coefficient at the time of drying) / Friction coefficient at the time of drying] × 100
If the coefficient of friction increase rate at the time of water | moisture content is less than 100%, it will stick to sweat at the time of wear, and it will become innerwear which is easy to move without inhibiting an exercise | movement. More preferably, the coefficient of friction increase rate at the time of moisture application is less than 80%.

Since the fabric used for the inner wear of the present invention needs to absorb sweat quickly, it is desirable to perform water absorption processing. As the water absorption processing method, for example, a bath exhaustion method, a DIP-NIP method, a method of transferring a processing agent with a roll, or the like is preferably used. As the processing agent, SR1000 or Nikka manufactured by Takamatsu Oil & Fats Co., Ltd. is used. A nice pole PR-99 manufactured by Chemical Co., Ltd. is preferably used.
Although the item of the innerwear of this invention is not specifically limited, It uses suitably for underwear, a T-shirt, a shorts, a bra, a girdle, a camisole, etc.
The inner wear of the present invention reduces the sticky feeling due to moisture and the feeling of cooling and is excellent in exercise functionality.

EXAMPLES Hereinafter, although an Example demonstrates this invention in detail, this invention is not limited only to these Examples.
The evaluation in the examples was measured by the following method.
(1) Wear test After creating and wearing a T-shirt type inner wear and resting in an artificial climate room at 30 ° C and 65% RH for 10 minutes, the treadmill ORK-3000 manufactured by Otake / Route Industry Co., Ltd. I walked for 15 minutes at 6km / h and rested again for 10 minutes. Sensory evaluation was performed for stickiness, coolness and ease of movement after running.
○: No sticky feeling or cold feeling. Easy to move ×: Feels sticky and cool. easy to move

[Example 1]
Use a double different gauge circular knitting machine with 18GG on the dial side and 24GG on the cylinder side, polyester W type cross section false twisted yarn 56dtex / 30f on the dial side, single yarn 1.4dtex on the cylinder side, fiber length 38mm, count 40 A two-layer knitted fabric raw machine having a tack mesh structure composed of the structure shown in FIG. 1 was obtained using a polyester W-shaped cross-sectional spun yarn. This raw machine was scoured at 80 ° C. for 20 minutes with a liquid dyeing machine, washed with water, and then pre-set at 180 ° C. for 90 seconds with a pinning ratio of 20%. Then, after performing polyester dyeing at 130 ° C. with a flow dyeing machine, water absorption processing, and washing with water, it is stretched to such an extent that wrinkles can be removed with a pin tenter, and final setting is performed at 150 ° C. × 90 seconds, with a basis weight of 124 g / m ^2. A knitted fabric having a thickness of 0.78 mm was obtained. In addition, water absorption processing processed SR1000 by Takamatsu Yushi Co., Ltd. by 3% owf by the exhaustion method in a bath. Due to the difference in the knitting structure, the surface knitted on the cylinder side becomes the front side with a high knitting density. The number of loops in the well direction on the front side of this knitted fabric is 33 / inch, and the number of loops in the well direction on the skin side is 18 / inch. The number of loops in the well direction on the front side of the knitted fabric was 1.8 times the number of loops in the well direction on the skin side. Moreover, the uneven | corrugated | grooved part existed in the knitted fabric skin side, and the difference of the height of a convex part and a recessed part was 0.21 mm. Furthermore, the contact cooling sensation value at the time of applying moisture of 200 g / m ^{2 to} the skin side surface layer is 229 W / m ² · ° C., and in the wearing test of the shirt obtained from this knitted fabric, there is no stickiness or cooling feeling and it is easy to move Evaluation was obtained. Moreover, the increase rate of the friction coefficient at the time of water | moisture-content provision of the skin side surface layer was 40.5%. Table 1 shows the production conditions of the fabric and the evaluation results obtained.

[Example 2]
A double circular knitting machine with 28GG on both the dial side and the cylinder side is used, polyester W type cross section false twisting yarn 56dtex / 30f and polyurethane fiber 44dtex are arranged on the cylinder side by plating, and the polyester round cross section temporary provision is on the dial side. A twisted yarn 56 dtex / 24f was supplied to obtain a two-layer knitted fabric raw machine having a back mesh structure composed of the structure shown in FIG. This raw machine was subjected to scouring, water washing, pre-setting, dyeing, water absorption processing, water washing and final setting in the same manner as in Example 1 to obtain a two-layer knitted fabric with a basis weight of 133 g / m ² and a thickness of 0.65 mm. The number of loops in the well direction on the front side of this knitted fabric is 50 pieces / inch, the number of loops in the well direction on the skin side is 25 pieces / inch, and the number of loops in the well direction on the front side is the number of loops in the well direction on the skin side. It was 2.0 times. Moreover, the uneven | corrugated | grooved part existed in the knitted fabric skin side, and the difference of the height of a convex part and a recessed part was 0.18 mm. Furthermore, the contact cooling sensation value at the time of applying moisture of 200 g / m ^{2 to} the skin side surface layer is 228 W / m ² · ° C., and this knitted fabric is used for the chest, back and side portions, and the knitted fabric usage rate is 50%. In the shirt wearing test, it was evaluated that it was easy to move without any stickiness or chilliness. The production conditions of the fabric and the obtained evaluation results are also shown in Table 1.

[Example 3]
Using a 28GG tricot knitting machine, polyester W-shaped false twisted yarn 56 dtex / 30f on the front has a structure 10/23, polyester round cross-section false twisted yarn 56 dtex / 24f on the middle with a structure 21/01, Polyurethane fibers 44dtex were arranged as a structure 10/12, and knitted so that the needle loop of the middle yarn appeared on the surface by adjusting the guide position. Processing was performed in the same manner as in Example 1 to obtain a knitted fabric having a basis weight of 152 g / m ² and a thickness of 0.73 mm. The number of loops in the well direction of this knitted fabric was 60 / inch on both sides, and the number of loops in the well direction on the front side was 1.0 times the number of loops in the well direction on the skin side. An uneven part was present on the knitted fabric skin side, and the difference in height between the convex part and the concave part was 0.16 mm. Furthermore, the contact cooling sensation value at the time of applying moisture of 200 g / m ^{2 to} the skin side surface layer is 208 W / m ² · ° C., and in the wearing test of the shirt obtained from this knitted fabric, there is no stickiness or cooling feeling and it is easy to move. Evaluation was obtained. The production conditions of the fabric and the obtained evaluation results are also shown in Table 1.

Example 4
Using a double round knitting machine of 28GG, polyester yarn on the dial side is a composite yarn made by interlacing polyester W cross section yarn 56dtex / 30f and cupra round cross section yarn 56dtex / 30f on the cylinder side. The two-layer knitted fabric forming machine having the structure shown in FIG. 3 was obtained by feeding the cross-section false twisted yarn 56 dtex / 24f. Processing was performed in the same manner as in Example 1 to obtain a knitted fabric having a basis weight of 140 g / m ² and a thickness of 0.93 mm. The number of loops in the well direction of this knitted fabric was 30 / inch on both sides, and the number of loops in the well direction on the front side was 1.0 times the number of loops in the well direction on the skin side. The difference in height between the convex part and the concave part on the knitted fabric skin side was 0.12 mm. Furthermore, the contact cooling sensation value at the time of applying moisture of 200 g / m ^{2 to} the skin side surface layer is 190 W / m ² · ° C., and in the wearing test of the shirt obtained from this knitted fabric, there is no stickiness or cooling feeling and it is easy to move. Evaluation was obtained. The production conditions of the fabric and the obtained evaluation results are also shown in Table 1.

[Comparative Example 1]
Polyester round cross section false twisted yarn 56 dtex / 24f was supplied to the cylinder side and the dial side, respectively, except that the knitting structure was changed to that shown in FIG. 4, a knitted fabric was prepared in the same manner as in Example 2, and the basis weight was 130 g / m. ² A knitted fabric having a thickness of 0.60 mm was obtained. The number of loops in the well direction of this knitted fabric was 43 / inch on both sides, and the number of loops in the well direction on the front side was 1.0 times the number of loops in the well direction on the skin side. The difference in height between the convex portion and the concave portion on the knitted fabric skin side is 0.08 mm, and the contact cooling sensation value at the time of applying moisture of 200 g / m ^{2 to} the skin side surface layer is 296 W / m ² · ° C. In the shirt wearing test obtained from, the feeling of stickiness and coldness was large, and the wear was difficult to move with sweat. The production conditions of the fabric and the obtained evaluation results are also shown in Table 1.

[Comparative Example 2]
A shirt was created using the knitted fabric of Example 2 with the front side and the skin side reversed. The unevenness on the skin side of the shirt is 0.06 mm, and the contact cooling sensation value at the time of applying moisture 200 g / m ² is 309 W / m ² · ° C. The wearing test of the shirt obtained from this knitted fabric has a feeling of stickiness and cooling. It was big and the sweat was hard to stick and the movement was difficult. The production conditions of the fabric and the obtained evaluation results are also shown in Table 1.

[Comparative Example 3]
For both front and middle, polyester round cross section false twisted yarn 56dtex / 24f was used, and the same knitted fabric as in Example 3 was prepared without adjusting the guide, and a knitted fabric having a basis weight of 168 g / m ² and a thickness of 0.68 mm was obtained. Obtained. The number of loops in the well direction of this knitted fabric was 62 / inch on both sides, and the number of loops in the well direction on the front side was 1.0 times the number of loops in the well direction on the skin side. The difference in height between the convex part and the concave part on the knitted fabric skin side is 0.07 mm, the contact cooling sensation value at the time of applying water 200 g / m ² is 324 W / m ² · ° C. It was big and it was hard for the wear to stick and move with sweat. The production conditions of the fabric and the obtained evaluation results are also shown in Table 1.

  The inner wear of the present invention is comfortable when worn and reduces the feeling of stickiness and cold when sweating a lot during long periods of exercise or the like, and provides a comfortable wearing feeling.

Claims (3)

An inner wear, wherein a contact cooling sensation value at the time of applying 200 g / m ² moisture of at least a part of the skin side surface layer is 240 W / m ² · ° C. or less.   The innerwear according to claim 1, wherein a difference in height between the convex portion and the concave portion of the skin-side surface layer is 0.10 to 0.40 mm.   The innerwear according to claim 1 or 2, wherein a coefficient of friction increase rate at the time of applying moisture to the skin side surface layer is 100% or less.

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