CN222929282U - One-way wet sportswear that leads - Google Patents

Abstract

The utility model relates to the technical field of clothing, and provides a one-way moisture-conducting sportswear, which comprises: a clothing body and two breathable meshes. The clothing body is formed by overlapping and sewing an inner layer, a connecting layer and an outer layer, and the connecting layer is configured to allow sweat to be transferred from the inner layer to the outer layer in one direction. When designing the structure of the sportswear, the clothing body is formed by overlapping and sewing a three-layer structure, and at the same time, the connecting layer is designed to allow sweat to be transferred from the inner layer to the outer layer in one direction, so that the sweat generated by the user during exercise can be easily transferred from the inner layer to the outer layer in one direction, thereby improving the one-way moisture-conducting performance, facilitating the skin to be kept dry, and improving the comfort of wearing clothes. At the same time, a breathable mesh is sealed and connected at the armpit between the sleeve and the body of the clothing, so that the breathable mesh is arranged for the armpit that is prone to sweating, and the ventilation and air permeability of the armpit is increased, which can effectively avoid the generation of odor due to the breeding of bacteria by sweat.

Description

One-way wet sportswear that leads

Technical Field

The utility model belongs to the technical field of clothing, and particularly relates to one-way moisture-conducting sportswear.

Background

With the increase of outdoor exercises, sportswear is widely favored by consumers due to the light, quick-drying, waterproof and other properties. Because of the need of preventing outdoor mosquito bites and avoiding easy scratches in outdoor exercises, sportswear is generally designed into a long-sleeve structure, and meanwhile, sportswear is generally designed into a double-layer fabric, namely an inner layer fabric and an outer layer fabric which are sewn together. However, due to the structural design, the moisture-conducting performance is poor, so that sweat is easy to be clung to the skin in the movement process, and the wearing comfort is seriously affected. Meanwhile, in the parts which are easy to sweat, such as armpits, the air permeability is poor, and peculiar smell is easy to be generated due to bacteria breeding in sweat.

Disclosure of utility model

Based on the background, the utility model aims to provide the unidirectional moisture-conducting sportswear, which has the advantages of improving the unidirectional moisture-conducting performance, being convenient for keeping skin dry and comfortable, improving the air permeability at the armpits and avoiding the generation of peculiar smell caused by bacteria breeding in sweat.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

The unidirectional moisture-conducting sportswear comprises a clothing body, two breathable mesh fabrics and two breathable mesh fabrics, wherein the clothing body is formed by overlapping and sewing an inner layer, a connecting layer and an outer layer, sweat is allowed to be transmitted from the inner layer to the outer layer in a unidirectional mode, the clothing body comprises a clothing body and two clothing sleeves, the two clothing sleeves are respectively connected to two shoulders of the clothing body, openings are formed in armpits between the clothing sleeves and the clothing body, the two breathable mesh fabrics cover the corresponding openings respectively, and the breathable mesh fabrics are connected between the clothing sleeves and the clothing body in a sealing mode.

Further, the connecting layer is a unidirectional moisture-conducting polyester layer, the inner layer is a cotton or bamboo fiber blended yarn layer, and the outer layer is a water-repellent polyester fiber layer.

Further, the connection layer protrudes towards the inner layer and the outer layer respectively to correspondingly form a first protruding portion and a second protruding portion, a first concave portion is formed on one side of the first protruding portion, which faces away from the outer layer, and a second concave portion is formed on one side of the second protruding portion, which faces away from the inner layer.

Further, the garment body comprises a front piece and a rear piece which are sewn with each other, each sleeve is connected between the front piece and the rear piece, an opening is formed between the front piece and the rear piece, and the breathable mesh is connected between the front piece, the rear piece and the sleeves and covers the opening.

The binding lining comprises a binding layer, a first sweat-absorbing layer, a second sweat-absorbing layer, a first elastic band connected with the first sweat-absorbing layer and the binding layer, and a second elastic band connected with the second sweat-absorbing layer and the binding layer, wherein the first sweat-absorbing layer and the second sweat-absorbing layer are sewn between the connecting layer and the outer layer of the front piece, the binding layer is sewn between the connecting layer and the outer layer of the rear piece, and the first sweat-absorbing layer and the second sweat-absorbing layer are detachably connected.

Further, the lacing liner further comprises a first buckle belt and a second buckle belt which are clamped with each other, two through holes are formed in the outer layer of the front piece at intervals, the first buckle belt is connected with the first sweat-absorbent layer, the second buckle belt is connected with the second sweat-absorbent layer, and the first buckle belt and the second buckle belt are respectively penetrated out from the corresponding through holes.

Further, the binding layer is provided with a plurality of ventilation holes in a penetrating manner along the thickness direction of the binding layer.

Further, the constraint layer is equipped with a plurality of wet sand grip towards one side of tie layer, all wet sand grip is followed the width direction interval distribution of constraint layer, and each wet sand grip is followed the length direction of constraint layer extends, the bleeder vent sets up between each adjacent two wet sand grip.

Further, the garment further comprises a first elastic adjusting belt and a second elastic adjusting belt, the garment body further comprises a coat and a cap connected to the coat, the first elastic adjusting belt is arranged at a cap opening of the coat and the cap, and the second elastic adjusting belt is arranged at a cuff of the sleeve.

The utility model has the following beneficial effects:

(1) When the structure design of sportswear, with the clothes body by three-layer structure stack and make up, simultaneously, design into the structure that allows sweat to pass to the skin from the inlayer is one-way with the articulamentum, the sweat that the user produced when the motion is very easy passes to the skin from the inlayer is one-way, improves one-way wet performance, is convenient for keep skin dry and comfortable, improves the travelling comfort of dressing. Meanwhile, the breathable mesh cloth is hermetically connected to the armpit between the sleeve and the clothing body, so that the breathable mesh cloth is arranged aiming at the armpit which is easy to sweat, ventilation and air permeability of the armpit are improved, and peculiar smell generated due to bacteria breeding in sweat can be effectively avoided.

(2) The connecting layer is protruded towards one side of the inner layer and one side of the outer layer respectively to form a first protruding part and a second protruding part correspondingly, so that sweat on the inner layer can be transferred to the connecting layer through the first protruding part in unidirectional moisture conduction, and then transferred to the outer layer through the second protruding part, thereby realizing effective moisture conduction. Meanwhile, the back surfaces of the first convex part and the second convex part are respectively provided with the first concave part and the second concave part, so that the connecting layer is of a wavy structure, the bulkiness between the inner layer and the outer layer is increased, and the touch feeling and the wearing comfort of the sportswear are improved conveniently.

(3) The lacing lining is sewn between the outer layer and the connecting layer, so that the first sweat-absorbing layer and the second sweat-absorbing layer can be connected during exercise, and the connecting layer and the lining layer are clung to the skin of a user under the action of the first elastic band and the second elastic band respectively. Thus, the skin is favorable for moisture conduction to the connecting layer, and the muscle of the user is in a tightening state under the action of the tightening lining, thereby being favorable for improving the exercise effect. In addition, the first sweat-absorbing layer and the second sweat-absorbing layer are arranged at the front piece, sweat transmitted to the connecting layer is easily absorbed by the first sweat-absorbing layer and the second sweat-absorbing layer, the unidirectional moisture guiding effect is improved, and the wearing comfort is further improved.

(4) A plurality of moisture-guiding raised strips are arranged on one side surface of the binding layer, which faces the connecting layer, so that the contact area between the binding layer and the connecting layer can be reduced on the premise of moisture guiding and tightening, and the large-area covering on the skin of a user through the connecting layer is avoided. Meanwhile, the ventilation holes are formed between two adjacent moisture-guiding convex strips, so that the ventilation performance is improved while tightening.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained from the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the front construction of an athletic garment shown in one embodiment;

FIG. 2 is a schematic view of the back structure of an athletic garment shown in one embodiment;

FIG. 3 is a schematic structural view of a garment body fabric shown in one embodiment;

FIG. 4 is a schematic diagram of the front construction of an athletic garment shown in another embodiment;

FIG. 5 is a schematic view of the back structure of an athletic garment shown in another embodiment;

FIG. 6 is a cross-sectional view of the structure of the tie-down layer shown in one embodiment;

Fig. 7 is a flow chart of the fabrication of an athletic garment shown in one embodiment.

Reference numerals illustrate:

100. Sportswear, 10, clothing body, 1a, inner layer, 1b, connecting layer, 1b1, first convex part, 1b2, second convex part, 1b3, first concave part, 1b4, second concave part, 1c, outer layer, 11, clothing body, 111, front piece, 112, back piece, 12, sleeves, 13, clothing, 14, wearing mouth, 141, cover piece, 20, breathable mesh, 30, lacing liner, 31, first sweat-absorbing layer, 32, second sweat-absorbing layer, 33, binding layer, 331, ventilation hole, 332, moisture conducting convex strip, 34, first elastic band, 35, second elastic band, 36, first buckle band, 37, second buckle band, 40, first waterproof zipper, 50, second waterproof zipper, 60, first elasticity adjusting band, 70, second elasticity adjusting band.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear are used in the embodiments of the present utility model) are merely for explaining the relative positional relationship, movement conditions, and the like between the components in a certain specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are changed accordingly.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

In one embodiment, referring to fig. 1 to 6, the present application provides a unidirectional moisture-guiding sportswear 100, comprising a main body 10 formed by overlapping and sewing an inner layer 1a, a connecting layer 1b and an outer layer 1c, wherein the connecting layer 1b is configured to allow sweat to be unidirectionally transferred from the inner layer 1a to the outer layer 1c, the main body 10 comprises a main body 11 and two sleeves 12, the two sleeves 12 are respectively connected at two shoulders of the main body 11, openings are respectively formed between the sleeves 12 and the main body 11 at armpits, and two ventilation meshes 20 respectively cover the corresponding openings, and the ventilation meshes 20 are connected between the sleeves 12 and the main body 11 in a sealing manner.

In the unidirectional moisture-conducting sportswear 100, when the structure of the sportswear 100 is designed, the garment body 10 is formed by overlapping and sewing three layers, meanwhile, the connecting layer 1b is designed to be a structure allowing sweat to be unidirectionally transferred from the inner layer 1a to the outer layer 1c, so that sweat generated by a user during movement is easily unidirectionally transferred from the inner layer 1a to the outer layer 1c, the unidirectional moisture-conducting performance is improved, the skin dryness is conveniently kept, and the wearing comfort is improved. Meanwhile, the breathable mesh cloth 20 is hermetically connected to the armpit between the sleeve 12 and the clothes body 11, so that the breathable mesh cloth 20 is arranged for the armpit which is easy to sweat, ventilation and air permeability of the armpit are improved, and peculiar smell generated by bacteria breeding due to sweat can be effectively avoided.

Further, the connecting layer 1b is a unidirectional moisture-conducting polyester layer, the inner layer 1a is a cotton or bamboo fiber blended yarn layer, and the outer layer 1c is a water-repellent polyester fiber layer.

It should be noted that the unidirectional moisture-conductive polyester layer refers to a structure in which two fibers with different moisture absorption properties are utilized, and moisture is introduced from one side by adopting a unidirectional moisture-conductive method during dyeing, so that the fibers at the one side absorb the moisture, and the other side remains dry.

In one embodiment, referring to fig. 3, the connection layer 1b is protruded towards the inner layer 1a and the outer layer 1c respectively to form a first protrusion 1b1 and a second protrusion 1b2, wherein a first concave portion 1b3 is formed on a side of the first protrusion 1b1 facing away from the outer layer 1c, and a second concave portion 1b4 is formed on a side of the second protrusion 1b2 facing away from the inner layer 1 a.

It is known that the connecting layer 1b is protruded toward one side of the inner layer 1a and the outer layer 1c to form the first protrusion 1b1 and the second protrusion 1b2, respectively, so that sweat on the inner layer 1a is transferred to the connecting layer 1b through the first protrusion 1b1 and then transferred to the outer layer 1c through the second protrusion 1b2 in unidirectional moisture transfer, thereby realizing effective moisture transfer. Meanwhile, since the back surfaces of the first convex part 1b1 and the second convex part 1b2 are respectively provided with the first concave part 1b3 and the second concave part 1b4, the connecting layer 1b presents a wavy structure, the bulkiness between the inner layer 1a and the outer layer 1c is increased, and the touch feeling and wearing comfort of the sports wear 100 are conveniently improved.

In one embodiment, referring to fig. 1 and 2, the garment body 11 includes a front panel 111 and a rear panel 112 sewn to each other, each sleeve 12 is connected between the front panel 111 and the rear panel 112, an opening is formed between the front panel 111 and the rear panel 112, and the ventilation screen cloth 20 is connected between the front panel 111, the rear panel 112 and the sleeves 12 and covers the opening. Thus, the breathable mesh 20 is conveniently sewn at the armpits of the clothing body 11.

Further, referring to fig. 4 and 5, the fastening liner 30 is further provided with a fastening liner 30 sewn between the outer layer 1c and the connecting layer 1b, wherein the fastening liner 30 comprises a binding layer 33, a first sweat-absorbent layer 31, a second sweat-absorbent layer 32, a first elastic band 34 connected to the first sweat-absorbent layer 31 and the binding layer 33, and a second elastic band 35 connected to the second sweat-absorbent layer 32 and the binding layer 33, the first sweat-absorbent layer 31 and the second sweat-absorbent layer 32 are sewn between the connecting layer 1b and the outer layer 1c of the front panel 111, the binding layer 33 is sewn between the connecting layer 1b and the outer layer 1c of the rear panel 112, and the first sweat-absorbent layer 31 and the second sweat-absorbent layer 32 are detachably connected.

It is known that the lacing liner 30 is sewn between the outer layer 1c and the connecting layer 1b, so that the first sweat-absorbent layer 31 and the second sweat-absorbent layer 32 can be connected during exercise, and the connecting layer 1b and the inner layer 1a are tightly attached to the skin of the user under the action of the first elastic band 34 and the second elastic band 35 respectively by the first sweat-absorbent layer 31, the second sweat-absorbent layer 32 and the binding layer 33. This not only facilitates the skin to wet the connecting layer 1b, but also the user's muscles are in a cinched state by the cinching liner 30, which facilitates the improvement of athletic performance. In addition, the first sweat-absorbent layer 31 and the second sweat-absorbent layer 32 are disposed at the front panel 111, so that sweat transferred to the connecting layer 1b is easily absorbed by the first sweat-absorbent layer 31 and the second sweat-absorbent layer 32, thereby improving the unidirectional moisture-guiding effect and further improving the wearing comfort.

It should be noted that since the lacing liner 30 is sewn between the outer layer 1c and the tie layer 1b, the lacing liner 30 shown in fig. 4 and 5 is shown with a broken line.

Alternatively, the first sweat-absorbent layer 31 and the second sweat-absorbent layer 32 may be made of polyester or cotton.

Still further, the lacing liner 30 further includes a first fastener tape 36 and a second fastener tape 37 that are fastened to each other, two through holes 14 are provided in the outer layer 1c of the front panel 111 at intervals, the first fastener tape 36 is connected to the first sweat-absorbent layer 31, the second fastener tape 37 is connected to the second sweat-absorbent layer 32, and the first fastener tape 36 and the second fastener tape 37 are respectively penetrated from the corresponding through holes 14. In this manner, the first sweat-absorbent layer 31 and the second sweat-absorbent layer 32 are facilitated to be separated or connected by the first and second snap tapes 36 and 37.

To avoid direct exposure of the mouth opening 14 and to ensure that the athletic garment 100 remains intact throughout, a cover sheet 141 may be provided over the mouth opening 14 to conceal the mouth opening 14.

In one embodiment, the binding layer 33 is provided with a plurality of ventilation holes 331 penetrating through the binding layer along its thickness direction.

Further, referring to fig. 5 and 6, a side surface of the binding layer 33 facing the connecting layer 1b is provided with a plurality of moisture-guiding ribs 332, all the moisture-guiding ribs 332 are distributed at intervals along the width direction of the binding layer 33, each moisture-guiding rib 332 extends along the length direction of the binding layer 33, and the ventilation holes 331 are disposed between each two adjacent moisture-guiding ribs 332. It can be seen that the plurality of moisture-guiding ribs 332 are disposed on a side of the binding layer 33 facing the connecting layer 1b, so that the contact area between the binding layer 33 and the connecting layer 1b can be reduced under the precondition of moisture guiding and tightening, and the large area of the skin of the user is prevented from being covered by the connecting layer 1 b. Meanwhile, the ventilation holes 331 are arranged between two adjacent moisture-guiding raised strips 332, so that the ventilation performance is improved while tightening.

In one embodiment, referring to fig. 1, the garment body 10 further includes a cap 13 connected to the garment body 11, a first elastic adjusting band 60 is disposed at a cap opening of the cap 13, and a second elastic adjusting band 70 is disposed at a cuff of the sleeve 12.

In one embodiment, please refer to fig. 7, the present application provides a method for manufacturing a unidirectional moisture-conductive sportswear, for manufacturing the unidirectional moisture-conductive sportswear 100, comprising the following steps:

S10, splicing the armpits of the front sheet 111 and the rear sheet 112 with the breathable mesh 20 by using a four-line overedger;

S20, sewing a pocket at a corresponding position of the front piece 111 by using a full-automatic pocket opening machine, and adding a first waterproof zipper 40 at the pocket;

s30, sewing the shoulder positions of the front sheet 111 and the rear sheet 112 by using a five-wire overedger;

S40, sewing the sleeve positions of the sleeves 12 with the front piece 111, the rear piece 112 and the breathable mesh 20 by using a four-line overedger;

S50, a second waterproof zipper 50 of the front door on the flat car.

The method for manufacturing the unidirectional moisture-conductive sportswear is used for manufacturing the unidirectional moisture-conductive sportswear 100. Therefore, in the structural design of the sportswear 100, the garment body 10 is formed by overlapping and sewing three layers of structures, and meanwhile, the connecting layer 1b is designed to be a structure allowing sweat to be unidirectionally transferred from the inner layer 1a to the outer layer 1c, so that sweat generated by a user during exercise can be unidirectionally transferred from the inner layer 1a to the outer layer 1c easily, the unidirectional moisture permeability is improved, the skin dryness is conveniently maintained, and the wearing comfort is improved. Meanwhile, the breathable mesh cloth 20 is hermetically connected to the armpit between the sleeve 12 and the clothes body 11, so that the breathable mesh cloth 20 is arranged for the armpit which is easy to sweat, ventilation and air permeability of the armpit are improved, and peculiar smell generated by bacteria breeding due to sweat can be effectively avoided.

It should be explained that, between the step S40 and the step S50, the method may further include splicing the coat and cap 13 by using a two-needle sewing machine, simultaneously, sewing and adjusting the button holes at the corresponding positions of the coat and cap 13 and the sleeves 12 by using a button sewing machine, sewing the coat and cap 13 to the coat body 11 by using a five-wire overedger, and adding an elastic collar wrapping strip at the rear collar joint. In addition, after the step S50 is performed, the first elastic adjusting band 60 and the second elastic adjusting band 70 may be respectively inserted into the coat 13 and the sleeve 12, and finally, the package is finished.

It should be understood that the above description is not intended to limit the utility model to the particular embodiments disclosed, but to limit the utility model to the particular embodiments disclosed, and that the utility model is not limited to the particular embodiments disclosed, but is intended to cover modifications, adaptations, additions and alternatives falling within the spirit and scope of the utility model.

Claims (9)

1. A unidirectional moisture-wicking sportswear, comprising:

A garment body (10) formed by overlapping and sewing an inner layer (1 a), a connecting layer (1 b) and an outer layer (1 c), wherein the connecting layer (1 b) is configured to allow sweat to be unidirectionally transferred from the inner layer (1 a) to the outer layer (1 c), the garment body (10) comprises a garment body (11) and two sleeves (12), the two sleeves (12) are respectively connected to two shoulders of the garment body (11), and openings are respectively formed between the sleeves (12) and the garment body (11) at armpits;

The two breathable mesh fabrics (20) respectively cover the corresponding openings, and the breathable mesh fabrics (20) are connected between the sleeves (12) and the coat body (11) in a sealing mode.

2. The unidirectional moisture-conducting sportswear as claimed in claim 1, wherein the connecting layer (1 b) is a unidirectional moisture-conducting polyester layer, the inner layer (1 a) is a cotton or bamboo fiber blended yarn layer, and the outer layer (1 c) is a water-repellent polyester fiber layer.

3. A unidirectional wet guiding sportswear as claimed in claim 1, characterized in that the connection layer (1 b) is protruded towards the inner layer (1 a) and the outer layer (1 c) respectively to form a first protrusion (1 b 1) and a second protrusion (1 b 2), the side of the first protrusion (1 b 1) facing away from the outer layer (1 c) forms a first recess (1 b 3), and the side of the second protrusion (1 b 2) facing away from the inner layer (1 a) forms a second recess (1 b 4).

4. A unidirectional wet guiding sportswear as claimed in claim 1, characterized in that the body (11) comprises a front panel (111) and a rear panel (112) sewn to each other, each sleeve (12) is connected between the front panel (111) and the rear panel (112) and forms the opening therebetween, and the breathable mesh (20) is connected between the front panel (111), the rear panel (112) and the sleeves (12) and covers the opening.

5. The unidirectional wet guiding sportswear as recited in claim 4, further comprising a lacing liner (30) sewn between the outer layer (1 c) and the connecting layer (1 b);

The lacing liner (30) comprises a binding layer (33), a first sweat-absorbing layer (31), a second sweat-absorbing layer (32), a first elastic band (34) connected with the first sweat-absorbing layer (31) and the binding layer (33) and a second elastic band (35) connected with the second sweat-absorbing layer (32) and the binding layer (33), wherein the first sweat-absorbing layer (31) and the second sweat-absorbing layer (32) are sewn between the connecting layer (1 b) and the outer layer (1 c) of the front sheet (111), the binding layer (33) is sewn between the connecting layer (1 b) and the outer layer (1 c) of the rear sheet (112), and the first sweat-absorbing layer (31) and the second sweat-absorbing layer (32) are detachably connected.

6. The unidirectional moisture-wicking sportswear as set forth in claim 5, characterized in that the lacing liner (30) further comprises a first fastener tape (36) and a second fastener tape (37) that are fastened to each other, two through-holes (14) are provided in the outer layer (1 c) of the front panel (111) at intervals, the first fastener tape (36) is connected to the first sweat-absorbent layer (31), the second fastener tape (37) is connected to the second sweat-absorbent layer (32), and the first fastener tape (36) and the second fastener tape (37) are respectively penetrated out from the corresponding through-holes (14).

7. The unidirectional moisture-conductive sportswear as claimed in claim 5, wherein the binding layer (33) is provided with a plurality of ventilation holes (331) penetrating along the thickness direction thereof.

8. The unidirectional wet guiding sportswear as claimed in claim 7, wherein a side of the binding layer (33) facing the connecting layer (1 b) is provided with a plurality of wet guiding ribs (332), all the wet guiding ribs (332) are distributed at intervals along the width direction of the binding layer (33), each wet guiding rib (332) extends along the length direction of the binding layer (33), and the ventilation holes (331) are arranged between each two adjacent wet guiding ribs (332).

9. The unidirectional wet guiding sportswear as recited in any one of claims 1-8, further comprising a first elastic adjustment band (60) and a second elastic adjustment band (70), the clothing body (10) further comprising a cap (13) connected to the clothing body (11), the first elastic adjustment band (60) being disposed at a cap opening of the cap (13), the second elastic adjustment band (70) being disposed at a cuff of the sleeve (12).