JPH0299058A - Clothing - Google Patents

Abstract

PURPOSE:To enhance air permeability, shielding properties and waterproofness by providing a three-dimensional cloth part, which is constituted by arranging specific units of narrow cloth pieces continuously so as to form a three- dimensional structure capable of permitting air to pass, to a principal part. CONSTITUTION:Narrow cloth pieces substantially consisting of 2-1500 units are continuously arranged so as to form a three-dimensional structure permitting air to pass through gaps formed between the narrow cloth pieces at the time of wearing to form a three-dimensional cloth part. This three-dimensional cloth part is provided to the principal part of this clothing. Any narrow cloth piece having a shape or dimension whose width is smaller than the length thereof may be used and the width thereof is pref. 1-200mm. The narrow cloth pieces S1-S7 are combined three-dimensionally so as to form a structure just showing a louver door like, tile-roofed or straw raincoat shape and a plurality of units are continuously arranged. The pref. presence density of the narrow cloth pieces is about several-30 units per a cloth length of 10cm. One constitutional unit of the narrow cloth pieces are pref. within a range of 1.1-8X10<4>mm<2> for example in general.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to clothing that has a fabric part with a special structure in the main part, which has good covering performance to prevent sunlight and rain from directly hitting the skin, and has good ventilation properties. The present invention relates to novel clothing that has good breathability and fashionability.

More specifically, outdoor clothing, especially golf and baseball uniforms or undershirts, sportswear such as tennis, casual wear such as T-shirts and polo shirts, formal wear such as suits, skirts, and dresses, and even rain gear such as raincoats. This article relates to a new type of clothing with a unique structure.

[Prior Art] Traditionally, the trend in product design for outdoor sportswear, such as golf wear and tennis wear, has often been to prioritize fashionability such as color and design, or brand name. Currently, functional aspects such as breathability and waterproofness are simply left to the primary characteristics of the fiber material itself (for example, water absorption when using cotton).

However, in seasons such as summer when there is strong direct sunlight, hot weather, and a lot of sweating, the mere functional properties of the fiber material itself are not sufficient. Especially for women,
Many people wear long sleeves to protect themselves from sunburn, and they also require functionality such as high breathability and comfort. There are also clothes that have a mesh-like structure to achieve high breathability, but such clothing is generally avoided because it shows the skin or underwear and leaves mesh-like sunburn marks.

In addition, recently, many clothing items such as sportswear and raincoats using high-density woven and knitted fabrics that have permeability and water repellency have been seen on the market, but these clothing products have rather low breathability. (Windproof) clothing, which is completely contradictory to the high breathability that is the aim of the present invention.

As mentioned above, high breathability properties are generally contradictory to light blocking properties, windproofing properties, and shielding properties. At present, clothing that is both functional and fashionable has never been seen before.

[Problems to be Solved by the Invention] In view of the problems of the prior art as described above, an object of the present invention is to prevent the skin from being sunburned by blocking direct sunlight when the wearer is under direct sunlight. It also has a good shielding effect, such as not showing through your body or underwear even when worn directly on your bare skin, and can effectively prevent raindrops from penetrating inside during rainy weather. Moreover, since it has such a high shielding effect, on the other hand, the breathability is not impaired, and in fact, it has higher ventilation performance than normal ones, so it can be used in summer or high temperature weather. We aim to provide novel clothing that is rich in functionality and fashion, which gives a very cool and comfortable feeling even when worn, and also has appearance characteristics that are rich in innovative fashion sense. It is something.

[Means for Solving the Problems] In order to achieve the above object, the clothing of the present invention has the following configuration.

That is, the clothing of the present invention has substantially more than 2 units of 150
A three-dimensional fabric part in which narrow fabric pieces of 0 units or less are consecutively arranged in a three-dimensional structure so that ventilation is possible through the gaps formed between the narrow fabric pieces when worn. It is a garment characterized by having:

[Function] Hereinafter, the clothing of the present invention will be explained in more detail based on the drawings and the like.

The clothing of the present invention uses several narrow fabric pieces, and these narrow fabric pieces have a three-dimensional structure that allows ventilation through the gaps formed by the narrow fabric pieces when the garment is worn. The main part has a three-dimensional fabric part arranged in the same manner as shown in FIG.

Here, the narrow fabric piece is a flat string-like fabric piece made of woven fabric, knitted fabric, non-woven fabric, etc. that is prepared in advance as a narrow fabric before sewing clothing, or Shun takes a pattern from a wide regular cloth material according to the design of the clothing, cuts the clothing piece according to the pattern, or cuts the piece and sews it into the garment, then slits the fabric located in the desired area. It refers to strips of fabric obtained by cutting them into shapes.

The shape and dimensions of the narrow fabric piece may be such that the width is narrow compared to the length, and the width is not particularly limited, but is preferably 1 mm to 20 Q mm. In addition, the cross-sectional shape is not only a flat piece of fabric, but also a ``he'' shape, a ``<'' shape, and a combination of these shapes, such as an rWJ shape. ),
It may have a cross-sectional structure bent in a shape such as ], ", f, ■, or ~.

The narrow fabric pieces are substantially used in a number of 2 units or more and 1500 units or less to constitute one three-dimensional fabric part, and the three-dimensional fabric part is used in one or more main parts of the garment. and constitute the clothing of the present invention. The fabric portions other than the three-dimensional fabric portion may be made of ordinary plain fabric.

FIGS. 1A, B, and C are longitudinal sectional views of the three-dimensional fabric portion at the seam joints of the fabric pieces, and show narrow fabric pieces S1, S2, and S
3. S4, S5, S6, and S7 overlap three-dimensionally, and the narrow fabric pieces exhibit a structure similar to that of shutters, a tiled roof, or a straw roof, and are arranged in multiple units continuously. This is a model representation of the current situation.

In the present invention, one unit in the continuous arrangement of narrow fabric pieces is a unit corresponding to the number of narrow fabric pieces that are continuously used. As described in C, the minimum unit of the three-dimensional structure is a three-dimensional structure made up of two units of dough formed by two pieces of dough.

In the clothing of the present invention, the number of narrow fabric pieces is 2 units or more and 1500 units or less, preferably 1000 units or less, and more preferably,
One three-dimensional fabric part is formed by using 5 units or more and 700 units or less.

When constructing a three-dimensional fabric part using more than 1,500 units of narrow fabric pieces, problems may arise in terms of the strength of the fabric, or conversely, the density of the narrow fabric pieces becomes high and the amount of air gap formation that allows ventilation is increased. This is undesirable because it decreases the weight of the fabric and increases the weight of the fabric. Further, the density of the narrow fabric pieces is preferably from several units to about S0 units per 10 cm of fabric length.

Furthermore, the area of one constituent unit of a narrow piece of fabric is not particularly limited, and may be appropriately determined depending on the desired clothing and the specific part to be used in the clothing. It is generally good to have a size within the range of .1mm2 to 8x104mm2; if it is smaller than 1.1mm2, it is generally difficult to form an effective three-dimensional structure, and if it is larger than 8x104mm2, , there is no significant difference from the use of plain fabrics, and there is a tendency for the characteristics to be lost.

2A, B, and C are longitudinal cross-sectional views of the three-dimensional fabric portion corresponding to FIGS. 1A, B, and C at non-sewn joints of the fabric pieces; S4, S5, S6,
This is a model showing a state in which S7s exist with a three-dimensional gap between them.

In the clothing of the present invention, such a three-dimensional fabric portion is shown in FIG.
As shown in the model diagrams , B, and C, raindrops are repelled as shown by arrow a and cannot enter the interior, and air can pass through as shown by arrow A, resulting in a good water repellent effect. This allows for a high level of breathability. In particular, if a narrow piece of fabric or cloth that has been treated to be water-repellent or oil-repellent is used, a highly water-repellent or oil-repellent effect can be obtained. In addition, in the case of sunlight, as in case (b) of the raindrops above, the narrow fabric pieces existing in the form of shutters effectively shield the wearer from sunburn, and there is almost no chance of sunburn on the wearer.

FIG. 3A is a model showing the structure of one embodiment of the three-dimensional fabric according to the present invention shown in FIGS. 1A-C and 2A-C, and shows the width of the narrow fabric piece. FIG. 2 is a plan view of a three-dimensional fabric portion sewn downwardly at equal intervals using a sewing machine. In the same figure, dotted lines 1.2.3.4 are sewing machine stitch lines, and the cross-sectional view along C-C is the suture line section shown in FIG. -C corresponds to the non-sutured joints. The narrow fabric pieces may be arranged consecutively in the same position as shown in Figure 3A, but each unit of the narrow fabric piece is It may be arranged in such a manner that the positions are alternately shifted.

In the present invention, the narrow fabric pieces forming a three-dimensional structure means that the narrow fabric pieces overlap each other, and the degree of overlap of each unit of the narrow fabric pieces is such that they all overlap regularly and have the same width. Alternatively, they may overlap with random widths.

In short, it only needs to be made of three-dimensional fabric.

When preparing narrow pieces of fabric before sewing clothing,
The narrow width fabric pieces can be produced by weaving them to the desired width on a ribbon loom or tape loom, or by melting them to the desired width on a wide loom or with a fusing cutter after weaving is completed. It can be obtained by a method of cutting, or a method of interweaving easily soluble fibers at the boundary to be slit, and then treating the easily soluble fibers in a liquid that dissolves them after weaving.

A narrow piece of fabric is not preferred because it is generally difficult to manufacture the piece of fabric when the width is less than 1 mm, and it is generally difficult to form a three-dimensional structure.
If the width exceeds 1 m, it is not preferable because it tends to be no different from ordinary fabrics in terms of functionality, fashionability, and breathability.

Therefore, the more preferable single width of the fabric is 2ml.
~100mm, more preferably 3mm~3Qmm. Roughly, the average width is 1mm to 20Q
It may be an irregularly shaped and narrow piece of fabric that exhibits an appropriate unevenness or wave shape within a range of about mm. Further, the structure of the narrow fabric piece may normally be double-layered, but in some cases, it may be cylindrical or double-layered fabric such as a double woven fabric.

Note that the width of one piece of fabric in a cylindrical item refers to the diameter of the piece.

In addition, in order to make a narrow piece of fabric by cutting a part of the fabric constituting the clothing, it is necessary to cut the part where the three-dimensional fabric part is to be provided (for example, the armpit part) in the fabric that has been prepared separately for sewing the clothing. is determined in advance at the clothing design stage, and when cutting the clothing according to the pattern for that part,
Or, after cutting the garment, make slits (cuts) with a cutter in the necessary places and cut two narrow pieces of fabric of the desired width.
The fabric is made by cutting into units or more as required, and then the narrow fabric pieces are overlapped by a sewing machine to create a garment having a three-dimensional fabric part.

That is, the three-dimensional fabric part is used in the necessary parts, for example, sports clothing such as golf wear and tennis wear,
The company manufactures casual wear such as T-shirts and polo shirts, as well as rain gear such as raincoats.

For example, FIG. 4 is a schematic model diagram showing the structure of a golf wear mainly composed of a plain fabric 5 obtained in Example 1, which will be described later, and using three-dimensional fabric 6 on both sides.

Further, for example, FIG. 5 shows a women's garment made mainly of a plain fabric 7 obtained in Example 2 described later, and cut by cutting the fabric 7 with slits to provide a three-dimensional fabric portion 8.9. It is a schematic model diagram showing the structure of a blouse.

When configuring clothing according to the present invention, the forward direction of the three-dimensional fabric (the direction from the narrow fabric piece located above to one side of the narrow fabric located below) is roughly in the direction from the top of the clothing to the bottom. It is practical to use substantially the same. However, in the case of fabrics that do not have such forward directionality, or even if forward directionality does exist, such usage is not always possible when the emphasis is placed on fashionability, appearance, etc. It is not limited to this, and may be used in any direction.

The clothing of the present invention can have various high functions such as high breathability and waterproofness, and also has many features and fashionability such as crispness, three-dimensional effect, and unique appearance, so it can be used as golf wear, Sports clothing such as tennis wear, baseball uniforms and undershirts, rain gear such as rough raincoats, casual clothing such as summer sweaters, T-shirts, and polo shirts, formal wear such as suits, skirts, suits, and dresses, and hats. It can be widely used for.

The forming part of the three-dimensional fabric is preferably a textile product such as a woven fabric, a knitted fabric, or a non-woven fabric from the viewpoint of texture. In this case, the fiber used for the three-dimensional fabric forming base material is polyethylene terephthalate or its like. Copolymers (e.g. copolymer components such as isophthalic acid, 5,-sodium sulfoisophthalate, etc.), polybutylene terephthalate,
Or polyester such as its copolymer, nylon 6.
Synthesis of polyamides and their copolymers such as 11, 12, 66, and 610, acrylic polymers, polyurethane, polyethylene, ultra-high molecular weight polyethylene, polypropylene and its copolymers, polyvinyl alcohol, etc. Regenerated cellulose fibers such as fili fibers, rayon, and cupro, semi-synthetic fibers such as acetate and triacetate, and natural fibers such as cotton, hemp, silk, and wool can all be used. They may be used alone or in combination depending on the purpose, such as composite, mixed fibers, blended spinning, twisted twisting, mixed weaving, etc.

Among these, there are narrow fabric pieces using composite yarns that are a combination of polyester fibers and polyamide fibers, and different fibers such as high-shrinkage fiber yarns and low-shrinkage fiber yarns that are made by copolymerizing isophthalic acid with polyester fibers. Narrow fabric pieces using composite yarns that are combined with yarn, and water-sensitive fibers obtained by spinning low-strength polyvinyl alcohol, exhibit shrinkage performance during processing. , it bulks up (improved bulkiness), and by obtaining good bulkiness and crispness, it eliminates adhesion to the skin, improves breathability, and provides a smooth texture, resulting in a higher comfortable feeling. This is preferable in that it provides the following. Furthermore, as a method of obtaining bulkiness, there is also a method of constructing a narrow piece of fabric using a single multifilament yarn subjected to bulky processing such as woolly processing.

In addition, a piece of narrow fabric made by interlacing and weaving low-melting point fibers is used, and this is heat-treated to melt and bond the low-melting point components, resulting in a tight and bonding effect on the fabric and a high density. It may also be possible to obtain a waterproofing effect by obtaining a coating effect.

There are various specific methods for forming a three-dimensional fabric using a plurality of narrow fabric pieces, and the method is not necessarily limited. Narrow pieces of fabric impregnated with a water-soluble glue (polyvinyl alcohol, acrylic glue, etc.) are wrapped around a coated cylinder of appropriate size while rotating the cylinder to the desired overlap width. After stacking and drying, adjoining narrow fabric pieces are temporarily bonded to each other, and then cut in the axial direction of the cylinder to obtain temporarily bonded stacked fabric pieces that have become a three-dimensional fabric from the narrow fabric pieces, Then, the temporary bonded fabric of the narrow fabric pieces (roughly, thus) is sewn at desired intervals with a sewing machine and sewn together at regular or random intervals, and then the fabric is The three-dimensional fabric according to the present invention can be obtained by immersing it in a hot water solution and dissolving and removing the water-soluble glue used for temporary bonding. In this case, the three-dimensional fabric portion is formed by a plurality of interconnected narrow sheets.

Note that a high frequency sewing machine, an ultrasonic sewing machine, or the like may be used as a method for adhering and connecting the narrow pieces of fabric.

The method of joining the narrow fabric pieces is not limited to sewing, and other methods such as joining with adhesive can also be adopted, but in the case of sewing, the three-dimensional fabric should be processed in the forward direction. This is practical in that it can prevent wrinkles as much as possible and is easy to work with. Further, when the narrow fabric pieces are sewn together using a sewing machine to form a three-dimensional fabric after temporary adhesion, a seam reinforcing tape may be overlapped at the stitched portion and the reinforcing tape may be sewn together. Further, after forming the three-dimensional fabric, in order to more firmly stabilize the three-dimensional structure, it is also preferable to perform ironing and/or heat pressing on the lower part of the three-dimensional fabric in the forward direction.

On the other hand, apart from the above-mentioned method of preparing narrow pieces of fabric in advance,
As mentioned above, when designing the target clothing, creating a pattern, and cutting the fabric along the pattern, or when cutting and sewing the garment, cut the fabric into slits using a cutter etc. at the part where the three-dimensional fabric part will be provided. Alternatively, a three-dimensional fabric may be temporarily bonded and then sewn together using a sewing machine to form a three-dimensional fabric.

Although some wrinkles may be observed in this method, they are not particularly noticeable or a drawback to the appearance of the clothing, and in fact often bring about good fashionability.

Depending on the use, it is more preferable to subject the clothing or three-dimensional fabric portion of the present invention to water repellency treatment. 1. Water treatment can be carried out by applying a suitable water repellent such as silicone or fluorine-based water repellent by spraying, padding, dipping, etc.
This can be easily done by applying the water repellent using a coating method, etc. Among these methods, the padding method is the best in that it can apply the water repellent agent uniformly. Similar to the padding method, processing the three-dimensional fabric in the forward direction is effective in preventing the occurrence of wrinkles, and the padding method is preferable in these respects.

In the clothing of the present invention, it is preferable to use an appropriate normal plain fabric as the other fabric used in the three-dimensional fabric part. An appropriate plain fabric is used as desired, and the three-dimensional fabric according to the present invention is used for flat areas that are not subjected to strong bending action when used as clothing, or for areas where breathability is particularly required. For example, in rain gear-related applications, regular waterproof fabrics can be used partially for the bends of the shoulders, knees, elbows, etc., and three-dimensional fabrics can be used especially for areas that get stuffy, such as the armpits. It is best to have the following configuration.

In addition, since baseball uniforms and the like are required to have strong abrasion and tear strength, the entire fabric is made of a strong fabric that is thick and has excellent abrasion properties, and the three-dimensional fabric of the present invention is used in some areas, such as the armpits and armpits. Providing a section is also a preferable combination because it can prevent stuffiness.

The clothing according to the present invention can also be used as a very distinctive clothing by making it reversible and using both the front side and the back side as appropriate.

That is, when using a narrow piece of fabric in which the material 10 that mainly forms the front surface of the narrow fabric piece and the material 11 that mainly forms the back side of the narrow fabric piece are different, as shown in FIG. 6A, the front and back sides are different. Clothing that effectively has different features can be easily obtained.

For example, such a narrow piece of fabric can be easily constructed from a double-knit fabric, etc., with the fibers that mainly make up the back side (friend side) made of cotton, and the fibers that make up the front side mainly made of water-repellent material. A typical configuration is to use polyester with high performance. Further, the fibers that mainly form the front surface of the fabric piece and the fibers that mainly form the back side of the fabric piece may be made of different materials and/or have different shrinkage rates, and by including several fibers in such a configuration, the narrow fabric piece Effects such as being able to give a curved structure to the fabric can be obtained, and in this case, a fabric with large gaps between fabric pieces and higher breathability can be obtained.

Further, as shown in FIG. 6B, when the narrow fabric piece is made of different materials in the width direction of the narrow fabric piece, for example, the material forming the upper half in the width direction that is on the skin side is also used. It is also possible to use a cotton fiber as the material 12, and use a water-repellent polyester fiber as the material 13 constituting the lower half in the width direction. You can get it inside. In this way, when the sheet is made of different materials in the width direction,
It is not necessarily necessary to bring the boundary line between different materials to the center position in the width direction, and the boundary line can also be brought to any suitable arbitrary position in the width direction.

In addition, it is not limited to just the material side, but it is also possible to construct a three-dimensional fabric by appropriately using a large number of narrow fabric pieces of multiple types with different colors, or to create a three-dimensional fabric between the front and back sides as shown in Figure 6A and B. , or/and by constructing a three-dimensional fabric using narrow pieces of fabric that have different colors between the top and bottom in the width direction, it is possible to create highly fashionable clothing that allows you to enjoy a variety of color changes.

In general, by adopting a combination of multiple factors such as changing the material in addition to changing the color, it is possible to create a fabric with a variety of functions and patterns that have never been seen before.

[Examples] The present invention will be explained in detail below using Examples, but the present invention is not restricted or limited by these Examples.

Example 1 Polyester filament yarn consisting of 30 denier (D>-12 filament (F)) was used as warp yarn and weft yarn,
A narrow fabric piece was obtained by weaving a 7 mm wide fabric using a ribbon loom. The weaving density of the obtained fabric piece was 80 vertical threads/cm;
The width is 26 lines/cm.

This narrow piece of fabric was dipped in a water-soluble polyvinyl alcohol glue and rolled up to a desired width while rotating the roll so that the surface overlapped a fluororesin-coated cylindrical roll and the width was 4 mm.

After drying the 1 q stacked fabric piece thus obtained, it was cut in the roll axis direction to obtain a stacked fabric piece that had been temporarily bonded using a water-soluble adhesive. The area of one constituent unit of the narrow fabric piece was 2880 mm2.

Next, the fabric pieces were sewn using a regular sewing machine at equal intervals of 10 mm in the width direction of the narrow fabric pieces and in the direction (forward direction) in which the narrow fabric pieces would not be turned up to obtain a three-dimensional fabric.

Golf wear having a structure as shown in the model diagram in FIG. 4 by using the three-dimensional fabric 6 particularly in the lower part of both sides, and using separately prepared plain knitted cotton fabric 5 in other parts than the lower part of both sides. I got it. Such three-dimensional fabric consists of 70 units on one side.

Even though the weather was extremely hot and sweaty on the day of the trial wearing of the clothing, the players were able to enjoy playing without feeling stuffy by wearing the clothing. did it.

Example 2 A women's blouse was designed using a plain woven fabric made of regular polyester fibers.

At the time of design, for the parts that would be cut into slits to create a three-dimensional fabric, the pattern was drawn taking into account the dimensions of the three-dimensional fabric.

The blouse thus made has a model structure as shown in Figure 5, with a plain woven fabric part 7 and a three-dimensional piece of fabric made by sewing narrow fabric pieces with slits overlapping each other on the upper sides of both arms. It consists of a section 8 and both flanks 9.

The slits were made by melt-cutting 14 narrow pieces of fabric each having a width of 12 mm in the horizontal direction using a thermal cutter to prevent fraying from the cut portions. The area of one structural unit of the narrow fabric piece was 2400 mm2.

Next, the same water-soluble glue as in Example 1 was applied to the cut portion with a brush, and the overlap width was 4 mm, and temporary adhesion was performed.
Sewing was performed at 40 mm intervals and stitched. The clothes thus obtained were subjected to hot water treatment at 90° C. using a drum dyeing machine, washed with water, and then dried. The three-dimensional fabric portion of the garment had three-dimensional fabric portions each consisting of 14 consecutive units (length: approximately 11 cm or more).

When I actually wore the garment, I found that it was very breathable.
It was comfortable to wear directly on the bare skin, and its textured appearance also made it look very dressy and fashionable, as the skin could be seen or hidden as the wearer moved. .

[Effects of the Invention] By having the above-described structure, the clothing having the three-dimensional fabric portion made of the narrow fabric piece of the present invention exhibits the following excellent functions and effects.

(1) Direct sunlight is prevented from entering, preventing sunburn and
It can prevent rough skin.

(2) Comfortable clothing that does not show the skin, has high breathability, and prevents stuffiness can be obtained.

(3) It has high air permeability, as well as light-shielding and shielding properties.
A fabric having both waterproofness and moisture permeability can be obtained.

4) Due to the uneven surface structure, a good three-dimensional effect and crisp feel can be obtained, and clothing that does not feel sticky to the skin can be obtained.

(5) Through various combinations of different materials and different hues, it is possible to obtain clothing with high commercial value that has not been seen before, which has multiple functions and is extremely fashionable.

The clothing according to the present invention has many effects as described above, and is suitable for use in sports clothing such as golf wear, tennis wear, baseball uniforms or undershirts, as well as rain gear clothing such as raincoats, summer sweaters, and T-shirts. ,
Casual clothing such as polo shirts, blouses, suits,
Including formal clothing such as skirts and dresses,
It is also widely used in the field of hats, etc.

[Brief explanation of the drawing]

Figures A, B, and C show narrow fabric pieces S1, S2, S3, S4, S5, S6, and S in the three-dimensional fabric part of the clothing of the present invention.
7 is a schematic vertical cross-sectional model diagram of the sutured joint of No. 7. FIG. 2A, B, and C are longitudinal cross-sectional views of the three-dimensional fabric portion corresponding to FIGS. 1A, B, and C at non-sewn joints of the fabric pieces; S4, S5, Ss,
This is a model showing a state in which S7s exist with a three-dimensional gap between them. FIG. 3A is a model showing the structure of one embodiment of the three-dimensional fabric according to the present invention shown in FIGS. FIG. 3 is a plan view of a three-dimensional fabric portion sewn together at regular intervals by a sewing machine. FIG. 3B is a plan view of the three-dimensional fabric section similar to FIG. 3A, but specifically illustrates a mode in which the narrow fabric pieces are alternately arranged in units of one unit. . 4 and 5 both illustrate one embodiment of the clothing of the present invention, and FIG. 4 is a schematic model diagram showing the structure of the golf wear obtained in Example 1. ,
FIG. 5 is a schematic model diagram showing the structure of a women's blouse obtained in Example 2. FIGS. 6A and 6B are perspective views illustrating variations in structural combinations when forming a narrow fabric piece using a combination of multiple materials or multiple colors. 81 to S7: Narrow fabric piece 1.2.3.4: Sewing machine suture line 5 Knitted fabric part 6: Three-dimensional fabric area 7: Plain woven fabric area 8.9: Three-dimensional fabric area 10: Narrow fabric piece Material 11 forming the front surface: Material 12 forming the back side of the narrow fabric piece: Material 13 forming the upper half of the narrow fabric piece in the width direction:
Material constituting the lower half of the narrow fabric piece in the width direction Arrow a: Direction in which raindrops are repelled Arrow b: Direction in which air passes

Claims (1)

Scope of Claims: (1) Narrow fabric pieces having substantially more than 2 units and less than 1,500 units have a three-dimensional structure so that ventilation can occur through gaps formed between the narrow fabric pieces when worn. 1. A garment characterized in that a main part has a three-dimensional fabric part continuously arranged. (2) The garment according to claim (1), wherein the three-dimensional fabric portion is formed of a plurality of interconnected narrow sheets. (3) The narrow fabric piece forming the three-dimensional fabric portion is , the garment according to claim (1), characterized in that it is formed by cutting a part of the fabric constituting the garment. (4) The narrow fabric piece forming the three-dimensional fabric part. 1 constituent unit is 1
．． 1 mm^2 to 8 x 10^4 mm^2 The clothing according to claim (1), (2) or (3), characterized in that it has a size of 1 mm^2 to 8 x 10^4 mm^2.