CN219410061U - Woven garment with horizontal bar mechanism - Google Patents

Abstract

The utility model relates to a horizontal stripe mechanism woven garment, which comprises a garment body formed by splicing woven fabric, wherein the woven fabric is formed by interweaving warp yarns and weft yarns, the weft yarns comprise first weft yarns and second weft yarns, one first weft yarn and a plurality of second weft yarns are alternately arranged in the warp direction, the diameter of the first weft yarn is larger than that of the second weft yarn, the first weft yarns extend along the weft direction and form transverse convex strips, transverse grooves are formed between adjacent first weft yarns, the first weft yarns are formed by twisting a plurality of first nylon yarns, the second weft yarns are polyester yarns, and the warp yarns are core spun yarns formed by coating the spandex yarns with the second nylon yarns. According to the utility model, the contact area between the woven fabric and the skin can be reduced by arranging the transverse raised strips and the transverse grooves, the air permeability is better, sweat is not easy to adhere to the skin, and the skin of a human body can be kept in a comfortable state when the fabric is worn or moved in daily life. The warp adopts the covering yarn, and the spandex yarn endows the fabric with better elasticity, so that free movement is ensured.

Description

Woven garment with horizontal bar mechanism

Technical Field

The utility model relates to a woven garment with a horizontal bar mechanism, and belongs to the field of garments.

Background

The sportswear suit is daily life clothing which is worn more in sports, so that sportswear of different styles and different performances is also suitable for different application occasions. The sportswear suit needs to consider the characteristics required by sportswear when a human body exercises, such as good air permeability to facilitate heat dissipation, light weight to reduce exercise burden to the greatest extent, sweat release and skin adhesion prevention to keep a comfortable experience, and excellent elasticity to keep natural exercise; at present, consumers in the whole sportswear industry have higher and higher requirements on sportswear, and the consumers have higher and higher requirements on the appearance change of the sportswear besides the wearing experience of the sportswear. The common fabric of the tatting suit mainly comprises three components of nylon, terylene and polyamide; the nylon fabric has good elasticity, alkali resistance, wear resistance, soft and comfortable hand feeling and highest cost price; compared with nylon, the polyester fabric is stiff, acid-resistant and high-temperature-resistant; the nylon and polyester are in proportion according to the components, the characteristics are between the nylon and polyester, and the higher the nylon component proportion is, the softer the fabric is.

Currently, the tatting suit on the market is mainly realized by the following scheme:

(1) The common polyester yarn and the spandex yarn are interwoven and dyed, so that the sport suit has the advantages of quick drying and elasticity.

(2) The common polyester yarns and the nylon are interwoven and dyed, so that the sport suit has the advantages of good wear resistance, protection and moderate ice feeling.

(3) The common polyester yarns and the cationic polyester yarns are interwoven and dyed, so that the sport suit has different flower gray appearance effects.

The woven suit realized according to the above scheme has the following disadvantages and shortcomings:

(1) Tactile aspect: the tatting suit obtained in the scheme is a common plain weave structure, the contact area of the structure and the skin is large, perspiration is easy to adhere to the skin, and the comfort state of the skin of a human body can not be ensured when the tatting suit is worn daily.

(2) Experience aspect: in the scheme, the moisture absorption and ventilation performance is simply dependent on the natural performance of the fiber, and the perspective ventilation performance is relatively poor; and the scheme without spandex can not ensure the free movement of human bodies.

(3) Visual aspect: the appearance effect obtained by the scheme is single and has no appearance effect of any texture, so that the requirement of current consumers on the appearance change of clothes cannot be met.

In view of this, the present inventors have conducted intensive studies on the above problems, and have produced the present utility model.

Disclosure of Invention

The utility model aims to provide a piece of woven clothing with novel vision, comfortable wearing and more breathable cross bar mechanism.

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

the woven clothing comprises a clothing body formed by splicing woven fabric, wherein the woven fabric is formed by interweaving warp yarns and weft yarns, the weft yarns comprise first weft yarns and second weft yarns, one first weft yarn and a plurality of second weft yarns are alternately arranged in the warp direction, the diameter of the first weft yarn is larger than that of the second weft yarn, the first weft yarns extend along the weft direction and form transverse raised strips, transverse grooves are formed between adjacent first weft yarns, the first weft yarns are formed by twisting a plurality of first nylon yarns, the second weft yarns are polyester yarns, and the warp yarns are core-spun yarns formed by coating the spandex yarns with the second nylon yarns.

As a preferred mode of the present utility model, the first weft yarn is twisted from four 170D/24F or 160D/24F first nylon yarns.

As a preferred mode of the present utility model, one of the first weft yarns and three 300D/48F second weft yarns are alternately arranged in the warp direction.

As a preferred mode of the present utility model, the core spun yarn is formed of a spandex yarn in which the second nylon yarn of 70D/48F is covered with 40D in a spiral manner.

As a preferred mode of the present utility model, 120 warp yarns per inch are arranged in the weft direction, and 98 weft yarns per inch are arranged in the warp direction.

By adopting the technical scheme of the utility model, the contact area between the woven fabric and the skin can be reduced by arranging the transverse raised strips and the transverse grooves, the air permeability is better, sweat is not easy to adhere to the skin, and the skin of a human body can be kept in a comfortable state when the fabric is worn or moved in daily life. The warp yarns and the first weft yarns are made of nylon, the fabric has soft and comfortable hand feeling, is skin-friendly, light and wear-resistant, has good heat conductivity coefficient (the heat conductivity coefficient is 0.26-0.35W/(m.K)), has good contact cool feeling, and is softer, lighter and more comfortable due to the fact that the moisture regain of the nylon fibers is high, the nylon fibers do not pill or static; the second weft yarn adopts polyester, so that the fabric has better shape retention, the warp yarn adopts core spun yarn, and the spandex yarn endows the fabric with better elasticity, so that free movement is ensured.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic diagram of the fabric of the present utility model.

FIG. 3 is a schematic diagram of the organization structure of the present utility model.

In the figure:

lateral protruding strip 11 of clothing body 100

Warp yarn 21 of transverse groove 12

First weft yarn 31 second weft yarn 32

Detailed Description

In order to further explain the technical scheme of the present utility model, the following is described in detail with reference to examples.

Referring to fig. 1 to 3, a bar woven garment includes a garment body 100 formed by splicing (specifically, sewing) woven fabric, the woven fabric is formed by interweaving warp yarns 21 and weft yarns, the weft yarns include first weft yarns 31 and second weft yarns 32, the first weft yarns 31 and the second weft yarns 32 are alternately arranged in a warp direction, the diameter of the first weft yarns 31 is larger than that of the second weft yarns 32, the first weft yarns 31 extend in a weft direction and form transverse raised strips 11, and transverse grooves 12 are formed between adjacent first weft yarns 31, so that the woven fabric has a plurality of transverse grooves 12 and transverse raised strips 11, and the bar mechanism of the fabric is more prominent.

The first weft yarn 31 is formed by twisting a plurality of first nylon yarns, and as a preferable mode of the present utility model, the first weft yarn 31 is formed by twisting four 170D/24F or 160D/24F first nylon yarns, and a thicker yarn is formed by twisting yarns.

The second weft yarn 32 is a polyester yarn, and the warp yarn 21 is a core spun yarn formed by coating spandex yarn with second nylon yarn. As a preferred mode of the present utility model, the core spun yarn is formed of a spandex yarn in which the second nylon yarn of 70D/48F is covered with 40D in a spiral manner. The second nylon yarn has higher F number, further obtains soft and tough hand feeling, further improves skin-friendly property, and the yarn is finer, lighter, thinner and more transparent.

As a preferred mode of the present utility model, one of the first weft yarns 31 and three 300D/48F of the second weft yarns 32 are alternately arranged in the warp direction. In the utility model, the polyester yarn adopts non-matt yarn and has shining luster, and compared with the first weft yarn 31, the non-matt yarn forms a hidden cross bar with luster, and the hidden cross bar forms clear contrast with the transverse raised strips 11 formed by the first weft yarn 31, so that the visual effect of the transverse raised strips 11 is more novel.

Preferably, in the present utility model, the warp yarn 21 and the weft yarn are interwoven in a plain weave manner, in fig. 3, black filled squares indicate that the warp yarn is located above the weft yarn, blank squares indicate that the weft yarn is located above the warp yarn, and as a preferred mode of the present utility model, 120 warp yarns 21 are arranged per inch in the weft direction, 98 weft yarns are arranged per inch in the warp direction, and by matching the warp and weft densities, the fluffiness of the yarn can be considered, and the air permeability, skin-friendly property and shape retention of the surface layer can be improved.

The D of the present utility model, referred to in the industry as denier, refers to the weight (in grams) of 9000 meters of yarn. In the present utility model, F means the number of microfibers in one yarn.

The product form of the present utility model is not limited to the embodiments described herein, and any suitable variations or modifications of the similar concept should be regarded as not departing from the scope of the utility model.

Claims (6)

1. The utility model provides a horizontal bar mechanism woven clothing, includes the clothing body that is spliced by the woven fabric and forms, and woven fabric is interweaved by warp and woof and forms, and the woof includes first woof and second woof, its characterized in that: in the warp direction, first weft yarns and a plurality of second weft yarns are alternately arranged, the diameter of each first weft yarn is larger than that of each second weft yarn, each first weft yarn extends along the weft direction and forms transverse convex strips, transverse grooves are formed between every two adjacent first weft yarns, each first weft yarn is formed by twisting a plurality of first nylon yarns, each second weft yarn is polyester yarns, and each warp yarn is a core spun yarn formed by coating spandex yarns with the corresponding second nylon yarns.

2. A bar woven garment according to claim 1, wherein: the first weft yarn is formed by twisting four 170D/24F or 160D/24F first nylon yarns.

3. A bar woven garment according to claim 2, wherein: in the warp direction, one of the first weft yarns and three 300D/48F second weft yarns are alternately arranged.

4. A bar woven garment according to claim 3, wherein: the core spun yarn is formed by coating 40D of spandex yarn with 70D/48F of the second nylon yarn in a spiral manner.

5. A bar woven garment according to claim 4, wherein: 120 warp yarns per inch are arranged in the weft direction, and 98 weft yarns per inch are arranged in the warp direction.

6. A bar woven garment according to claim 5, wherein: the warp yarns are interwoven with the weft yarns in a plain weave.