WO2017061053A1 - スポーツ用パンツ - Google Patents
スポーツ用パンツ Download PDFInfo
- Publication number
- WO2017061053A1 WO2017061053A1 PCT/JP2015/078827 JP2015078827W WO2017061053A1 WO 2017061053 A1 WO2017061053 A1 WO 2017061053A1 JP 2015078827 W JP2015078827 W JP 2015078827W WO 2017061053 A1 WO2017061053 A1 WO 2017061053A1
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- WIPO (PCT)
- Prior art keywords
- pants
- cover
- opening
- sports
- vent
- Prior art date
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Classifications
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- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D1/00—Garments
- A41D1/06—Trousers
- A41D1/08—Trousers specially adapted for sporting purposes
-
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D27/00—Details of garments or of their making
- A41D27/28—Means for ventilation
- A41D27/285—Means for ventilation with closure adjustment
Definitions
- the present invention relates to sports pants, and more particularly to a device that improves the cooling effect inside the pants by increasing the ventilation inside the pants during exercise.
- Patent Document 1 In order to allow the hot air accumulated in the clothes to escape to the outside of the clothes, there is disclosed in Patent Document 1 and the like a ventilation hole for introducing air into the clothes.
- Patent Document 1 discloses an exercise pant provided with a large opening in the vertical direction on the outer surface of the thigh, and further provided with a wind receiving portion that retains the wind from the front surface. ing.
- an object of the present invention is to provide sports pants having a higher cooling effect.
- a sports pant includes a pant body having a front part, a rear part, and a side part positioned between the front part and the rear part, and the pant body is above the knee on the side part.
- An elongated vent that is disposed in the region and penetrates the body fabric of the pant body and extends in the vertical direction, and a cover that covers the vent so as to have an opening that opens to the front side, and It has an exhaust port which is arranged in the rear part and penetrates the body cloth of the pant body.
- the sports pants according to one aspect of the present invention include a pant body having a front part, a rear part, and a side part positioned between the front part and the rear part, and the pant body is provided on the side part.
- An elongated vent hole that is arranged and extends through the body fabric of the pant body and extends in the vertical direction, and a cover that covers the vent hole so as to have an opening that opens to the front side.
- the covering portion satisfies the following requirements (a) to (c).
- (A) The length of the edge on the opening side is longer than the length in the longitudinal direction of the vent hole.
- the bending resistance of the cloth constituting the covering portion is higher than the bending resistance of the cloth forming the pant body.
- C) The opening is closed in a standing posture of the wearer, and the opening is opened in a state where the waist is dropped.
- the air flow in the pants is promoted, and a sufficient amount of air can be taken into the pants during exercise.
- hot air can be effectively discharged to the outside of the pants by ventilation in the pants, and the cooling effect inside the pants can be enhanced.
- the ventilation hole is hidden by the cover part, so the design is excellent.
- FIG. 1 is a front view of sports pants according to an embodiment of the present invention. It is a front view which shows the state which removed the cover part of embodiment of FIG. 1 is a rear view of sports pants according to an embodiment of the present invention. It is a rear view which shows the state which removed the cover part of embodiment of FIG. It is the perspective view which looked at the pants for sports which concern on embodiment of this invention from the front side. It is a perspective view which shows the state which removed the cover part of embodiment of FIG. It is a front view of the state where the pants for sports concerning this embodiment were worn and the hip joint was bent. It is the perspective view which looked at the state where the underpants for sports concerning this embodiment were worn, and the hip joint was bent from the front side.
- FIG. 1 is a front view of the sports pants 1 of the present embodiment in a standing position
- FIG. 3 is a rear view thereof
- FIG. 5 is a perspective view from the front thereof.
- 2, 4, and 6 are views of the state where the cover is removed from FIGS. 1, 3, and 5, respectively.
- the sports pants 1 shown in these drawings are in the form of shorts, and the hem is located on the knee. In the following, an example of tennis pants will be described as the sports pants 1.
- the pant body constituting the sports pant 1 of this embodiment has a front part 2 covering the front side of the human body, a rear part 3 covering the back side, and a side part.
- positioned at the crotch part are provided.
- the side portion 15 is the front side when the pants are placed flat so that the virtual line L extending in the vertical direction through the crotch vertex C is positioned at the center, A portion having a width of 5 cm from the left and right edges on each of the back sides (an area between the left and right edges of the pant body in the figure and a two-dot chain line parallel thereto).
- the front part 2 is a part of the front body excluding the side part
- the rear part 3 is a part of the rear body excluding the side part 15.
- the sports pant 1 includes an elastic belt portion 5 containing rubber disposed around the waist, and pockets 6 disposed on the left and right sides slightly below the waist portion of the front portion 2.
- the front part 2 is provided with a vent 7 having a shape elongated in the vertical direction, penetrating through the fabric of the pant body.
- the planar shape of the vent 7 in the present embodiment is substantially rectangular.
- the size is, for example, 5 cm to 25 cm for the long side and 3 cm to 5 cm for the short side.
- the planar shape of the vent 7 is not limited to a rectangle, but may be any shape as long as it is an elongated shape such as an ellipse or a rhombus.
- the vent hole 7 is formed from the side portion 15 to the front portion 2 and is arranged with the long side slightly inclined with respect to the vertical direction.
- the angle ⁇ (FIG. 2) formed by the long side of the vent 7 with the edge of the pant body is, for example, 1 ° to 80 °.
- the position of the upper end of the vent hole 7 substantially coincides with the position of the lower end of the pocket 6.
- the lower end of the vent 7 is located about 10 cm above the bottom of the pant body.
- the whole vent hole 7 is closed with a highly breathable fabric 12, and the periphery of the highly breathable fabric 12 is sewn to the fabric around the vent hole 7.
- the highly breathable fabric 12 is a highly breathable fabric such as a mesh fabric or a fabric having a plurality of holes. Among these, a mesh fabric is preferable as the highly breathable fabric 12 because of its high breathability and lightness.
- the surface side of the vent 7 is covered with a cover 8.
- the covering part 8 has two short sides and a long side on the back side of the two long sides, and a total of three sides are sewn on the body fabric of the pants body, and the long side on the front side is not sewn. In this way, the cover 8 is sewn to the body cloth, so that the cover 8 covers the vent hole 7 with the opening 9 on the front side. Further, the cover 8 is made of a fabric having at least an edge on the opening 9 side longer than the length of the vent 7 in the longitudinal direction and having a higher bending resistance than the fabric forming the pant body.
- the cover portion 8 can be provided with an opening / closing function of the opening portion 9 when a transition is made from the standing position to the state where the waist is dropped.
- a tennis player holds a state called a power position slightly lowered from the standing position as shown in FIGS. 7 and 8, and then performs a series of operations such as turning the waist and hitting the ball.
- the cover 8 opens to form the opening 9, and air is taken into the pants from the opening 9 when turning.
- the opening 9 is closed in the standing state, and the portion covered with the cover 8 is almost invisible from the outside, so that the design is not impaired.
- the opening 9 is closed does not mean only the state in which the entire edge of the cover 8 is completely in close contact with the pant body without any gap, but A gap of about 3 mm partially formed from the state is allowed.
- the opening 9 is open” in a state where the waist is dropped means that the edge of the cover 8 has a portion at least 2 cm away from the body fabric of the pant body.
- the cover 8 is formed of a cloth having a longer edge on the opening 9 side than the long side of the vent 7 and a higher bending resistance than the cloth forming the pant body.
- the cover 8 is made of a material having a low air permeability to some extent, and is at least lower than the air permeability of the body fabric of the pant body.
- the air permeability is, for example, 4 to 8 cm 3 / cm 2 ⁇ s.
- the length of the edge of the cover 8 on the opening side is longer than the long side of the vent 7 as described above, for example, 104% to 108% with respect to the length of the long side of the vent 7. It is set to be the size of. If this value is smaller than 104%, it is difficult to open the cover 8 when the wearer drops his / her waist. On the other hand, when the above value is larger than 108%, even when the wearer is in the standing position, the cover 8 is likely to be wide open, and the skin and underwear of the wearer or the highly breathable portion 12 can be easily seen. Detract from sex. On the other hand, if it exceeds 108%, the cover portion 8 will be greatly expanded during the exercise, which will hinder the ease of movement. Therefore, the length of the edge of the cover 8 on the opening side is preferably in the range of 104% to 108% with respect to the length of the long side of the vent hole 7.
- the rigidity of the covering portion 8 is, for example, in the range of 25 to 175 mm in bending resistance, which is higher than the body fabric of the pant body.
- methods such as cloth superposition, sewing density, thread strength, resin or silicon print reinforcement, use of a core material, or a combination thereof Can be taken.
- FIG. 9 shows an example of variations in the planar shape of the cover 8.
- FIG. 9 is a plan view of the cover 8, and the vent 7 is indicated by a broken line.
- the planar shape of the cover 8 is, for example, a rectangle as shown in FIG. 9A, a trapezoid with a wide opening 9 as shown in FIG. 9B, a trapezoid with a narrow opening 9 as shown in FIG. 9C, Any shape is possible as long as the shape covers the vent 7 such as a shape in which the long side of the rectangle is curved in an arc shape as shown in FIG.
- the opening 9 side may be a wide trapezoid, and the sewing line of the cover 8 may be made to follow the shape of the opening 9.
- an exhaust port 10 is provided in the rear portion 3 of the sports pants 1 as shown in FIG.
- the exhaust port 10 provided on the back surface of the pant body is covered with a cover 11 as shown in FIG. This prevents skin and underwear from being exposed from the exhaust port 10.
- the cover portion 11 is sewn to the rear portion 3 except for the lower edge, and an opening 13 is formed between the lower edge of the cover portion 11 and the rear portion 3.
- a highly breathable fabric 14 such as a mesh fabric is sewn to the exhaust port 10 on the back surface of the pant body.
- the exhaust port 10 on the back surface of the pant body is formed so as to continue from the upper part of the vent 7 provided in the side part 15 toward the back side of the pant body.
- the size of the pant body may be in the range of 104% to 108% with respect to the wearer's hip size at the maximum position of the hip, for example.
- vent 7 is disposed at least on the side portion 15 for the following reasons.
- the pelvis is rotated about 4 degrees from the front facing state during running and jogging, and about 45 degrees from the front facing state during tennis racket swinging.
- the cross-sectional shape around the waist of the human body is simplified, it is an ellipse with the transverse axis as the major axis, so disposing the vent 7 in the side portion 15 increases the distance from the center of rotation and accompanies changes in the pelvic rotation angle. Therefore, the vent 7 moves the longest distance on the arc (see the explanatory diagram of FIG. 10). Therefore, by arranging the vent hole 7 in the side portion 15, it is possible to take air into the clothing most efficiently.
- the flexural rigidity of the body fabric forming the pant body is preferably higher to some extent, although it is lower than the rigidity of the fabric of the cover 8.
- the fabric of the front part 2 rigid to some extent, wrinkles and strain caused by wrinkles generated in the body fabric of the pant body during the bending motion of the wearer and the like can easily reach the cover part 8, resulting in covering. This is because the portion 8 is easily opened.
- a body cloth constituting the pant body having a bending resistance of 20 mm to 150 mm. If the bending resistance is less than 20 mm, the distortion of the cloth becomes difficult to reach the cover portion 8.
- the bending resistance is greater than 150 mm, the wearer's movement is hindered and discomfort is likely to occur. Therefore, by setting the bending resistance of the body fabric of the pant body within the range of 20 mm to 150 mm, discomfort can be suppressed without greatly hindering the wearer's movement, and the cover 8 can be easily opened.
- FIG. 15 is an enlarged view of the cover 8 and its peripheral part.
- the pant body has a highly rigid portion 16.
- the high-rigidity part 16 is disposed along the edge of the vent 7 on the opening 9 side.
- the high-rigidity portion 16 has higher rigidity than the body fabric of the pant body.
- the rigidity of the high-rigidity part 16 is higher than that of the cover part 8, for example, the bending resistance thereof is 50 mm to 200 mm.
- the high-rigidity portion 16 is made of, for example, a plurality of layers of cloth with a resin and a core material in between.
- the high-rigidity portion 16 may be disposed on the front side, the back side of the pant body, or between the fabrics if the body fabric is made of two or more fabrics. It is better to place it in a crab.
- a weighting portion 17 is provided at each of the upper end and the lower end of the vent hole 7.
- the weight portion 17 is heavier than at least the fabric constituting the cover portion 8.
- the weight portion 17 can be formed, for example, by overlapping and sewing a fabric having a larger number than the fabric constituting the cover portion 8.
- the weight portion 17 may be arranged on the front side, the back side of the pants body, or between the two when the body fabric is made of two or more fabrics, but considering the design, either the back side or the fabric It is good to arrange in.
- the cover part 8 that covers the vent hole 7 when the operation of dropping the waist or the operation of raising the knee is performed. It becomes easy to open, and the air flowing toward the body hits the cover 8 when performing a turning motion or a straight motion.
- the air hitting the cover 8 enters the inside of the pant body from the vent 7 and flows toward the exhaust port 10 on the back. As a result, the air flow is promoted inside the pant body, and the cooling function is exhibited.
- the vent 7 is closed in a standing posture and opened in a state where the waist is lowered, the inside of the pant body becomes difficult to see from the vent 7 in a standing posture where ventilation is not so necessary. Excellent design.
- the temperature difference between the closed state and the opened state of the vent hole 7 becomes large, and it becomes easier to feel the cooling effect in comparison with the case where the vent hole 7 is always open.
- the sports pants 1 are most likely to form large heels and heels around the groin part.
- the vent 7 is preferably provided around the groin.
- the cover part 8 becomes easier to bend and by extension, the opening part 9 becomes easy to open.
- the heel of the pant body generated in the groin part is easily formed in parallel with the line of the groin part.
- the angle of the vent hole 7 is made parallel to the groin line, stress due to the heel of the groin part becomes difficult to be transmitted to the cover part 8 covering the vent hole 7, so the angle of the vent hole 7 is a line parallel to the groin part. It is preferable to provide it in a direction that is downward and intersects with the ridge of the groin portion. Thereby, the stress due to the heel of the groin portion is easily transmitted to the cover portion 8, and the opening 9 is easily formed.
- Example 1 As Experimental Example 1, the difference in the air volume inside the pants due to the presence or absence of the vent 7 and the exhaust 10 was examined. Specifically, the sports pants in which the vent 7 and the exhaust 10 of the example were closed with tape were set as Comparative Example 1, and the Example and Comparative Example 1 were worn on a mannequin to compare the air volume inside the pants. Since Comparative Example 1 uses the sports pants of the example to close the vent and the exhaust port, the conditions other than that the vent 7 and the exhaust port 10 are blocked are the same as those in the example. All are the same (the same applies to other comparative examples).
- a measured value is a value obtained by performing measurement for 1 minute three times and averaging each of the three measured values. From the results of Experimental Example 1, it was confirmed that the sports pants of the example in which the vents and the exhaust ports were provided have a higher wind speed inside the pants than the sports pants of the comparative example 1 without the vents and the exhaust ports. did it.
- Example 2 As Experimental Example 2, the relationship between the presence or absence of the vent 7 and the exhaust 10 and the heat dissipation effect inside the pants was examined based on the thermal resistance value. Specifically, under the same conditions as in Experimental Example 1, the thermal manikin (manufactured by Kyoto Electronics Industry Co., Ltd.) was worn with the Example and Comparative Example 1, and the thermal resistance values inside the pants were compared.
- the thermal manikin manufactured by Kyoto Electronics Industry Co., Ltd.
- the thermal resistance value is a value measured by the following procedure. ⁇ Measurement procedure of thermal resistance value> 1. Of the 19 measurement locations on the thermal mannequin (see FIG. 16), 6 locations (6th, 7th, 12th, 13th, 16th, 17th) covered with sports pants are to be measured. And 2. In an artificial weather chamber maintained at an air temperature of 20 ° C. and a humidity of 50%, air is blown from the front of the thermal mannequin wearing the pants toward the pants. 3. The amount of electric power (W) is controlled so that the average value of the surface temperatures at the six locations becomes a constant temperature (33 ° C.). 4).
- the thermal resistance value of the example is smaller than that of the comparative example 2.
- the small heat resistance value means that the heat dissipation effect in the pants is large, and the large heat dissipation effect means that the cooling effect is high. That is, it was confirmed that the cooling effect of the example was greater than that of the comparative example 2.
- Example 3 As Experimental Example 3, the relationship between the presence or absence of the exhaust port 10 and the heat dissipation effect inside the pants was examined. Specifically, a sports pant in which only the exhaust port 10 of the example was covered with a tape was used as Comparative Example 3, and the thermal resistance value of the thermal mannequin was measured by the same method as in Experimental Example 2.
- the thermal resistance value of the example having the exhaust port 10 was smaller than that of the comparative example 3 having no exhaust port 10. That is, the heat dissipation effect of the example was greater than that of the comparative example 3. This is because the sports pants of the embodiment have the exhaust port 10, so that an air flow is generated inside the pants so that the air that flows into the pants from the vent 9 escapes from the exhaust port 10. This is probably because the flow was promoted.
- Example 4 As Experimental Example 4, the relationship between the difference in the length of the edge of the cover 8 and the heat dissipation effect inside the pants was examined. Specifically, the length of the edge portion on the opening 9 side of the cover portion 8 of the example is the same as the length of the long side of the opening portion 9 as Comparative Example 4, and the same method as in Experimental Example 2 is used. The thermal resistance value of the thermal mannequin was measured. The result is shown in the graph of FIG. As shown in the graph, in the embodiment in which the length of the edge of the cover 8 is longer than the long side of the vent 7, the length of the edge of the cover 8 is the long side of the vent 7. The thermal resistance value was smaller than Comparative Example 4 which was the same.
- the heat dissipation effect of the example was greater than that of the comparative example 4. This is presumably because the sports pants of the example received a large amount of air from the front due to the long edge of the cover 8 and a large amount of air flowed into the pants.
- Example 5 As Experimental Example 5, the relationship between the difference in opening / closing of the opening 9 and the heat dissipation effect inside the pants was examined. Specifically, the heat resistance of the example and the comparative example 5 was determined by the same method as the experimental example 2 by using the example in which the cover 8 was fixed so that the cover 8 was opened even in the standing state. The value was measured. However, in order to investigate the difference depending on whether the cover 8 is opened or closed, the thermal resistance value in the standing state where the thermal manikin is not bent was also measured, and the amount of change from the thermal resistance value in the bent state was examined.
- This graph represents the ratio (%) between the thermal resistance value in the standing state and the thermal resistance value in the state where the waist is lowered.
- tennis pants have been described as an example of sports pants, but the present invention is not limited to this, and can be applied to sports other than tennis, for example, pants such as jogging, basketball, and volleyball. It is.
- the short pants in which the hem of the pants is located on the knee has been described as an example, the position of the hem is not particularly limited, and the pants may be located in the lower side of the knee.
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Abstract
Description
前記覆い部は以下の要件(a)~(c)を満たす。
(a)前記開口側の縁の長さが前記通気口の長手方向の長さよりも長い。
(b)前記覆い部を構成する生地の剛軟度が前記パンツ本体を構成する生地の剛軟度よりも高い。
(c)着用者の立位姿勢の状態で前記開口部が閉じており、腰を落とした状態で前記開口部が開く。
その他、スポーツ用パンツ1は腰の周囲に配置されたゴムの入った伸縮ベルト部5と、前部2の腰部分の少し下方の左右両側に配置されたポケット6を備えている。
スポーツ用パンツ1の冷却効果を確認するために、図1、図3及び図5に示すテニス用パンツを作製し効果検証を行った。
(実施例の具体的構成)
・前部2、後部3の身生地の剛軟度:24mm
・覆い部8の剛軟度:51mm
・通気口7の長辺に対する覆い部8の開口部側の縁の長さ比:106%
・覆い部8の通気度:6cm3/cm2・s
・前部の2および後部3の身生地の通気度:13cm3/cm2・s
・メッシュ生地12の通気度:107cm3/cm2・s
・前部2および後部3の身生地の混紡率:ポリエステル100%
なお、剛軟度はJIS L 1096A法(45°カンチレバー)に基づいて測定した値であり、通気度はフラジール形通気性試験機を用いて、JIS L 1096「織物及び編物の生地試験方法」に規定される方法により求めた値である。また、覆い部8はパンツ本体の身生地と同じ身生地2枚を間に芯材を入れて縫合したものを使用した。
実験例1として通気口7および排気口10の有無の相違によるパンツ内部の風量の違いを調べた。具体的には実施例の通気口7および排気口10をテープで塞いだスポーツ用パンツを比較例1とし、実施例と比較例1をマネキンに着用させて、パンツ内部における風量を比較した。なお、比較例1は実施例のスポーツ用パンツを使用して通気口および排気口を塞いだものであるから、通気口7および排気口10が塞がれていること以外の条件は実施例と全て同じである(その他の比較例も同様)。
<実験条件>
・計測器:風速計(トーニック社製 GeY-40DA)
・計測器の取り付け位置:大腿外側中央部
・測定環境:無風状態の人工気象室内(室温20℃、湿度50%)
・マネキンの姿勢:腰を落とした姿勢(立位姿勢を0°とした場合の股関節屈曲角度60°)
このような条件のもとで、マネキン前方40cmの位置に扇風機を配置し、正面側から実施例または比較例1のパンツに向けて送風した。
この実験例1の結果から、通気口および排気口のない比較例1のスポーツ用パンツよりも通気口および排気口を設けた実施例のスポーツ用パンツの方がパンツ内部の風速が高いことが確認できた。
実験例2として通気口7および排気口10の有無の相違とパンツ内部の放熱効果の関係を熱抵抗値に基づいて調べた。具体的には実験例1と同じ条件のもとで、実施例と比較例1をサーマルマネキン(京都電子工業社製)に着用させて、パンツ内部における熱抵抗値を比較した。
<熱抵抗値の測定手順>
1.19箇所あるサーマルマネキンの測定部位のうち(図16参照)、スポーツ用パンツによって覆われる6箇所(6番、7番、12番、13番、16番、17番)の部位を測定対象とする。
2.気温20℃、湿度50%に保持された人工気象室内において、パンツを着用させたサーマルマネキンの前方からパンツに向けて送風する。
3.上記6箇所の表面温度の平均値が一定温度(33℃)になるように電力量(W)を制御する。
4.表面温度が一定になった時点から、送風状態において表面温度を一定温度(33℃)に保つために必要な電力量を10秒ごとに15分測定し、その平均値を算出する。
5.4.で算出した平均電力量から単位面積当たりの電力量=発熱量(W/m2)を求め、下記式から熱抵抗値を算出する。
熱抵抗値(m2K/W)=(表面温度-環境温度)/発熱量
実験例3として排気口10の有無の相違とパンツ内部の放熱効果との関係を調べた。具体的には実施例の排気口10のみをテープで塞いだスポーツ用パンツを比較例3とし、実験例2と同じ方法によりサーマルマネキンの熱抵抗値を測定した。
実験例4として、覆い部8の縁部の長さの相違とパンツ内部の放熱効果との関係を調べた。具体的には実施例の覆い部8の開口部9側の縁部の長さを開口部9の長辺の長さと同じ長さにしたものを比較例4とし、実験例2と同じ方法によりサーマルマネキンの熱抵抗値を測定した。
その結果を図17のグラフに示す。同グラフに示されるように、覆い部8の縁部の長さを通気口7の長辺よりも長くした実施例の方が覆い部8の縁部の長さを通気口7の長辺と同じにした比較例4よりも熱抵抗値が小さかった。すなわち、実施例の方が比較例4よりも放熱効果が大きかった。これは実施例のスポーツ用パンツは覆い部8の縁部が長く形成されていることによって前方からの空気を多く受け止めて、パンツ内部に多くの空気が流入したことによるものと考えられる。
実験例5として、開口部9の開閉の有無の相違とパンツ内部の放熱効果との関係を調べた。具体的には、実施例の覆い部8が立位状態においても開口するように覆い部8を固定したものを比較例5として、実験例2と同じ方法により実施例と比較例5の熱抵抗値を測定した。ただし、覆い部8の開閉の有無による差異を調べるために、サーマルマネキンが屈曲していない立位状態の熱抵抗値も測定し、屈曲状態における熱抵抗値との変化量を調べた。
2 :前部
3 :後部
4 :マチ
5 :伸縮ベルト部
6 :ポケット
7 :通気口
8 :覆い部
9 :開口部
10 :排気口
11 :覆い部
12 :メッシュ生地
13 :開口部
14 :メッシュ生地
15 :側部
Claims (14)
- 前部、後部、および前記前部と前記後部との間に位置する側部を有するパンツ本体を備えたスポーツ用パンツであって、
前記パンツ本体は、
前記側部の膝上領域に配置され、パンツ本体の身生地を貫通するとともに縦方向に延びた細長い形状の通気口と、
前記前部側に開口した開口部を有するようにして前記通気口を覆う覆い部と、
前記後部に配置され、パンツ本体の身生地を貫通する排気口と、を有するスポーツ用パンツ。 - 前記覆い部は、少なくとも前記開口部側の縁部の長さが前記通気口の長手方向の長さよりも長く、且つパンツ本体を形成する身生地よりも剛軟度が高い請求項1記載のスポーツ用パンツ。
- 前記覆い部は、前記開口部側から奥に向かって次第に狭まる形状となるように前記パンツ本体の身生地に周囲が縫製されている請求項1または2記載のスポーツ用パンツ。
- 前記通気口および前記排気口が高通気性生地によって塞がれている請求項1~3のいずれかに記載のスポーツ用パンツ。
- 前記高通気性生地がメッシュ生地である請求項4記載のスポーツ用パンツ。
- 前記パンツ本体は、前記通気口の前記開口部側の縁に沿って配置された、パンツ本体の身生地よりも剛性の高い高剛性部をさらに有する請求項1~5のいずれかに記載のスポーツ用パンツ。
- 前記覆い部は、平面視したときに前記開口部側の縁部が円弧状に凹んでいる請求項1~6のいずれかに記載のスポーツ用パンツ。
- 前記通気口が、着用者の鼠径部と交差する位置に設けられている請求項1~7のいずれかに記載のスポーツ用パンツ。
- 前記覆い部の前記開口部側の縁部は、前記通気口の長手方向の長さに対し、104%から108%の長さに設定されている請求項1~8のいずれか1項に記載のスポーツ用パンツ。
- 前記パンツ本体を形成する身生地の剛軟度が、20mm~150mmである請求項1~9のいずれか1項に記載のスポーツ用パンツ。
- 前記パンツ本体は、前記通気口の上端側および下端側に配置された前記覆い部を形成する生地よりも重い加重部を有する請求項1~10のいずれか1項に記載のスポーツ用パンツ。
- 前記加重部は、前記覆い部を形成する生地と同じ生地を覆い部よりも枚数を多く重ねて縫製することによって形成されている請求項11項に記載のスポーツ用パンツ。
- 前記パンツ本体は、裾部が膝上に位置している請求項1~12のいずれか1項に記載のスポーツ用パンツ。
- 前部、後部、および前記前部と前記後部との間に位置する側部を有するパンツ本体を備えたスポーツ用パンツであって、
前記パンツ本体は、
前記側部に配置され、且つパンツ本体の身生地を貫通し、縦方向に延びた細長い形状の通気口と、
前記前部側に開口した開口部を有するようにして前記通気口を覆う覆い部と、を有し、
前記覆い部は以下の要件(a)~(c)を満たす、スポーツ用パンツ。
(a)前記開口側の縁の長さが前記通気口の長手方向の長さよりも長い。
(b)前記覆い部を構成する生地の剛軟度が前記パンツ本体を構成する生地の剛軟度よりも高い。
(c)着用者の立位姿勢の状態で前記開口部が閉じており、腰を落とした状態で前記開口部が開く。
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EP15871304.0A EP3178336B1 (en) | 2015-10-09 | 2015-10-09 | Sports pants |
PCT/JP2015/078827 WO2017061053A1 (ja) | 2015-10-09 | 2015-10-09 | スポーツ用パンツ |
JP2016519410A JP6017732B1 (ja) | 2015-10-09 | 2015-10-09 | スポーツ用パンツ |
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PCT/JP2015/078827 WO2017061053A1 (ja) | 2015-10-09 | 2015-10-09 | スポーツ用パンツ |
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Cited By (2)
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CN111757682A (zh) * | 2017-12-19 | 2020-10-09 | X-科技瑞士有限责任公司 | 衬衫 |
US11986034B2 (en) | 2019-11-13 | 2024-05-21 | Nike, Inc. | Vented lower-body garment |
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CH714664A1 (de) | 2018-02-19 | 2019-08-30 | X Tech Swiss Gmbh | Klimatisierte Sporthose mit Witterungsschutz. |
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- 2015-10-09 JP JP2016519410A patent/JP6017732B1/ja active Active
- 2015-10-09 EP EP15871304.0A patent/EP3178336B1/en active Active
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JPH10513233A (ja) * | 1995-02-06 | 1998-12-15 | バンソン レザーズ インコーポレイテッド | 通気構造部を備える衣服 |
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CN111757682A (zh) * | 2017-12-19 | 2020-10-09 | X-科技瑞士有限责任公司 | 衬衫 |
US11986034B2 (en) | 2019-11-13 | 2024-05-21 | Nike, Inc. | Vented lower-body garment |
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EP3178336A1 (en) | 2017-06-14 |
JPWO2017061053A1 (ja) | 2017-10-05 |
EP3178336B1 (en) | 2020-09-30 |
JP6017732B1 (ja) | 2016-11-02 |
EP3178336A4 (en) | 2018-03-28 |
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