CN114541030A - Mesh edge wrapping belt with one-way moisture conduction function, clothing and preparation method thereof - Google Patents

Abstract

A mesh edging tape with unidirectional moisture conduction, clothing and a preparation method thereof, comprising the following steps: selecting raw material yarns, using at least three kinds of yarns including hydrophilic yarns, hydrophobic yarns, and elastic yarns As a weaving yarn; the main body of the webbing is formed by integrally weaving the yarn, and the main body of the webbing is woven to form a unidirectional moisture guide part, a hollow mesh part, and a folded connection part, wherein the folded connection part is woven on the unidirectional moisture guide part and the hollow mesh. The middle position of the part, one side of the folded connection part is connected with the unidirectional moisture guide part, and the other side of the folded connection part is connected with the hollow mesh part; the unidirectional moisture guide part is woven into at least two parts including a hydrophobic layer and a hydrophilic layer. Layer structure, a potential difference in water conductivity is formed between the water layer and the hydrophilic layer, so that the water has a directional flow of unidirectional moisture transfer from the hydrophobic layer to the hydrophilic layer. The invention enriches the application and function of the edge wrapping tape, and produces different functional effects under different usage modes.

Description

Mesh edge wrapping belt with one-way moisture conduction function, clothing and preparation method thereof

Technical Field

The invention relates to a woven belt, in particular to a mesh edge-wrapping belt with unidirectional moisture conduction, a garment and a preparation method thereof.

Background

With the improvement of economic level and the development of clothing industry, the auxiliary materials are more and more widely applied in the clothing industry, and are particularly obviously embodied in the aspect of woven belts. Consumers not only meet the appearance of the woven belts, but also continuously increase the demands on the functional woven belts.

With the continuous development of the clothing industry, the woven belts are also continuously developed, the process and the application are continuously updated, and the woven belts with functionality are continuously displayed in front of people. In the application of the prior edge covering belt, most edge covering belt structures are simple, two sides are basically plane structures, changes in appearance such as meshes and flower buds are few, the style is single, the edge covering belt basically has the edge covering function, and other additional functions such as water resistance, cool feeling, antibiosis and the like are few. In daily use, can't lead to the fabric surface with the sweat fast with the sweat after absorbing the sweat to evaporate when the fabric, lead to the sweat to gather at the meshbelt position, make and have the slimy sense when wearing, greatly reduced the comfort of wearing, this is the problem that most meshbelts all exist.

Disclosure of Invention

The invention aims to provide a mesh edge-wrapping belt with unidirectional moisture conduction, a garment and a preparation method thereof.

In order to solve the technical problems, the invention adopts the following technical scheme:

a preparation method of a mesh edge-wrapping belt with unidirectional moisture conduction comprises the following steps:

selecting raw material yarns, and taking at least three kinds of yarns including hydrophilic yarns, hydrophobic yarns and elastic yarns as weaving yarns;

selecting a crochet machine as weaving equipment, integrally weaving yarns to form a braid main body, weaving a one-way moisture-guiding part, a hollowed-out mesh part and a folding connecting part on the braid main body, wherein the folding connecting part is woven in the middle position of the one-way moisture-guiding part and the hollowed-out mesh part, one side of the folding connecting part is connected with the one-way moisture-guiding part, and the other side of the folding connecting part is connected with the hollowed-out mesh part;

the one-way moisture-conducting part is woven into at least two-layer structure including a hydrophobic layer and a hydrophilic layer, and a water-conducting capacity potential difference is formed between the hydrophobic layer and the hydrophilic layer, so that moisture can flow directionally from the hydrophobic layer to the hydrophilic layer in a one-way moisture-conducting manner.

As a further improvement of the scheme, the hydrophobic layer in the one-way moisture-conducting part is woven to form an outer surface layer of the main body of the woven belt, the hydrophilic layer is woven to form a folded inner surface layer of the main body of the woven belt, the hydrophobic layer is woven through hydrophobic yarns, and the hydrophilic yarns and the elastic yarns are combined and woven together to form the elastic hydrophilic layer.

As a further improvement of the scheme, when the folding connection part is formed by weaving, the thickness of the folding connection part is smaller than the thickness of the one-way moisture-conducting part and the hollowed-out mesh part, the thickness of the one-way moisture-conducting part is the same as the thickness of the hollowed-out mesh part, the width of the one-way moisture-conducting part is the same as the width of the hollowed-out mesh part, and the width of the folding connection part is smaller than the width of the one-way moisture-conducting part.

As a further improvement of the scheme, the yarns adopted by the hollowed-out mesh parts are the same as those adopted by the hydrophilic layer in the one-way moisture-conducting part, so that the hollowed-out mesh parts form hydrophilic capacity.

As a further improvement to the scheme, the F number of the hydrophilic yarn is larger than that of the hydrophobic yarn, and the DPF of the hydrophilic yarn₁DPF of hydrophobic yarn less than or equal to 0.5₂Greater than or equal to 1 and DPF₂：DPF₁The denier of the elastic yarn is more than 1 and is more than or equal to 40D.

As a further improvement of the scheme, the width of the one-way moisture-conducting part and the width of the hollowed-out mesh part are more than or equal to 1MM, and particularly more than or equal to 5MM is selected; the width of the folding connection part is more than or equal to 0.5MM, particularly more than or equal to 1MM, and the width of the folding connection part is required to be less than the width of the one-way moisture-conducting part and the hollow mesh part.

As a further improvement of the scheme, a plurality of meshes are woven in the hollowed-out mesh part,the area S of each mesh is more than or equal to 0.5mm²So that the weight of the hollowed-out mesh part is lighter than that of the one-way moisture-conducting part.

As a further improvement of the scheme, the number of the traversing needles of the hydrophilic yarns is different from that of the elastic yarns when the unidirectional moisture guiding part is formed by weaving.

The utility model provides a mesh borduring area with one-way wet of leading, includes the meshbelt main part, be equipped with one-way wet position, folding joint position and the fretwork mesh position of leading in the meshbelt main part, the folding joint position sets up in the one-way centre of leading wet position and fretwork mesh position to this folding joint position is connected with one-way wet position and fretwork mesh position of leading respectively, and one-way wet position of leading has hydrophilic layer and hydrophobic layer, has water guide ability potential difference between hydrophilic layer and the hydrophobic layer.

A dress, comprising the edge-wrapping band.

The invention has the following beneficial effects:

through setting up one-way wet position, folding joint position, fretwork mesh position of leading, the structure is woven to an organic whole, is formed with two kinds of different structural layers to can be as required, lead wet position or fretwork mesh position as the skin surface with one-way, can produce different functional effects under the user mode of difference. The unidirectional moisture-transfer part makes the skin dry and comfortable and has the function of preventing sweat marks; the hollowed-out mesh part has the functions of ventilation, quick drying, skid resistance and rich appearance. After the edge is covered, the cloth edge is more attractive and not easy to wear, and meanwhile, a certain elastic support is provided, so that the clothes are more comfortable to wear.

In addition, when one-way wet position subsides skin of leading, can be quick lead the hydrophilic layer with the sweat by the hydrophobic layer, keep the dry and comfortable of skin face, the evaporation of moisture can be accelerated to fretwork mesh position simultaneously, plays ventilative, quick-drying effect, and the colour of lining cloth, flower type also can show through fretwork mesh position in addition, make the ready-made clothes outward appearance abundanter.

When the hollowed-out mesh part is used as a skin-contacting surface, the belt surface has a height difference, compared with a one-way moisture-conducting part, the friction coefficient of the belt surface and the skin is larger, the skin-contacting anti-skidding effect can be achieved, meanwhile, the hydrophobic layer of the one-way moisture-conducting part is arranged on the outermost layer of the garment, sweat cannot be guided to the outermost layer after being absorbed by a woven belt, and therefore the sweat-printing preventing effect is achieved.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a side schematic view of the present invention;

FIG. 3 is a schematic representation of the present invention for edge covering application;

FIG. 4 is a schematic view of the present invention applied to an undergarment;

fig. 5 is a schematic view of the present invention applied to underpants.

Reference numerals:

1-one-way moisture-conducting part; 2-a folding junction; 3-hollowing out mesh parts; and 4, distributing.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that if the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. are referred to, they refer to the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first" and "second" may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the description of the present invention, it should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. Either mechanically or electrically. They may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example one

As shown in fig. 1-3, the present invention discloses a method for preparing a mesh edge-wrapping tape with unidirectional moisture-transfer, comprising the steps of:

the raw material yarn is selected, and three kinds of yarns, namely hydrophilic yarn, hydrophobic yarn and elastic yarn, are adopted as the knitting yarn.

Selecting a crochet machine as weaving equipment, integrally weaving through yarns to form a braid main body, weaving a one-way moisture guide part 1, a hollowed mesh part 3 and a folding connection part 2 on the braid main body, wherein the folding connection part 2 is woven at the middle positions of the one-way moisture guide part 1 and the hollowed mesh part 3, one side of the folding connection part 2 is connected with the one-way moisture guide part 1, and the other side of the folding connection part 2 is connected with the hollowed mesh part 3. Because the whole is woven integratively and forms, consequently one-way wet position 1, folding joint position 2, fretwork mesh position 3 are the structure of integration, when borduring the processing, one-way wet position of leading uses folding joint position as middle folding point to fold, forms folding laminating with fretwork mesh position, wraps the cloth that is located between this one-way wet position of leading and fretwork mesh position.

The one-way moisture-conducting part 1 is woven into a multi-layer structure comprising a hydrophobic layer 101 and a hydrophilic layer 102, and a water-conducting capacity potential difference is formed between the hydrophobic layer 101 and the hydrophilic layer 102, so that moisture can flow from the hydrophobic layer to the hydrophilic layer in a one-way moisture-conducting manner, the moisture cannot be accumulated on the hydrophobic layer, and the moisture is diffused on the hydrophilic layer, and the effect of skin-sticking dryness is achieved. The hydrophobic layer and the hydrophilic layer can be only provided with one layer or can be in a structure of overlapping a plurality of layers. The one-way moisture-transfer part has a one-way test index OWTC of more than or equal to 100 percent, and the test method AATCC195 can well disperse moisture.

The hydrophobic layer 101 in the one-way moisture-guiding part 1 is woven to form on the outer surface layer of the mesh belt main body, the hydrophilic layer 102 is woven to form on the folding inner surface layer of the mesh belt main body, the hydrophobic yarn is woven to form the hydrophobic layer, the hydrophilic yarn and the elastic yarn are combined and woven together to form the elastic hydrophilic layer, and the folded one-way moisture-guiding part and the hollowed-out mesh parts are overlapped together. When the one-way moisture-conducting part is used as a skin-sticking layer, the hydrophobic layer forms a skin-sticking surface, moisture generated on the skin can be quickly transferred to the hydrophilic layer through the hydrophobic layer, and the dryness of the skin-sticking surface is kept.

Example two

As shown in fig. 1-3, a further improvement is made on the basis of the first embodiment, when the folding connection portion 2 is formed by weaving, the thickness of the folding connection portion 2 is smaller than the thicknesses of the one-way moisture guiding portion 1 and the hollowed-out mesh portion 3, the thickness of the one-way moisture guiding portion 1 is the same as the thickness of the hollowed-out mesh portion 3, the width of the one-way moisture guiding portion 1 is the same as the width of the hollowed-out mesh portion 3, and the width of the folding connection portion 2 is smaller than the width of the one-way moisture guiding portion 1. The thickness of the folding connection part 2 is set to be smaller, so that the folding operation of the one-way moisture-guiding part 1 and the hollowed-out mesh part 3 is facilitated, and the processes of folding the woven belt and wrapping the edge of the ready-made clothes are facilitated. The widths of the one-way moisture-conducting part and the hollowed-out mesh part are set to be the same, so that the integral attractiveness is kept, and the folding and edge covering treatment is facilitated.

In addition, the yarns adopted by the hollowed-out mesh parts are the same as the yarns adopted by the hydrophilic layer in the one-way moisture-conducting part, so that the hollowed-out mesh parts form hydrophilic capacity.

The F number of the hydrophilic yarn is greater than that of the hydrophobic yarnDPF of F number, hydrophilic yarn₁0.5 or less, preferably 0.8; DPF of hydrophobic yarn ₂1 or more, preferably 1.2, and DPF₂：DPF₁> 1, especially a ratio of 1.5; the denier of the elastic yarn is greater than or equal to 40D, preferably 280D.

The width W1 of the one-way moisture-conducting part and the width W2 of the hollowed-out mesh part are more than or equal to 1MM, and particularly more than or equal to 5MM is selected; the width W3 of the folding connection part is more than or equal to 0.5MM, particularly more than or equal to 1MM, and the width of the folding connection part is required to be less than the width of the one-way moisture-conducting part and the hollow mesh part.

During specific weaving, the hydrophobic layer is woven into a velvet bottom by adopting hydrophobic yarns with lower F number, so that the skin-contacting surface is soft.

The weaving process of the hydrophilic layer is formed by weaving bottom wefts, surface wefts and elastic yarns, the yarns adopted by the bottom wefts and the surface wefts are hydrophilic yarns with higher F number, a plane is formed by transversely moving 9 needle positions, and the elastic yarns enable the braid main body to have elastic performance by transversely moving 1 needle position between the bottom wefts and the surface wefts. Due to the difference of yarns adopted by the hydrophobic layer and the hydrophilic layer, a potential difference of water-conducting capacity is formed between the hydrophobic layer and the hydrophilic layer, and sweat rapidly flows from the water-conducting layer to the hydrophilic layer in a directional manner, so that the effect of skin-sticking and dryness is achieved.

The yarns adopted by the hollowed-out mesh part are the same as the yarns adopted by the hydrophilic layer of the one-way moisture-conducting part, but are different in process design, the hollowed-out mesh part is formed by the bottom weft and the surface weft through the change of the number of the traversing needles, and the mesh is formed by the traversing circulation if the traversing circulation is 1-3-1-3-2-4-2-4-2-3. After sweat is directionally guided to the hydrophilic layer from the hydrophobic layer, due to the hollow structure of the position, evaporation of moisture can be accelerated, and the effects of ventilation and quick drying are achieved. The color and the pattern of the inner cloth of the inner layer can be displayed through the hollowed-out mesh parts, so that the appearance is richer.

The folding connection part is convenient for fold, 1 needle position of sideslip, and thickness is thinner than one-way wet position of leading and fretwork mesh position, only need connect can, and this meshbelt main part passes through the end latitude and connects.

In addition, a plurality of meshes are woven in the hollowed-out mesh part,the area S of each mesh is more than or equal to 0.5mm²Preferably 1mm². Compared with a one-way moisture-conducting part, the material is saved under the condition of the same width, the gram weight is lighter, and the design of light weight is realized. The larger the hollowed meshes are, the lighter the weight is, and the better the moisture permeability is.

In the invention, as shown in fig. 3, when the specific edge covering is carried out, the hollowed-out mesh part is taken as an outer layer surface, the cloth is placed in the middle, then the unidirectional moisture-conducting part 1 and the hollowed-out mesh part 3 are folded to wrap the cloth 4, the unidirectional moisture-conducting part is taken as a skin-adhering layer, the hollowed-out mesh part is taken as an outer layer of the clothes, and the color and the pattern of the cloth can be displayed outwards due to the plurality of hole sites on the hollowed-out mesh part, so that the appearance is richer.

The edge wrapping belt has different using modes, and can use the one-way moisture-conducting part as a skin-sticking layer and also can use the hollowed-out mesh part as a skin-sticking layer.

When one-way wet position of leading contacts with skin as the skin layer, the hydrophobic layer is as outer, consequently direct and skin contact has the surface, the juice that the human body produced at first contacts skin, can be quick through the hydrophobic layer with sweat direction hydrophilic layer, keep the dry and comfortable of skin surface, the evaporation of moisture can be accelerated to fretwork mesh position simultaneously, play ventilative, the effect of fast drying, and the colour of lining cloth, the flower type also can show through fretwork mesh position, make the ready-made clothes outward appearance abundanter, as shown in fig. 3, the colour of cloth of inlayer, the flower type is shown through fretwork mesh position.

When the hollowed-out mesh position is used as a skin-contacting surface, the hollowed-out mesh position is provided with a plurality of meshes, so that the belt surface of the hollowed-out mesh position has a height difference, and compared with a one-way moisture-conducting position, the friction coefficient of the hollowed-out mesh position and the skin is larger, the skin-contacting anti-skidding effect can be achieved, meanwhile, the hydrophobic layer of the one-way moisture-conducting position is arranged on the outermost layer of the garment, sweat cannot be guided to the outermost layer after being absorbed by the woven belt, and the sweat-contacting prevention effect is achieved.

EXAMPLE III

A dress adopts the edge-wrapping belt prepared by the method, as shown in figures 4 and 5, the edge-wrapping belt is respectively applied to underwear and underpants, so that the moisture-conducting capacity of the dress can be effectively improved, and the dryness and the smoothness can be kept. The unidirectional moisture-guiding part can be used as a skin-sticking surface, and the hollowed-out mesh part can also be used as the skin-sticking surface, and can be flexibly set according to different use occasions.

Although the present invention has been described in detail with reference to the embodiments, it will be apparent to those skilled in the art that modifications, equivalents, improvements, and the like can be made in the technical solutions of the foregoing embodiments or in some of the technical features of the foregoing embodiments, but those modifications, equivalents, improvements, and the like are all within the spirit and principle of the present invention.

Claims (10)

1. A preparation method of a mesh edge-wrapping belt with unidirectional moisture conduction is characterized by comprising the following steps:

selecting raw material yarns, and taking at least three kinds of yarns including hydrophilic yarns, hydrophobic yarns and elastic yarns as weaving yarns;

selecting a crochet machine as weaving equipment, integrally weaving through yarns to form a braid main body, weaving a one-way moisture-guiding part, a hollowed-out mesh part and a folding connecting part on the braid main body, wherein the folding connecting part is woven in the middle position of the one-way moisture-guiding part and the hollowed-out mesh part, one side of the folding connecting part is connected with the one-way moisture-guiding part, and the other side of the folding connecting part is connected with the hollowed-out mesh part;

the unidirectional moisture-conducting position is woven into at least two-layer structure with a hydrophobic layer and a hydrophilic layer, and a water-conducting capacity potential difference is formed between the hydrophobic layer and the hydrophilic layer, so that moisture can flow directionally from the hydrophobic layer to the hydrophilic layer in a unidirectional moisture-conducting manner.

2. The method for preparing the mesh edge covering belt with the one-way moisture guide function according to claim 1, wherein the hydrophobic layer in the one-way moisture guide part is woven to form an outer surface layer of the main body of the mesh belt, the hydrophilic layer is woven to form a folded inner surface layer of the main body of the mesh belt, the hydrophobic layer is woven through the hydrophobic yarns, and the hydrophilic yarns and the elastic yarns are combined and woven to form the hydrophilic layer with elasticity.

3. The method for preparing the mesh edge covering belt with the one-way moisture guide function according to claim 2, wherein when the folding connection part is formed by weaving, the thickness of the folding connection part is smaller than the thickness of the one-way moisture guide part and the thickness of the hollowed-out mesh part, the thickness of the one-way moisture guide part is the same as the thickness of the hollowed-out mesh part, the width of the one-way moisture guide part is the same as the width of the hollowed-out mesh part, and the width of the folding connection part is smaller than the width of the one-way moisture guide part.

4. The method for preparing the mesh edge covering belt with the one-way moisture permeability as claimed in claim 3, wherein the same yarns are used for the hollowed-out mesh parts as for the hydrophilic layer in the one-way moisture permeability part, so that the hollowed-out mesh parts have the hydrophilic capability.

5. Method for preparing a mesh edge-wrapping tape with unidirectional moisture transmission according to claim 4, characterized in that said hydrophilic yarns have an F-number greater than that of the hydrophobic yarns, the DPF of the hydrophilic yarns₁DPF of hydrophobic yarn less than or equal to 0.5₂Greater than or equal to 1 and DPF₂：DPF₁The denier of the elastic yarn is more than 1 and is more than or equal to 40D.

6. The method for preparing the mesh edge-wrapping belt with the one-way moisture-conducting function according to claim 5, wherein the width of the one-way moisture-conducting part and the width of the hollowed-out mesh part are more than or equal to 1MM, and more than or equal to 5MM is particularly selected; the width of the folding connection part is more than or equal to 0.5MM, particularly more than or equal to 1MM, and the width of the folding connection part is required to be less than the width of the one-way moisture-conducting part and the hollow mesh part.

7. A method of making a mesh edge-wrapping tape with one-way moisture wicking as in claim 6, wherein the tape comprises a woven fabricIs characterized in that a plurality of meshes are woven in the hollowed-out mesh part, and the area S of each mesh is more than or equal to 0.5mm²So that the weight of the hollowed-out mesh part is lighter than that of the one-way moisture-conducting part.

8. The method for preparing a mesh edge covering belt with one-way moisture permeability as claimed in claim 7, wherein the number of the traversing needle of the hydrophilic yarn is different from that of the traversing needle of the elastic yarn when the one-way moisture permeability part is formed by weaving.

9. The utility model provides a mesh bordure area with one-way wet of leading, its characterized in that, includes the meshbelt main part, be equipped with one-way wet position, folding joint position and fretwork mesh position of leading in the meshbelt main part, the folding joint position sets up in the middle of one-way wet position and fretwork mesh position of leading to this folding joint position is connected with one-way wet position and fretwork mesh position of leading respectively, and one-way wet position of leading has hydrophilic layer and hydrophobic layer, has water guide ability potential difference between hydrophilic layer and the hydrophobic layer.

10. Clothing article, characterized in that it comprises the edge-wrapped band produced by the production method according to any one of claims 1 to 8.

Images