EP3520639A1 - Tissu vestimentaire et vêtements l'utilisant - Google Patents

Tissu vestimentaire et vêtements l'utilisant Download PDF

Info

Publication number: EP3520639A1
Authority: EP; European Patent Office
Prior art keywords: fabric; holes; water; repellent; clothing
Prior art date: 2018-01-31
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Granted

Application number

EP18199391.6A

Other languages

German (de)

English (en)

Other versions

EP3520639B1 (fr

Inventor

Kazuya TAJIMA

Atsushi Shiraishi

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Mizuno Corp

Original Assignee

Mizuno Corp

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

2018-01-31

Filing date

2018-10-09

Publication date

2019-08-07

2018-01-31 Priority claimed from JP2018014466A external-priority patent/JP6404507B1/ja

2018-10-09 Application filed by Mizuno Corp filed Critical Mizuno Corp

2019-08-07 Publication of EP3520639A1 publication Critical patent/EP3520639A1/fr

2021-12-01 Application granted granted Critical

2021-12-01 Publication of EP3520639B1 publication Critical patent/EP3520639B1/fr

Status Active legal-status Critical Current

2038-10-09 Anticipated expiration legal-status Critical

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Classifications

- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D31/00—Materials specially adapted for outerwear
- A41D31/04—Materials specially adapted for outerwear characterised by special function or use
- A41D31/12—Hygroscopic; Water retaining
- A41D31/125—Moisture handling or wicking function through layered materials
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D31/00—Materials specially adapted for outerwear
- A41D31/04—Materials specially adapted for outerwear characterised by special function or use
- A41D31/14—Air permeable, i.e. capable of being penetrated by gases
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D2500/00—Materials for garments
- A41D2500/10—Knitted

Definitions

the present invention relates to a clothing fabric and clothes using the same. More specifically, the invention relates to a clothing fabric and clothes using the same that can be worn with comfort even when sweating.
the present invention provides a clothing fabric and clothes using the same that can, while being water-absorbing, suppress formation of a film of a liquid even when the fabric is wet, ensure air permeability of the fabric, and always allow sweat on the skin to be evaporated on the body surface, thereby increasing the effective sweat amount, preventing exercise performance from being lowered, and allowing a person to wear the clothes with comfort even when sweating.
the present invention is directed to a clothing fabric including through holes that pass through the fabric in a thickness direction, wherein the through holes are arranged along one direction of the fabric, and a water-repellent or hydrophobic region is arranged at least at part of the fabric in contact with the through holes, and a hydrophilic region is arranged at the other portions.
the present invention is directed to clothes including the clothing fabric, wherein the through holes that pass through a portion of the fabric in a thickness direction are arranged along a direction of a wearer' height.
a water-repellent or hydrophobic region is arranged at least at part of the fabric in contact with the through holes, and a hydrophilic region is arranged at the other portions. Accordingly, moisture is likely to be transferred from the vicinity of the through holes to the hydrophilic region, and a film of a liquid is not formed in the vicinity of the through holes.
the present invention is directed to a clothing fabric including: through holes that pass through the fabric in the thickness direction, wherein the through holes are arranged along one direction of the fabric.
the term "one direction" refers to any of a warp direction, a weft direction, and a diagonal direction of the fabric, but the through holes are preferably arranged along a warp or weft direction.
the reason for this is that, when the fabric is formed into clothes, the through holes are preferably arranged along a warp direction. Even in the case where the through holes are arranged along a weft or diagonal direction, the performance of the present invention can be ensured by arranging the through holes so as to appear at constant intervals in a warp direction.
the fabric may be any fabric such as a woven fabric or a knitted fabric.
a water-repellent or hydrophobic region is arranged at least at part of the fabric in contact with the through holes, and a hydrophilic region is arranged at the other portions.
"at least part of the fabric in contact with the through holes” refers to 10% or more, preferably 20% or more, and more preferably 30% or more.
the through holes may have any planar shape, such as a circle, an oval, a quadrangle, a rhombus, a triangle, a polygon, or an irregular shape.
a water-repellent or hydrophobic region is arranged at part of the through holes, and thus the surface tension increases due to capillary action of the through holes. Accordingly, moisture on the fabric surface is likely to be transferred, and a film of a liquid is not formed at the through holes. Furthermore, even when moisture is filled into the through hole, its surface tension differs from portion to portion because a hydrophilic region is arranged at a portion thereof and a water-repellent or hydrophobic region is arranged at another portion, and forces that are applied to the liquid at the through hole are not balanced, and thus a film of a liquid is not formed at the through hole.
a water-repellent or hydrophobic region is preferably arranged around the through holes, and at least in contact with part of the through holes.
a hydrophilic region is arranged at part of the fabric so as to absorb sweat excreted from the body surface.
the hydrophilic region is preferably arranged in an area of at least 10% or more.
the water-repellent or hydrophobic region can be formed through knitting or weaving with a water-repellent or hydrophobic yarn, or by applying a water-repellent or hydrophobic resin to the fabric.
the hydrophilic region can be formed through knitting or weaving with a hydrophilic yarn, or by applying a hydrophilic resin to the fabric.
a water-repellent or hydrophobic yarn is arranged at part of the through holes, and thus the surface tension increases due to capillary action of the through holes. Accordingly, moisture on the fabric surface is likely to be transferred, and a film of a liquid is not formed at the through holes.
a water-repellent or hydrophobic yarn is preferably arranged around the through holes, and at least in contact with part of the through holes.
a hydrophilic yarn is preferably arranged at part of the fabric so as to absorb sweat excreted from the body surface. The hydrophilic yarn is preferably arranged in an amount of at least 10% or more.
Lines for facilitating flow of a liquid in the vertical direction when the fabric is positioned vertical to the ground may be provided.
the lines in the vertical direction are formed by continuously arranging the yarn density pattern, or water-repellent or hydrophobic region.
the yarn density pattern is formed through methods such as the stitch density of the fabric, the number of twists of the yarn, the percentage of crimp, knitting techniques, embossing, or the like.
examples of at least one fiber yarn (I) selected from water-repellent fiber yarns and hydrophobic fiber yarns include: hydrophobic fiber yarns such as polypropylene fiber yarns, polyethylene fiber yarns, and polyester (PET, etc.) yarns; yarns obtained by subjecting organic fiber yarns (e.g., the above-described hydrophobic fiber yarn) to water-repellent treatment; and yarn portions obtained by subjecting yarns in a fabric state to water-repellent treatment through printing.
hydrophilic fiber yarn (II) examples include: cellulose fiber spun yarns such as cotton spun yarns and rayons; highly crosslinked polyacrylate-based fiber spun yarns; mixed spun yarns of these fibers and polyester (PET, etc.) fibers; composite spun yarns (including siro spun yarns) of these fibers and polyester (PET, etc.) multifilament yarns; nylon yarns; polyester (PET, etc.) fiber yarns and the like subjected to hydrophilic treatment; and yarn portions obtained by subjecting yarns in a fabric state to hydrophilic treatment through printing.
the at least one fiber yarn (I) selected from water-repellent fiber yarns and hydrophobic fiber yarns is used as a fiber constituting the through holes, and the hydrophilic fiber yarn (II) is used for the base portions.
the portion using the hydrophilic fiber yarn preferably absorbs a liquid within 180 seconds as defined in the Dropping Test (JIS L 1907 A). It is more preferable to absorb a liquid within 60 seconds.
the fabric of the present invention is preferably such that the portion using the water-repellent or hydrophobic fiber yarn has higher water-retaining properties than the portion using the hydrophilic fiber yarn.
the area of the water-repellent or hydrophobic region (A), in continuous arrangement of a water-repellent or hydrophobic yarn such as when a continuous yarn that is a water-repellent or hydrophobic yarn is knitted in warp knitting refers to an area obtained by multiplying the thickness of the yarn in a fabric state without load as measured using a digital microscope (product number VH-Z25, manufactured by Keyence Corporation) by the number of yarns constituting the fabric per unit area.
the area refers to an area of the resin applied per unit area.
the region other than the water-repellent or hydrophobic region (A) is taken as the hydrophilic region (B), based on which the area ratio between the water-repellent or hydrophobic region (A) and the hydrophilic region (B) is calculated.
the through holes when the clothing fabric of the present invention is suspended such that the through holes are arranged along the vertical direction in a state where the fabric whose weight is taken as 100% is wet with 300% of moisture, the through holes have voids therein.
the clothing fabric of the present invention is preferably such that grooves (lines) are formed in the same direction as the one direction along which the through holes are arranged. Accordingly, when the sweat amount increases, a liquid is likely to flow along the grooves (lines).
the direction of the grooves (lines) preferably matches the direction of the wearer' height.
the width of each of the grooves is preferably 0.1 to 30 mm, and more preferably 0.3 to 20 mm.
the groove portions (lines) are preferably formed at fabric portions using at least one fiber yarn (I) selected from water-repellent fiber yarns and hydrophobic fiber yarns. The reason for this is for facilitating flowing of a liquid.
the groove portions may be formed at knitted fabric portions using the water-repellent or hydrophobic fiber yarn by forming the knitted fabric portions using the hydrophilic fiber yarn relatively thick and the knitted fabric portions using the water-repellent or hydrophobic fiber yarn relatively thin.
each of the through holes is such that the average length in both the warp and weft directions is preferably 0.3 to 25 mm, and more preferably 0.3 to 20 mm. Accordingly, it is possible to provide a clothing fabric and clothes using the same that can further increase the effective sweat amount, prevent exercise performance from being lowered, and allow a person to wear the clothes with comfort even when sweating.
the opening percentage of the clothing fabric is preferably 1 to 50%, and more preferably 2 to 40%. Accordingly, it is possible to provide a clothing fabric and clothes using the same that can further increase the effective sweat amount, prevent exercise performance from being lowered, and allow a person to wear the clothes with comfort even when sweating.
the opening percentage refers to a proportion of the through holes occupying the fabric.
the fiber yarn used in the clothing fabric of the present invention may be any yarn such as a spun yarn, a multifilament yarn, a crimping yarn obtained by treating a multifilament yarn, or the like.
a crimping yarn yarns with different percentages of crimp are preferably arranged on the upper and lower sides. A high percentage of crimp increases the amount of water that can be retained, and a low percentage of crimp decreases the amount of water that can be retained. If these yarns are arranged on the upper and lower sides, liquid droplets become large, and transfer of the liquid droplets is repeatedly accelerated, and thus voids are ensured.
yarns of two or more types with numbers of twists that are different from each other by 100 times/m or more are preferably used.
the fabric of the present invention may be either a woven fabric or a knitted fabric.
the woven fabric basically include a plain weave, a twill weave, a sateen weave, a plain derivative weave, a twill derivative weave, a sateen derivative weave, a derivative weave, a brocade, a half double weave, a double structure, a multi structure, a warp pile weave, a weft pile weave, a leno weave, and the like, wherein through holes are formed along one of the warp, weft, and diagonal directions.
the knitted fabric examples include a circular knit, a weft knit, a warp knit (including a tricot knit and a raschel knit), a pile knit, and the like, and basically include a plain knit, a jersey knit, a rib knit, a smooth knit (interlock knit), a rubber knit, a pearl knit, a denbigh structure, a cord structure, an atlas structure, a chain structure, and an inlay structure, wherein through holes are formed along one of the warp, weft, and diagonal directions.
a knitted fabric is preferable.
woven stitches or knitted stitches stretch in planar directions when the fabric is wet, and the air permeability increases.
a knitted fabric is suited to be used in a portion of clothes in which the amount of sweat is large.
a knitted fabric knitted fabrics such as a warp knit (including a tricot knit and a raschel knit), a weft knit, a circular knit, and the like are preferable.
the basis weight of the fabric is preferably 40 g/m 2 or more and less than 300 g/m 2 . Since the fabric is used in a portion of clothes in which the amount of sweat is large, the fabric is preferably thin.
the fabric of the present invention may be a one-way or two-way stretch fabric, and may include an elastic yarn made of polyurethane or the like.
the clothes of the present invention contain the above-described fabric, wherein through holes that pass through a portion of the fabric in the thickness direction are arranged along the wearer' height or diagonal direction. Accordingly, moisture of sweat is likely to flow in the warp direction, and the air permeability of the through holes is ensured.
the clothes are preferably used as sportswear.
the clothes are preferably used particularly as sportswear that is used in a hot season when the amount of sweat is large.
the fabric is arranged at least corresponding to a portion of a human body where the amount of sweat is large, and is formed into clothes.
the fabric may be used in the whole or part (corresponding to the underarms or the back, etc.) of a sport shirt, a T-shirt, an inner shirt, a training warmer, briefs, an ordinary shirt, or the like.
FIG. 1A is a schematic explanatory diagram showing transfer of sweat in a normal state of conventional clothes. Sweat 13a and 13b excreted from skin 11 is diffused toward the outside air via void portions of clothes 12a. 14 denotes an air flow.
FIG. 1B is a schematic explanatory diagram showing transfer of sweat in a heavily sweating state of the conventional clothes. In a heavily sweating state, the clothes are wetter, a film of a liquid is formed, and the void portions of clothes 12b disappear or decrease. Accordingly, the sweat 13 and the air 14 remain on the surface of the skin 11, ineffective sweating increases, exercise performance is lowered due to an increase in the core body temperature, and the clothes become more uncomfortable.
FIG. 1C is a schematic explanatory diagram showing transfer of sweat in a heavily sweating state of clothes according to an embodiment of the present invention. Even when the clothes are wetter in a heavily sweating state, the voids of the through holes are maintained, and thus formation of a film of a liquid is suppressed. Accordingly, the air permeability of a fabric 12C is ensured, and sweat 13a and 13b excreted from the skin 11 is diffused toward the outside air via void portions of clothes 12c. Furthermore, since sweat on the skin is always allowed to be evaporated on the body surface, the effective sweat amount increases, the exercise performance is prevented from being lowered, and the clothes are worn with comfort even when sweating.
FIG. 2 is a photo showing a spread state of a clothing fabric according to the embodiment of the present invention (magnified by 2 times).
FIG. 3A is a plan diagram illustrating FIG. 2
FIG. 3B is a schematic cross-sectional view thereof.
a fabric 1 has through holes 2 that pass through the fabric in the thickness direction, and the through holes 2 are arranged along the warp direction of the fabric 1.
a water-repellent or hydrophobic fiber yarn 3 is arranged at least at part of the fabric in contact with the through holes 2, and a hydrophilic fiber yarn 4 is arranged at the other portions.
the knitted fabric portions using the hydrophilic fiber yarn 4 are thick, and the knitted fabric portions using the water-repellent or hydrophobic fiber yarn 3 are thin, and thus groove portions (lines) 5 are formed in the warp direction.
the portions in which the water-repellent or hydrophobic fiber yarn 3 is arranged form water-repellent or hydrophobic regions, and the portions in which the hydrophilic fiber yarn 4 is arranged form hydrophilic regions.
FIG. 4A is a photo showing a spread state of a clothing fabric according to another embodiment (magnified by 2 times), and FIG. 4B is a photo showing a back face thereof (magnified by 2 times).
FIG. 5A is a diagram illustrating FIG. 4A
FIG. 5B is a diagram illustrating FIG. 4B .
a fabric 6 has through holes 2 that pass through the fabric in the thickness direction, and the through holes 2 are arranged along the warp direction of the fabric 6.
a water-repellent or hydrophobic fiber yarn 3 is arranged at least at part of the fabric in contact with the through holes 2, and a hydrophilic fiber yarn 4 is arranged at the other portions.
FIG. 4A is a photo showing a spread state of a clothing fabric according to another embodiment (magnified by 2 times)
FIG. 4B is a photo showing a back face thereof (magnified by 2 times).
FIG. 5A is a diagram illustrating FIG. 4A
FIG. 5B is a diagram
FIG. 6 is a photo showing a spread state of a clothing fabric according to another embodiment (magnified by 2 times).
FIG. 7 is a diagram illustrating FIG. 6 .
a fabric 7 has through holes 2 that pass through the fabric in the thickness direction, and the through holes 2 are arranged along the warp direction of the fabric 7.
a water-repellent or hydrophobic fiber yarn 3 is arranged at least at part of the fabric in contact with the through holes 2, and a hydrophilic fiber yarn 4 is arranged at the other portions.
the knitted fabric portions using the hydrophilic fiber yarn 4 are thick, and the knitted fabric portions using the water-repellent or hydrophobic fiber yarn 3 are thin, and thus the groove portions (lines) 5 are formed in the warp direction.
Fabrics with compositions as shown in Table 1 were produced.
a water-repellent or hydrophobic yarn I was used to form fabric portions including through holes, and a hydrophilic yarn II was used to form the other portions.
Example 1 (development article A), Example 2 (development article B), Comparative Example 1 (comparative article a), Comparative Example 3 (comparative article c), and Comparative Example 4 (comparative article d) were for shirts, and Example 3 (development article C), Example 5 (development article E), and Comparative Example 2 (comparative article b) were for inner shirts.
PET denotes a polyethylene terephthalate fiber yarn
PP denotes a polypropylene fiber yarn
PU denotes a polyurethane fiber yarn.
Example 1 Example 2, Example 3, Example 5, and Comparative Example 4
a water-repellent yarn obtained by subjecting the surface of a PET fiber yarn to water-repellent treatment was used.
Example 4 a hydrophobic PP fiber yarn, and a mixed spun yarn of PET fibers and highly crosslinked polyacrylate-based fibers as a hydrophilic yarn were used.
Example 1 II area ratio Basis weight (g/m 2 ) Thickness (mm) (I: water-repellent or hydrophobic yarn) (II: hydrophilic yarn)
Example 1 (dev.article A) Circular (double) PET 100% I: 66T/48f (water-repellent yarn) I: 10% 136 0.80 II: 44T/36f, SD83d/36f (hydrophilic yarn) II: 90%
Example 2 (dev.article B) Warp (tricot) PET 100% I: 84T/72f (water-repellent yarn) I: 46% 131 0.65 II: 84T/36f (hydrophilic yarn) II: 54%
Example 3 (dev.article C) Warp (tricot) PET 95% I: 33T/36f (PET water-repellent yarn) I: 2% 183 0.99 PU 5% II: 110T/144f, 44T/84f (hydrophilic yarn) II: 98%
Example 4 (dev.article D) Circular (single
Example 1 (com.article a) Circular (double) PET 100% II: 84T/72F, 84T/48F (only hydrophilic yarn) II: 100% 125 0.74 Com.
Example 2 (com.article b) Warp (tricot) PET 84% II: 56T/48F, 33T/36F, 22T (only hydrophilic yarn) II: 100% 184 0.57 PU 16% Com.
Example 3 (com.article c) Circular (double) PET 100% II: 84T/72F (only hydrophilic yarn) II: 100% 129 0.75
Example 4 (com.article d) Circular (double) PET 100% I: 84T/72f (only water-repellent yarn) I: 100% 127 0.74
the opening percentages of the articles according to Examples 1 to 5 and Comparative Examples 1 and 2 were measured. The opening percentages were measured as follows.
Table 2 shows the opening percentages of the fabrics. Table 2 Example 1,5 (dev.article A, E) Example 2 (dev.article B) Example 3 (dev.article C) Example 4 (dev.article D) Com.Example 1 (com.article a) Com.Example 2 (com.article b) Com.Example 3 (com.article c) Com.Example 4 (com.article d) Opening percentage (%) 6 5 17 30 0 0 7 7
the ventilation resistances in a dry state and a wet state were measured.
the measurement was performed using an Air Permeability Tester KES-F8 (manufactured by Kato Tech Co., Ltd.).
the measurement was performed by releasing and sucking air into and from the atmosphere, detecting the pressures during the release and suction, and calculating a ventilation resistance R.
the ventilation resistance in a dry state was measured at a temperature of 20°C and a relative humidity of 65%R.H. in a state where each fabric was dried.
the ventilation resistance in a wet was measured while air was released and sucked parallel to the ground in a state where each fabric whose weight was taken as 100% was wet with 300% of moisture.
the temperature and the humidity were as described above.
the measuring method was as follows.
Table 3 shows the ventilation resistance values of the fabrics. Table 3 Example 1 (dev.article A) Example 2 (dev.article B) Example 3 (dev.article C) Example 4 (dev.article D) Example 5 (dev.article E) Com. Example 1 (com.article a) Com. Example 2 (com.article b) Com. Example 3 (com.article c) Com. Example 4 (com.article d) Dry ventilation resistance (kPa.s/m 2 ) 0.017 0.026 0.001 0.0008 0.021 0.035 0.092 0.019 0.020 Wet ventilation resistance (kPa ⁇ s/m 2 ) 0.073 0.03 0.002 0.0014 0.072 15.5 21.34 0.17 0.19
the articles according to the examples had lower ventilation resistance values in both the dry state and the wet state than those according to the comparative examples, and had significantly low ventilation resistance values especially in the wet state. If the ventilation resistance value in a wet state is 0.1 kPa ⁇ s/m 2 or less, the wearer feels moisture escaping from the inside of the clothes to the outside of the clothes.
the heat dissipations from the clothes in a sweating state were measured as measurement of the amounts of heat transferred into the outside air in a wet state.
the conditions were set such that constant temperature and humidity vessel: 80°C, relative humidity: 95%R.H., and apparatus used: heat flow sensor Z (product number: 2015TC, manufactured by Hioki E.E. Corporation).
the measuring apparatus was as shown in FIGS. 9A to 9C , and the measuring method was as follows.
Table 4 (shirt fabrics) and Table 5 (inner shirt fabrics) show the heat flow values of the fabrics.
Table 4 Example 1 (dev.article A) Example 2 (dev.article B) Example 4 (dev.article D) Example 5 (dev.article E) Com.
Example 1 Com.article a) Com.
Example 3 Com.article c) Com.
Example 4 Com.article d) Heat flow (Wm 2 ) 395.04 426.67 481.5 393.98 297.39 317.3 308.1
Example 3 (dev.article C) Com.
Example 2 Com.article b) Heat flow (Wm 2 ) 438.21 300.13
Table 6 shows the results. Table 6 Addition of transfer averages in periods Comparative article a Development article A Comparative article a Development article B Comparative article b Development article C Integral value (w/m 2 ) -1302.87 2648.56 -4908 6197.96 -801.78 4135.99
each fabric was sewn into a shirt, and the wear test was performed.
the wear test was performed by causing a subject who was wearing the development articles and the comparative articles to perform exercise in the Kansai district in August.
the comfort in a heavily sweating state was evaluated by a sensory evaluation (SD method, bipolar scale, five grades).
FIGS. 11 and 12 are graphs showing wear test results of shirts according to the examples and comparative examples. It is seen from FIGS. 11 and 12 that the development articles outperformed the comparative articles in terms of the air permeability when the wear was wet with sweat, and the wearer of the development articles actually felt the concept of the articles according to the present invention.
the fabric of the present invention may be used, for example, in the whole or part (corresponding to the underarms or the back, etc.) of a sport shirt, a T-shirt, an inner shirt, briefs, tights, an ordinary shirt, or the like.

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Engineering & Computer Science (AREA)
Textile Engineering (AREA)
Knitting Of Fabric (AREA)
Treatments For Attaching Organic Compounds To Fibrous Goods (AREA)

EP18199391.6A 2018-01-31 2018-10-09 Vêtements comprenant un tissu vestimentaire Active EP3520639B1 (fr)

Applications Claiming Priority (2)

Application Number	Priority Date	Filing Date	Title
JP2018014466A JP6404507B1 (ja)	2018-01-31	2018-01-31	被服用生地及びこれを用いた被服
PCT/JP2018/012152 WO2019150592A1 (fr)	2018-01-31	2018-03-26	Matériau pour vêtement et vêtement l'employant

Publications (2)

Publication Number	Publication Date
EP3520639A1 true EP3520639A1 (fr)	2019-08-07
EP3520639B1 EP3520639B1 (fr)	2021-12-01

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EP18199391.6A Active EP3520639B1 (fr)	2018-01-31	2018-10-09	Vêtements comprenant un tissu vestimentaire

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Cited By (2)

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WO2021168513A1 (fr) *	2020-02-26	2021-09-02	Hanes Innerwear Australia Pty Ltd	Vêtement de protection
EP4393337A1 (fr) *	2022-12-26	2024-07-03	ASICS Corporation	Chemise

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JP2003096648A (ja)	2001-09-27	2003-04-03	Unitica Fibers Ltd	快適性シャツ地
JP2006169648A (ja)	2004-12-13	2006-06-29	Wacoal Corp	編地の編成方法および編地からなる衣類
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Publication number	Priority date	Publication date	Assignee	Title
WO2021168513A1 (fr) *	2020-02-26	2021-09-02	Hanes Innerwear Australia Pty Ltd	Vêtement de protection
EP4393337A1 (fr) *	2022-12-26	2024-07-03	ASICS Corporation	Chemise

Also Published As

Publication number	Publication date
EP3520639B1 (fr)	2021-12-01

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JP5788895B2 (ja)	2015-10-07	多層構造編地
TWI612193B (zh)	2018-01-21	多層構造圓形編織物
US20020094740A1 (en)	2002-07-18	Composite textile material
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EP3520639B1 (fr)	2021-12-01	Vêtements comprenant un tissu vestimentaire
JP4390514B2 (ja)	2009-12-24	多層構造編地
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