CN214655529U - Moisture absorption and sweat releasing uvioresistant composite functional garment fabric - Google Patents
Moisture absorption and sweat releasing uvioresistant composite functional garment fabric Download PDFInfo
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- CN214655529U CN214655529U CN202120719591.3U CN202120719591U CN214655529U CN 214655529 U CN214655529 U CN 214655529U CN 202120719591 U CN202120719591 U CN 202120719591U CN 214655529 U CN214655529 U CN 214655529U
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Abstract
The utility model discloses a moisture absorption sweat-releasing uvioresistant composite functional garment materials, include ground tissue and the flower type tissue that constitutes by warp (1) and the woof that interweaves, the organizational structure of ground tissue is four broken heavy filling organizations that incline, the flower type tissue includes first flower type tissue and second flower type tissue, and the woof includes first latitude (2) and second latitude (3), and the organizational structure of first flower type tissue comprises five pieces of longitude satin tissues that first latitude (2) and warp interweave and five pieces of longitude satin tissues that second latitude (3) and warp interweave, and the organizational structure of second flower type tissue comprises five pieces of longitude satin tissues that first latitude (2) and warp interweave and five pieces of longitude satin tissues that second latitude (3) and warp interweave. The utility model has the characteristics of organizational structure is inseparable, have stereovision and third dimension in the outward appearance.
Description
Technical Field
The utility model relates to a functional garment materials, especially a moisture absorption sweat releasing uvioresistant composite functional garment materials.
Background
With the development of economic technology and the improvement of living standard of people, the demand of people for comfortable and fit functional textiles is continuously improved. For female shirts and skirt fabrics in summer, the fabrics are designed to be thin and have relatively loose organizational structures for good air permeability, but the fabrics generally need to be lined to achieve the effect of preventing accidental exposure; moreover, if the jacquard process is adopted, the patterns designed on the fabric are stiff in appearance and color, and the attractive effect is not good.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a moisture absorption sweat-releasing uvioresistant composite functional garment materials. The utility model has the characteristics of organizational structure is inseparable, have stereovision and third dimension in the outward appearance.
The technical scheme of the utility model: the moisture-absorbing, sweat-releasing and ultraviolet-resisting composite functional garment fabric comprises a ground tissue and a pattern tissue which are formed by mutually interwoven warp yarns and weft yarns, wherein the weft yarns comprise a first weft yarn and a second weft yarn, the tissue structure of the ground tissue is a four-broken oblique heavy weft yarn tissue, the pattern tissue comprises a first pattern tissue and a second pattern tissue, the tissue structure of the first pattern tissue is formed by five weft satin tissues interwoven by the first weft yarn and the warp yarn and five warp satin tissues interwoven by the second weft yarn and the warp yarn, and the tissue structure of the second pattern tissue is formed by five warp satin tissues interwoven by the first weft yarn and the warp yarn and five weft weave tissues interwoven by the second weft yarn and the warp yarn.
In the moisture-absorbing, sweat-releasing and ultraviolet-resisting composite functional garment fabric, the warp yarns are low-temperature cation moisture-absorbing and sweat-releasing polyester filaments.
In the moisture-absorbing, sweat-releasing and uvioresistant composite functional garment fabric, the low-temperature cation moisture-absorbing and sweat-releasing polyester filament yarns are formed by winding two low-temperature cation polyester filament yarns, and micropores with different sizes are formed on the surface and inside of each low-temperature cation polyester filament yarn.
In the moisture-absorbing, sweat-releasing and ultraviolet-resisting composite functional garment fabric, the first weft adopts low-temperature cation ultraviolet-resisting polyester staple fiber yarns, and the second weft adopts low-temperature cation moisture-absorbing and sweat-releasing polyester staple fiber yarns.
In the moisture absorption and sweat releasing uvioresistant composite functional garment fabric, the low-temperature cation uvioresistant polyester staple fiber yarn comprises first low-temperature cation polyester staple fibers, the surfaces of the first low-temperature cation polyester staple fibers are wavy, and the ultraviolet-resistant layer is coated outside the first low-temperature cation polyester staple fibers.
In the moisture-absorbing, sweat-releasing and uvioresistant composite functional garment fabric, the low-temperature cation moisture-absorbing and sweat-releasing polyester staple fiber yarn comprises second low-temperature cation polyester staple fibers, and the second low-temperature cation polyester staple fibers are hollow.
In the moisture-absorbing, sweat-releasing and ultraviolet-resisting composite functional garment fabric, the first weft and the second weft are in an arrangement structure with the ratio of 1: 1.
Compared with the prior art, the utility model discloses in adopt low temperature cation moisture absorption sweat-releasing polyester filament as the warp, adopt low temperature cation anti ultraviolet polyester staple fiber yarn and low temperature cation moisture absorption sweat-releasing polyester staple fiber yarn as the woof respectively, interweave with the warp, form two kinds of flower type organizations for the surface fabric has stereovision, third dimension and aesthetic feeling, and the structure is inseparabler, improves surface fabric intensity, and has good moisture absorption sweat-releasing and uvioresistant performance.
Therefore, the utility model has the characteristics of organizational structure is inseparable, have stereovision and third dimension in the appearance.
Drawings
FIG. 1 is a schematic view of a yarn interlacing structure in a first pattern of stitches;
FIG. 2 is a schematic view of a second pattern weave yarn interlacing structure;
FIG. 3 is a schematic structural diagram of a low-temperature cation moisture-absorbing sweat-releasing polyester filament;
FIG. 4 is a schematic structural view of a low temperature cationic uvioresistant polyester spun yarn;
fig. 5 is a schematic structural diagram of the low-temperature cation moisture-absorbing and sweat-releasing polyester staple yarn.
The labels in the figures are: 1. warp yarns; 2. carrying out weft knitting; 3. weft insertion; 4. low-temperature cation polyester filament; 41. micropores; 5. first low-temperature cationic polyester staple fibers; 51. an anti-violet layer; 6. and the second low-temperature cation polyester staple fiber.
Detailed Description
The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.
Example (b):
the moisture-absorbing, sweat-releasing and ultraviolet-resisting composite functional garment material comprises a ground tissue and a flower type tissue which are formed by warp yarns 1 and weft yarns which are interwoven with each other, wherein the weft yarns comprise a first weft yarn 2 and a second weft yarn 3, the tissue structure of the ground tissue is a four-piece oblique heavy weft yarn structure, the flower type tissue comprises a first flower type tissue and a second flower type tissue, and the tissue structure of the first flower type tissue is formed by five weft satin tissues interwoven by the first weft yarn 2 and the warp yarns and five warp satin tissues interwoven by the second weft yarn 3 and the warp yarns, and is shown in figure 1.
The weave structure of the second pattern weave is composed of five warp satin weaves in which the first weft 2 is interwoven with the warp and five weft satin weaves in which the second weft 3 is interwoven with the warp, as shown in fig. 2.
The warp 1 adopts 450tex low-temperature cation moisture absorption and sweat releasing polyester filament.
As shown in fig. 3, the low-temperature cation moisture-absorbing and sweat-releasing polyester filament yarn is formed by winding two low-temperature cation polyester filament yarns 4, and micropores 41 with different sizes are formed on the surface and inside of the low-temperature cation polyester filament yarns 4. A net-shaped three-dimensional capillary channel is formed between the micropores 41 and 41, which is beneficial to three-dimensional water suction and discharge, the specific surface area of the filament is larger, and the two filaments are wound to form a groove between the two filaments, so that the moisture absorption and quick drying performance and the strength are stronger.
As shown in fig. 4, the first weft 2 is made of 957tex low-temperature cation anti-ultraviolet polyester staple yarns, the low-temperature cation anti-ultraviolet polyester staple yarns comprise first low-temperature cation polyester staple fibers 5, the surface of the first low-temperature cation polyester staple fibers 5 is wavy, and the outer part of the first low-temperature cation polyester staple fibers 5 is coated with an anti-ultraviolet layer 51. The anti-ultraviolet layer 51 and the first low-temperature cation polyester staple fibers 5 are combined more tightly, the adhesion strength is high, and the anti-ultraviolet time is long. The low-temperature cation uvioresistant polyester staple fiber yarn can also be prepared by adding titanium dioxide during the spinning of the first low-temperature cation polyester staple fiber 5 yarn.
As shown in figure 5, the weft B3 adopts 957tex low-temperature cation moisture-absorbing and sweat-releasing polyester staple fiber yarn. The low-temperature cation moisture-absorbing and sweat-releasing polyester staple fiber yarn comprises second low-temperature cation polyester staple fibers 6, and the second low-temperature cation polyester staple fibers 6 are hollow.
The weft A2 and the weft B3 are in an arrangement structure of 1: 1.
The fabric has the advantages that the low-temperature cation moisture-absorbing and sweat-releasing polyester filament yarns are used as warp yarns 1, the low-temperature cation ultraviolet-resistant polyester staple fiber yarns and the low-temperature cation moisture-absorbing and sweat-releasing polyester staple fiber yarns are respectively used as weft yarns and are interwoven with the warp yarns 1 to form two pattern tissues, so that the fabric has layering, stereoscopic impression and aesthetic feeling, the structure is tighter, the strength of the fabric is improved, and the fabric has good moisture-absorbing, sweat-releasing and ultraviolet-resistant performances. And the low-temperature cation moisture-absorbing and sweat-releasing polyester filament yarn can be dyed under the low-temperature condition, so that the energy loss in the dyeing process is reduced, and the environment-friendly requirement is met.
The part of the utility model not detailed is prior art.
Claims (7)
1. The moisture absorption and sweat releasing uvioresistant composite functional garment fabric is characterized in that: the weaving structure of the first pattern type tissue comprises five weft satin tissues interwoven by the first weft (2) and the warp and five warp satin tissues interwoven by the second weft (3) and the second pattern type tissue, and the weaving structure of the second pattern type tissue comprises five warp satin tissues interwoven by the first weft (2) and the warp and five warp satin tissues interwoven by the second weft (3) and the warp.
2. The moisture-absorbing sweat-releasing uvioresistant composite functional garment fabric according to claim 1, characterized in that: the warp (1) adopts low-temperature cation moisture-absorbing and sweat-releasing polyester filament yarns.
3. The moisture-absorbing sweat-releasing uvioresistant composite functional garment fabric according to claim 2, characterized in that: the low-temperature cation moisture-absorbing and sweat-releasing polyester filament yarn is formed by winding two low-temperature cation polyester filament yarns (4), and micropores (41) with different sizes are formed in the surface and the inner part of each low-temperature cation polyester filament yarn (4).
4. The moisture-absorbing sweat-releasing uvioresistant composite functional garment fabric according to claim 1, characterized in that: the first weft (2) is made of low-temperature cation uvioresistant polyester staple fiber yarns, and the second weft (3) is made of low-temperature cation moisture-absorbing and sweat-releasing polyester staple fiber yarns.
5. The moisture-absorbing sweat-releasing uvioresistant composite functional garment fabric according to claim 4, characterized in that: the low-temperature cation uvioresistant polyester staple fiber yarn comprises first low-temperature cation polyester staple fibers (5), the surfaces of the first low-temperature cation polyester staple fibers (5) are wavy, and the outer parts of the first low-temperature cation polyester staple fibers (5) are coated with uvioresistant layers (51).
6. The moisture-absorbing sweat-releasing uvioresistant composite functional garment fabric according to claim 4, characterized in that: the low-temperature cation moisture-absorbing and sweat-releasing polyester staple fiber yarn comprises second low-temperature cation polyester staple fibers (6), and the second low-temperature cation polyester staple fibers (6) are hollow.
7. The moisture-absorbing sweat-releasing uvioresistant composite functional garment fabric according to claim 1, characterized in that: the first weft (2) and the second weft (3) are in a 1:1 arrangement structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120719591.3U CN214655529U (en) | 2021-04-08 | 2021-04-08 | Moisture absorption and sweat releasing uvioresistant composite functional garment fabric |
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CN202120719591.3U CN214655529U (en) | 2021-04-08 | 2021-04-08 | Moisture absorption and sweat releasing uvioresistant composite functional garment fabric |
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CN214655529U true CN214655529U (en) | 2021-11-09 |
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CN202120719591.3U Active CN214655529U (en) | 2021-04-08 | 2021-04-08 | Moisture absorption and sweat releasing uvioresistant composite functional garment fabric |
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2021
- 2021-04-08 CN CN202120719591.3U patent/CN214655529U/en active Active
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