CN103046196A - Frock fabric and weaving method thereof - Google Patents
Frock fabric and weaving method thereof Download PDFInfo
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- CN103046196A CN103046196A CN2012105174570A CN201210517457A CN103046196A CN 103046196 A CN103046196 A CN 103046196A CN 2012105174570 A CN2012105174570 A CN 2012105174570A CN 201210517457 A CN201210517457 A CN 201210517457A CN 103046196 A CN103046196 A CN 103046196A
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- fabric
- polyster fibre
- titanium dioxide
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- cotton fiber
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Abstract
The invention relates to frock fabric, in particular to ultraviolet-proof frock fabric and a weaving method thereof and belongs to the technical field of special fabric production. The frock fabric is manufactured through blending yarns in a plain weaving process, wherein polyester fiber occupies 40-50% of the blending yarns, cotton fiber occupies 50-60% of the blending yarns, and nanoscale titanium dioxide is added in the polyester fiber of the fabric during spinning process. The frock fabric is manufactured through special fibers, efficient ultraviolet absorbing materials like inorganic titanium dioxide is added in the fibers during the spinning process, the protective theory is that the ultraviolet-proof fabric can absorb the ultraviolet rays high in energy, and the ultraviolet rays can be converted toward low energy level through leaping of molecular energy level and changed into low-energy heat energy or electromagnetic wave short in wavelength, so that the sunshine strength is reduced, and damage to human body and fabric of the ultraviolet rays is reduced. Simultaneously, the frock fabric further has the effect of being anti-static and hygroscopic and sweat releasing.
Description
Technical field
The present invention relates to a kind of tooling fabric, relate in particular to a kind of tooling fabric and weaving method thereof of antiultraviolet, belong to extraordinary fabric production technical field.
Background technology
The fabric of the antiultraviolet that prior art is produced all is to weave first common cloth usually, then by follow-up means, such as rear arrangement or the coating ultraviolet resistant layer of antiultraviolet auxiliary agent, to give the function of fabric antiultraviolet.Be 201010263156. 0 Chinese invention patents such as application number, disclose a kind of preparation method of UV protection polyester cotton shell fabric, may further comprise the steps: (1) is woven into base cloth through water jet looms with 1/1 plain weave method with organizine and tram; Described organizine is the 240dtex144f POLYESTER HIGH ELASTIC YARN, by 4~5 turns/centimetre twisting process be made; Described tram be the cotton-polyester blend yarn washed of 120dtex72f POLYESTER HIGH ELASTIC YARN and 45,60% cotton 40% by 4~5 turns/centimetre twisting process be made; (2) to the base cloth processing of deoiling; The described processing of deoiling refers to 100 ℃~120 ℃ temperature ranges, spend the base cloth that oil processing liquid makes step (1) under the pressure condition of 300kPa~400kPa and carry out continuous 8 hours refining cloth, the described treatment fluid that deoils comprises 2% decontamination spirit powder, 1.5% hydrogen peroxide, 25% liquid base, and 70~75% pure water; More than each component by weight; (3) in 200 ℃~220 ℃ temperature range, the base cloth to step (2) gained under the pressure condition of 500kPa~600kPa carries out continuous 12 hours circulation colouring; (4) fabric of processing through step (3) is washed, under 100 ℃~110 ℃ temperature conditions, fabric is dried stentering forming with 30~40 m/mins the speed of a motor vehicle again; (5) the uvioresistant auxiliary agent is mixed with the uvioresistant solution that concentration is 35~50 grams per liters, will be dipped in the uvioresistant solution through the fabric that step (4) is processed, carry out soaking two operations of rolling and process; Make again fabric under 180 ℃~190 ℃ temperature, dry stentering forming with 40~50 m/mins speed, make ultraviolet-resistant fabric.The preventing ultraviolet effect of this fabric is unsatisfactory.
Summary of the invention
The objective of the invention is for solving the problems of the technologies described above, a kind of tooling fabric with preventing ultraviolet effect is provided.
Above-mentioned technical purpose of the present invention is achieved by the following technical programs:
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 40~50% in the described blended yarn, and cotton fiber accounts for 50~60%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
Preferred as technique scheme, polyster fibre accounts for 41~49% in the described blended yarn, and cotton fiber accounts for 51~59%.
Preferred as technique scheme, polyster fibre accounts for 42~48% in the described blended yarn, and cotton fiber accounts for 52~58%.
Preferred as technique scheme, polyster fibre accounts for 43~47% in the described blended yarn, and cotton fiber accounts for 53~57%.
Preferred as technique scheme, polyster fibre accounts for 44~46% in the described blended yarn, and cotton fiber accounts for 54~56%.
Preferred as technique scheme, polyster fibre accounts for 45% in the described blended yarn, and cotton fiber accounts for 55%.
Another object of the present invention provides the weaving method of above-mentioned tooling fabric, in spinning process, add Nano titanium dioxide and make polyster fibre, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.
Preferred as technique scheme, the addition of Nano titanium dioxide is 0.2~0.5% of terylene spinning stock solution quality, adding opportunity is spinning while adding.
Preferred as technique scheme, the addition of Nano titanium dioxide is 0.3~0.4% of terylene spinning stock solution quality.
Preferred as technique scheme, the addition of Nano titanium dioxide is 0.35% of terylene spinning stock solution quality.
The fabric of the antiultraviolet that prior art is produced all is to weave first common cloth usually, then by follow-up means, such as rear arrangement or the coating ultraviolet resistant layer of antiultraviolet auxiliary agent, to give the function of fabric antiultraviolet.The present invention then adds Nano titanium dioxide in the drawing process of polyster fibre, make it to become the part of fiber, then with polyster fibre and the mixed spun yarn of cotton fiber, is made into fabric with this yarn by plain weave technique.Show by test, when reeling off raw silk from cocoons, just Nano titanium dioxide incorporated in the polyster fibre that its anti-ultraviolet effect is more stable, effect is also better.
The present invention has following beneficial effect:
Tooling fabric of the present invention adopts special fibre to make, this fiber adds the efficient ultraviolet absorption materials such as inorganic matter titanium dioxide in drawing process, its protection principle is that uvioresistant fabrics absorbs high-octane ultraviolet ray, jump by molecular entergy level makes it to low-yield conversion, become the short electromagnetic wave of low-energy heat energy or wavelength, thereby reduce Exposure to Sunlight intensity, eliminate ultraviolet ray to the harm of human body and fabric.Tooling fabric of the present invention also has the function of antistatic, moisture absorbing and sweat releasing simultaneously.
The specific embodiment
This specific embodiment only is explanation of the invention, is not limitation of the present invention.Any change that those skilled in the art have done after having read specification of the present invention all will be subject to the protection of Patent Law as long as within claim limited range of the present invention.
Embodiment one
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 40% in the described blended yarn, and cotton fiber accounts for 60%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.2% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment two
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 41% in the described blended yarn, and cotton fiber accounts for 59%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.25% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment three
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 42% in the described blended yarn, and cotton fiber accounts for 58%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.3% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment four
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 43% in the described blended yarn, and cotton fiber accounts for 57%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.35% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment five
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 44% in the described blended yarn, and cotton fiber accounts for 56%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.35% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment six
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 45% in the described blended yarn, and cotton fiber accounts for 55%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.4% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment seven
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 46% in the described blended yarn, and cotton fiber accounts for 54%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.4% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment eight
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 47% in the described blended yarn, and cotton fiber accounts for 53%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.45% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment nine
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 48% in the described blended yarn, and cotton fiber accounts for 52%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.45% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment ten
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 49% in the described blended yarn, and cotton fiber accounts for 51%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.5% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Embodiment 11
A kind of tooling fabric, this fabric is made by plain weave technique by blended yarn, and polyster fibre accounts for 50% in the described blended yarn, and cotton fiber accounts for 50%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
The weaving method of above-mentioned tooling fabric adds Nano titanium dioxide and makes polyster fibre in spinning process, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.The addition of Nano titanium dioxide is 0.5% of terylene spinning stock solution quality, and adding opportunity is spinning while adding.
Adopt the woven tooling fabric embodiment five of the present invention, after testing, the result is as shown in the table:
Claims (10)
1. tooling fabric, this fabric is made by plain weave technique by blended yarn, it is characterized in that: polyster fibre accounts for 40~50% in the described blended yarn, and cotton fiber accounts for 50~60%, and the polyster fibre of this fabric adds in drawing process Nano titanium dioxide.
2. a kind of tooling fabric according to claim 1, it is characterized in that: polyster fibre accounts for 41~49% in the described blended yarn, and cotton fiber accounts for 51~59%.
3. a kind of tooling fabric according to claim 1, it is characterized in that: polyster fibre accounts for 42~48% in the described blended yarn, and cotton fiber accounts for 52~58%.
4. a kind of tooling fabric according to claim 1, it is characterized in that: polyster fibre accounts for 43~47% in the described blended yarn, and cotton fiber accounts for 53~57%.
5. a kind of tooling fabric according to claim 1, it is characterized in that: polyster fibre accounts for 44~46% in the described blended yarn, and cotton fiber accounts for 54~56%.
6. a kind of tooling fabric according to claim 1, it is characterized in that: polyster fibre accounts for 45% in the described blended yarn, and cotton fiber accounts for 55%.
7. the weaving method of a kind of tooling fabric according to claim 1, it is characterized in that: in spinning process, add Nano titanium dioxide and make polyster fibre, then polyster fibre and cotton fiber are made yarn by spinning process, then by plain weave technique yarn is made into fabric.
8. the weaving method of a kind of tooling fabric according to claim 3, it is characterized in that: the addition of Nano titanium dioxide is 0.2~0.5% of terylene spinning stock solution quality, adding opportunity is spinning while adding.
9. the weaving method of a kind of tooling fabric according to claim 8, it is characterized in that: the addition of Nano titanium dioxide is 0.3~0.4% of terylene spinning stock solution quality.
10. the weaving method of a kind of tooling fabric according to claim 8, it is characterized in that: the addition of Nano titanium dioxide is 0.35% of terylene spinning stock solution quality.
Priority Applications (1)
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CN2012105174570A CN103046196A (en) | 2012-12-06 | 2012-12-06 | Frock fabric and weaving method thereof |
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CN2012105174570A CN103046196A (en) | 2012-12-06 | 2012-12-06 | Frock fabric and weaving method thereof |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115029853A (en) * | 2022-06-23 | 2022-09-09 | 氢氧(江苏)科技有限公司 | Strong sun-proof knitted double-sided cloth and preparation method thereof |
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CN1123637A (en) * | 1995-07-18 | 1996-06-05 | 冶金工业部钢铁研究总院 | Ultravidet and optical resistant textile |
US20030215632A1 (en) * | 2002-05-17 | 2003-11-20 | Nanya Plastics Corp. | Filament having ultraviolet ray hiding effect and fabric manufactured from said filament |
CN101962854A (en) * | 2010-08-26 | 2011-02-02 | 吴江市恒润织造厂 | Preparation method of UV protection polyester cotton shell fabric |
CN102090731A (en) * | 2010-09-08 | 2011-06-15 | 成进学 | Nano-element anion far infrared uvioresistant electromagnetic wave pollution protective clothing |
CN102776683A (en) * | 2012-07-09 | 2012-11-14 | 昆山市周市惠宏服装厂 | Method for preparing multifunctional fabric |
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2012
- 2012-12-06 CN CN2012105174570A patent/CN103046196A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1123637A (en) * | 1995-07-18 | 1996-06-05 | 冶金工业部钢铁研究总院 | Ultravidet and optical resistant textile |
US20030215632A1 (en) * | 2002-05-17 | 2003-11-20 | Nanya Plastics Corp. | Filament having ultraviolet ray hiding effect and fabric manufactured from said filament |
CN101962854A (en) * | 2010-08-26 | 2011-02-02 | 吴江市恒润织造厂 | Preparation method of UV protection polyester cotton shell fabric |
CN102090731A (en) * | 2010-09-08 | 2011-06-15 | 成进学 | Nano-element anion far infrared uvioresistant electromagnetic wave pollution protective clothing |
CN102776683A (en) * | 2012-07-09 | 2012-11-14 | 昆山市周市惠宏服装厂 | Method for preparing multifunctional fabric |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115029853A (en) * | 2022-06-23 | 2022-09-09 | 氢氧(江苏)科技有限公司 | Strong sun-proof knitted double-sided cloth and preparation method thereof |
CN115029853B (en) * | 2022-06-23 | 2024-02-02 | 氢氧(江苏)科技有限公司 | Strong sun-proof knitted double-sided fabric and preparation method thereof |
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Application publication date: 20130417 |