CN210821288U - Antibacterial composite polyester fiber fabric - Google Patents
Antibacterial composite polyester fiber fabric Download PDFInfo
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- CN210821288U CN210821288U CN201921557633.7U CN201921557633U CN210821288U CN 210821288 U CN210821288 U CN 210821288U CN 201921557633 U CN201921557633 U CN 201921557633U CN 210821288 U CN210821288 U CN 210821288U
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Abstract
The utility model discloses a fabric based on antibacterial composite polyester fiber, which comprises a base layer, a capillary water-conducting layer, an antibacterial polyester layer, a plush layer, an anti-oil stain inner layer, a wear-resistant layer and an anti-oil stain outer layer; an antibacterial polyester layer is arranged on the outer side of the base layer, and a capillary water guide layer is arranged between the antibacterial polyester layer and the base layer; the outer side of the antibacterial polyester layer is provided with a wear-resistant layer, and the outer surface of the wear-resistant layer is covered with an oil-stain-resistant outer layer; a plush layer is arranged on the inner side of the base layer, and an oil-stain-resistant inner layer covers the surface of the plush layer; the base layer is woven by cotton threads; the capillary water-conducting layer is formed by weaving hydrophobic fibers, and is formed by stacking a plurality of layers of hydrophobic fiber mesh fabrics; the surface of the hydrophobic fiber mesh cloth is provided with a plurality of meshes, and the aperture of the meshes of the hydrophobic fiber mesh cloth on the inner side of the capillary water-conducting layer is slightly larger than the meshes of the hydrophobic fiber mesh cloth on the outer side of the capillary water-conducting layer. The utility model has the characteristics of moisture absorption, perspiration, ventilation, heat insulation, antibiosis, one-way moisture conduction, difficult dirty and easy cleaning.
Description
Technical Field
The utility model relates to a based on antibiotic composite polyester fiber surface fabric, especially one kind has moisture absorption, perspire, ventilative, thermal-insulated cold-proof, and is antibiotic, one-way wet-conducting, difficult dirty, easy abluent based on antibiotic composite polyester fiber surface fabric.
Background
Along with the progress of science and technology and the development of economy, the textile industry provides various clothing materials for people, the requirement of people on the clothing materials is higher and higher, and in addition to the attractive and fashionable appearance of textiles, people pay special attention to the comfort, the air permeability and the health of products.
The fabric woven by the polyester yarns has the advantages of good crease resistance and shape retention as a chemical fiber garment fabric which is used in daily life, and various coats can be manufactured by adopting the polyester yarns to manufacture the fabric, but the polyester yarns also have the following defects: clothes made of the polyester yarns are very poor in moisture absorption, prone to feeling stuffy and poor in air permeability, comfort of fabrics is affected, and bacteria are prone to breeding.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a have moisture absorption, perspire, ventilative, thermal-insulated cold-proof, antibiotic, one-way wet-conducting, difficult dirty, easy abluent compound polyester fiber fabric based on antibiotic.
The purpose of the utility model can be realized by the following technical scheme:
an antibacterial composite polyester fiber-based fabric comprises a base layer, a capillary water guide layer, an antibacterial polyester layer, a plush layer, an oil stain prevention inner layer, a wear-resistant layer and an oil stain prevention outer layer;
an antibacterial polyester layer is arranged on the outer side of the base layer, and a capillary water guide layer is arranged between the antibacterial polyester layer and the base layer; the outer side of the antibacterial polyester layer is provided with a wear-resistant layer, and the outer surface of the wear-resistant layer is covered with an oil-stain-resistant outer layer;
a plush layer is arranged on the inner side of the base layer, and an oil-stain-resistant inner layer covers the surface of the plush layer;
the base layer is woven by cotton threads;
the capillary water-conducting layer is formed by weaving hydrophobic fibers, and is formed by stacking a plurality of layers of hydrophobic fiber mesh fabrics; the surface of the hydrophobic fiber mesh cloth is provided with a plurality of meshes which penetrate through the upper side and the lower side of the hydrophobic fiber mesh cloth; the aperture of the meshes of the hydrophobic fiber mesh cloth on the inner side of the capillary water guide layer is slightly larger than the meshes of the hydrophobic fiber mesh cloth on the outer side of the capillary water guide layer;
the antibacterial polyester layer is formed by weaving antibacterial polyester filaments; titanium dioxide nano-particles are embedded in the inner surface of the antibacterial polyester filament yarn which is woven into the antibacterial polyester layer;
the oil stain preventing inner layer and the oil stain preventing outer layer are formed by respectively spraying hydrophobic layer solution on the surface of the plush layer and the outer surface of the wear-resistant layer;
the wear-resistant layer is formed by weaving polyamide fiber yarns.
The utility model provides a based on antibiotic composite polyester fiber surface fabric, have moisture absorption, perspire, ventilative, thermal-insulated cold-proof, antibiotic, one-way wet guide, difficult dirty, easy abluent characteristics. The utility model has the advantages that: meshes with capillary action are formed on the capillary water guide layer, so that moisture on the inner side of the fabric is conducted to an external single phase through the capillary action of the meshes on the capillary water guide layer, the dryness and the smoothness of the inner layer of the fabric are kept, and the breeding of bacteria is reduced;
titanium dioxide nanoparticles are embedded in the inner surface of the antibacterial polyester filament yarn woven into the antibacterial polyester layer, the forbidden bandwidth of the titanium dioxide nanoparticles is 3.2eV, the antibacterial polyester filament yarn 24 is irradiated by light, photons with the wavelength less than or equal to 387.5nm, namely ultraviolet photons jump valence band electrons of the titanium dioxide nanoparticles to a conduction band to generate photo-generated electrons, and the photo-generated electrons decompose and oxidize organic matters adsorbed on the surface of the fabric into OH-、H2O,OH-The oxidation capability of the catalyst is a strong oxidant existing in the water body and can oxidize most of the waterOrganic matter and inorganic pollutant to produce small inorganic molecule and CO2And H2O and other harmless substances, the antibacterial capability of the fabric is improved,
the plush layer adopts a fluffy structure and has good moisture absorption, sweat discharge, ventilation, heat insulation and warmth retention;
the inner oil stain preventing layer and the outer oil stain preventing layer are formed by respectively spraying hydrophobic layer solution on the surface of the plush layer and the outer surface of the wear-resistant layer, and the hydrophobic layer solution is a product Ultra-EverDry integrating hydrophobicity and oleophobicity of UltraTech in America; the inner oil-proof layer and the outer oil-proof layer effectively prevent oil stains and stains on the inner part and the outer part of the fabric, so that the fabric is not easy to stain and is easy to clean;
the wear-resistant layer woven by the polyamide fiber yarns improves the wear resistance and durability of the fabric.
Drawings
In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.
Fig. 1 is the utility model relates to a structural schematic diagram based on antibiotic composite polyester fiber surface fabric.
Detailed Description
The purpose of the utility model can be realized by the following technical scheme:
an antibacterial composite polyester fiber-based fabric is disclosed, and is shown in figure 1, and comprises a base layer 1, a capillary water-conducting layer 2, an antibacterial polyester layer 3, a plush layer 4, an oil stain-proof inner layer 5, a wear-resistant layer 6 and an oil stain-proof outer layer 7;
an antibacterial polyester layer 3 is arranged on the outer side of the base layer 1, and a capillary water conducting layer 2 is arranged between the antibacterial polyester layer 3 and the base layer 1; the outer side of the antibacterial polyester layer 3 is provided with a wear-resistant layer 6, and the outer surface of the wear-resistant layer 6 is covered with an oil-stain-resistant outer layer 7;
a plush layer 4 is arranged on the inner side of the base layer 1, and an oil-proof inner layer 5 covers the surface of the plush layer 4;
the base layer 1 is woven by cotton threads;
the capillary water-conducting layer 2 is formed by weaving hydrophobic fibers, and the capillary water-conducting layer 2 is formed by stacking a plurality of layers of hydrophobic fiber mesh fabrics; the surface of the hydrophobic fiber mesh cloth is provided with a plurality of meshes which penetrate through the upper side and the lower side of the hydrophobic fiber mesh cloth; the mesh aperture of the hydrophobic fiber mesh cloth on the inner side of the capillary water-conducting layer 2 is slightly larger than that of the hydrophobic fiber mesh cloth on the outer side of the capillary water-conducting layer 2, and meshes with capillary action are formed on the capillary water-conducting layer 2, so that water on the inner side of the fabric is conducted outwards in a single phase through the capillary action of the meshes on the capillary water-conducting layer 2, the dryness and the smoothness of the inner layer of the fabric are kept, and the breeding of bacteria is reduced;
the antibacterial polyester layer 3 is formed by weaving antibacterial polyester filaments; titanium dioxide nano particles are embedded in the inner surface of the antibacterial polyester filament yarn woven into the antibacterial polyester layer 3, the forbidden bandwidth of the titanium dioxide nano particles is 3.2eV, the light irradiates the antibacterial polyester filament yarn 24, photons with the wavelength less than or equal to 387.5nm, namely ultraviolet photons jump valence band electrons of the titanium dioxide nano particles to a conduction band to generate photo-generated electrons, and the photo-generated electrons decompose and oxidize organic matters adsorbed on the surface of the fabric into OH-、H2O,OH-The oxidation capability of the catalyst is a strong oxidant existing in water, and can oxidize most of organic matters and inorganic pollutants to generate inorganic micromolecules and CO2And H2O and other harmless substances, so that the antibacterial capacity of the fabric is improved;
the plush layer 4 adopts a fluffy structure and has good moisture absorption, sweat discharge, ventilation, heat insulation and warmth retention;
the oil stain prevention inner layer 5 and the oil stain prevention outer layer 7 are formed by respectively spraying hydrophobic layer solutions on the surface of the plush layer 4 and the outer surface of the wear-resistant layer 6, and the hydrophobic layer solutions are integrated products of water repellency and oil repellency of UltraTech in America; the inner oil stain preventing layer 5 and the outer oil stain preventing layer 7 effectively prevent oil stains and stains on the inner part and the outer part of the fabric, so that the fabric is not easy to stain and is easy to clean;
the wear-resistant layer 6 is formed by weaving polyamide fiber yarns, and the wear-resistant layer 6 formed by weaving the polyamide fiber yarns improves the wear resistance and durability of the fabric.
The utility model discloses a theory of operation:
the mesh aperture of the hydrophobic fiber mesh cloth on the inner side of the capillary water guide layer 2 is slightly larger than that of the hydrophobic fiber mesh cloth on the outer side of the capillary water guide layer 2, and meshes with capillary action are formed on the capillary water guide layer 2, so that the moisture on the inner side of the fabric is conducted outwards in a single phase through the capillary action of the meshes on the capillary water guide layer 2, the dryness and the smoothness of the inner layer of the fabric are kept, and the breeding of bacteria is reduced;
titanium dioxide nano particles are embedded in the inner surface of the antibacterial polyester filament yarn woven into the antibacterial polyester layer 3, the forbidden bandwidth of the titanium dioxide nano particles is 3.2eV, the light irradiates the antibacterial polyester filament yarn 24, photons with the wavelength less than or equal to 387.5nm, namely ultraviolet photons jump valence band electrons of the titanium dioxide nano particles to a conduction band to generate photo-generated electrons, and the photo-generated electrons decompose and oxidize organic matters adsorbed on the surface of the fabric into OH-、H2O,OH-The oxidation capability of the catalyst is a strong oxidant existing in water, and can oxidize most of organic matters and inorganic pollutants to generate inorganic micromolecules and CO2And H2O and other harmless substances, so that the antibacterial capacity of the fabric is improved;
the plush layer 4 adopts a fluffy structure and has good moisture absorption, sweat discharge, ventilation, heat insulation and warmth retention;
the oil stain prevention inner layer 5 and the oil stain prevention outer layer 7 are formed by respectively spraying hydrophobic layer solutions on the surface of the plush layer 4 and the outer surface of the wear-resistant layer 6, and the hydrophobic layer solutions are integrated products of water repellency and oil repellency of UltraTech in America; the inner oil stain preventing layer 5 and the outer oil stain preventing layer 7 effectively prevent oil stains and stains on the inner part and the outer part of the fabric, so that the fabric is not easy to stain and is easy to clean;
the wear-resistant layer 6 woven by the polyamide fiber yarns improves the wear resistance and durability of the fabric.
The utility model provides a based on antibiotic composite polyester fiber surface fabric, have moisture absorption, perspire, ventilative, thermal-insulated cold-proof, antibiotic, one-way wet guide, difficult dirty, easy abluent characteristics. The utility model has the advantages that: meshes with capillary action are formed on the capillary water guide layer, so that moisture on the inner side of the fabric is conducted to an external single phase through the capillary action of the meshes on the capillary water guide layer, the dryness and the smoothness of the inner layer of the fabric are kept, and the breeding of bacteria is reduced;
the inner surface of the antibacterial polyester filament yarn woven into the antibacterial polyester layer is embedded with titanium dioxide nano particles, the forbidden bandwidth of the titanium dioxide nano particles is 3.2eV, and the antibacterial polyester filament yarn is irradiated by lightPhotons of light with the wavelength less than or equal to 387.5nm, namely ultraviolet photons, on the antibacterial polyester filament 24 jump valence band electrons of titanium dioxide nanoparticles to a conduction band to generate photogenerated electrons, and the photogenerated electrons decompose and oxidize organic matters adsorbed on the surface of the fabric into OH-、H2O,OH-The oxidation capability of the catalyst is a strong oxidant existing in water, and can oxidize most of organic matters and inorganic pollutants to generate inorganic micromolecules and CO2And H2O and other harmless substances, the antibacterial capability of the fabric is improved,
the plush layer adopts a fluffy structure and has good moisture absorption, sweat discharge, ventilation, heat insulation and warmth retention;
the inner oil stain preventing layer and the outer oil stain preventing layer are formed by respectively spraying hydrophobic layer solution on the surface of the plush layer and the outer surface of the wear-resistant layer, and the hydrophobic layer solution is a product Ultra-EverDry integrating hydrophobicity and oleophobicity of UltraTech in America; the inner oil-proof layer and the outer oil-proof layer effectively prevent oil stains and stains on the inner part and the outer part of the fabric, so that the fabric is not easy to stain and is easy to clean;
the wear-resistant layer woven by the polyamide fiber yarns improves the wear resistance and durability of the fabric.
The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.
Claims (4)
1. An antibacterial composite polyester fiber-based fabric comprises a base layer (1), a capillary water-conducting layer (2), an antibacterial polyester layer (3), a plush layer (4), an oil stain-proof inner layer (5), a wear-resistant layer (6) and an oil stain-proof outer layer (7), and is characterized in that;
an antibacterial polyester layer (3) is arranged on the outer side of the base layer (1), and a capillary water conducting layer (2) is arranged between the antibacterial polyester layer (3) and the base layer (1); a wear-resistant layer (6) is arranged on the outer side of the antibacterial polyester layer (3), and an oil-stain-resistant outer layer (7) covers the outer surface of the wear-resistant layer (6);
a plush layer (4) is arranged on the inner side of the base layer (1), and an oil-stain-resistant inner layer (5) covers the surface of the plush layer (4);
the base layer (1) is woven by cotton threads;
the capillary water-conducting layer (2) is formed by weaving hydrophobic fibers, and the capillary water-conducting layer (2) is formed by stacking a plurality of layers of hydrophobic fiber mesh fabrics; the surface of the hydrophobic fiber mesh cloth is provided with a plurality of meshes which penetrate through the upper side and the lower side of the hydrophobic fiber mesh cloth; the mesh aperture of the hydrophobic fiber mesh cloth on the inner side of the capillary water-conducting layer (2) is slightly larger than that of the hydrophobic fiber mesh cloth on the outer side of the capillary water-conducting layer (2).
2. The antibacterial composite polyester fiber-based fabric according to claim 1, wherein the antibacterial polyester layer (3) is woven from antibacterial polyester filaments; titanium dioxide nano particles are embedded in the inner surface of the antibacterial polyester filament yarn woven into the antibacterial polyester layer (3).
3. The antibacterial composite polyester fiber-based fabric according to claim 1, wherein the oil stain prevention inner layer (5) and the oil stain prevention outer layer (7) are formed by respectively spraying hydrophobic layer solutions on the surface of the plush layer (4) and the outer surface of the wear-resistant layer (6).
4. The antibacterial composite polyester fiber-based fabric according to claim 1, wherein the wear-resistant layer (6) is woven from polyamide fiber yarns.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921557633.7U CN210821288U (en) | 2019-09-19 | 2019-09-19 | Antibacterial composite polyester fiber fabric |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921557633.7U CN210821288U (en) | 2019-09-19 | 2019-09-19 | Antibacterial composite polyester fiber fabric |
Publications (1)
Publication Number | Publication Date |
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CN210821288U true CN210821288U (en) | 2020-06-23 |
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Application Number | Title | Priority Date | Filing Date |
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CN201921557633.7U Expired - Fee Related CN210821288U (en) | 2019-09-19 | 2019-09-19 | Antibacterial composite polyester fiber fabric |
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CN (1) | CN210821288U (en) |
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2019
- 2019-09-19 CN CN201921557633.7U patent/CN210821288U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200623 |
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CF01 | Termination of patent right due to non-payment of annual fee |