CN103061161A - Preparation method of nano anion kapok fiber fabric and applications of nano anion kapok fiber fabric in home textile product - Google Patents
Preparation method of nano anion kapok fiber fabric and applications of nano anion kapok fiber fabric in home textile product Download PDFInfo
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- CN103061161A CN103061161A CN2013100229745A CN201310022974A CN103061161A CN 103061161 A CN103061161 A CN 103061161A CN 2013100229745 A CN2013100229745 A CN 2013100229745A CN 201310022974 A CN201310022974 A CN 201310022974A CN 103061161 A CN103061161 A CN 103061161A
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Abstract
The invention aims at disclosing a preparation method of nano anion kapok fiber fabric and applications of nano anion kapok fiber fabric in a home textile product. The preparation method comprises the following steps of complexly coordinating of a kapok fiber and anions to prepare the nano anion kapok fiber, baking, spinning, weaving, printing and dyeing to prepare the nano anion kapok fiber fabric. Compared with the prior art, the preparation method has the original characteristics of fineness, lightness, high hollowness degree, good warmth retention property and the like are kept, and an anion health function is realized. Therefore, the target of the preparation method is achieved.
Description
Technical field
The present invention relates to a kind of preparation method of fabric lining and the application in home textile product thereof, particularly a kind of preparation method of nano-negative ion bombax cotton fabric and the application in home textile product thereof.
Background technology
Along with the raising of people's awareness of environment protection and health, the textile product of making such as cotton, fiber crops, wool and bombax cotton etc. with natural fabric more and more is subjected to people's welcome, and these fibers are not from petrochemical materials, discarded rear easily degraded.The application of natural fabric in home textile product also more and more is subjected to people's welcome.
Bombax cotton is a kind of applicating history fiber for a long time in China, and along with the progress of technology, the harvesting of bombax cotton and spinning technique also further improve, and bombax cotton has very large application potential.
Bombax cotton has carefully, light, degree of hollowness is high and the excellent properties such as warming.
Therefore, need especially a kind of preparation method of nano-negative ion bombax cotton fabric and the application in home textile product thereof, to solve the above-mentioned existing problem that exists.
Summary of the invention
The object of the present invention is to provide a kind of preparation method of nano-negative ion bombax cotton fabric and the application in home textile product thereof, for the deficiencies in the prior art, both keep original thin, light, characteristics such as degree of hollowness is high and warmth retention property is good, had again the negative ion health function.
Technical problem solved by the invention can realize by the following technical solutions:
On the one hand, the invention provides a kind of preparation method of nano-negative ion bombax cotton fabric, it is characterized in that it comprises the steps: that bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and nano-negative ion bombax cotton fabric is made in printing and dyeing.
In one embodiment of the invention, described bombax cotton carries out the anion composite finishing with the anion composite finishing agent and obtains the nano-negative ion bombax cotton by dipping or spray pattern.
Further, described impregnation method carries out the anion composite finishing for bombax cotton is immersed in the anion composite finishing agent, and the time of dipping is 20-50min, after dipping is finished, dewaters; The consumption of described anion composite finishing agent is 10-40%(o.w.f), bath raio is 1:15, bath temperature 10-50 ℃.
Further, described spray pattern carries out the anion composite finishing for the anion composite finishing agent is sprayed onto on the bombax cotton, and the consumption of described anion composite finishing agent is 4-20%(o.w.f).
In one embodiment of the invention, described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1.
Further, described nano-negative ion auxiliary agent spins the FK830 of chemical industry in being or becomes the A-500 of large chemical industry.
Further, described softener spins the softener FK-696 of chemical industry in being.
Further, described crosslinking agent spins the FK-839F of chemical industry in being.
In one embodiment of the invention, the temperature of described oven dry is 40-90 ℃, and the time of oven dry is 4-8h.
In one embodiment of the invention, described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
In one embodiment of the invention, the anion burst size of described nano-negative ion bombax cotton is 2900-5100/m
3
In one embodiment of the invention, the anion burst size of described nano-negative ion bombax cotton fabric reaches 2500-4000/m
3, after 20 washings, the anion burst size reaches 2200-3500/m
3
On the other hand, the invention provides the application of a kind of nano-negative ion bombax cotton fabric in home textile product, it is characterized in that, described nano-negative ion bombax cotton fabric is used for making bed necessaries or the external member that family is spun.
The preparation method of nano-negative ion bombax cotton fabric of the present invention and the application in home textile product thereof, compared with prior art, both keep original thin, light, characteristics such as degree of hollowness is high and warmth retention property is good, had again the negative ion health function, realized purpose of the present invention.
Characteristics of the present invention can be consulted the detailed description of the following better embodiment of this case and be obtained to be well understood to.
The specific embodiment
For technological means, creation characteristic that the present invention is realized, reach purpose and effect is easy to understand, further set forth the present invention below in conjunction with concrete.
The preparation method of nano-negative ion bombax cotton fabric of the present invention, it comprises the steps: that bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and the nano-negative ion bombax cotton is made in printing and dyeing.
In of the present invention, described bombax cotton carries out the anion composite finishing by dipping or spray pattern with the anion composite finishing agent and obtains the nano-negative ion bombax cotton.
Described impregnation method carries out the anion composite finishing for bombax cotton is immersed in the anion composite finishing agent, the time of dipping is 20-50min, after dipping is finished, dewaters; The consumption of described anion composite finishing agent is 10-40%(o.w.f), bath raio is 1:15, bath temperature 10-50 ℃.
Described spray pattern carries out the anion composite finishing for the anion composite finishing agent is sprayed onto on the bombax cotton, the consumption of described anion composite finishing agent is 4-20%(o.w.f).
In the present invention, described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1.
Described nano-negative ion auxiliary agent spins the FK830 of chemical industry in being or becomes the A-500 of large chemical industry.
Described softener spins the softener FK-696 of chemical industry in being.
Described crosslinking agent spins the FK-839F of chemical industry in being.
In the present invention, the temperature of described oven dry is 40-90 ℃, and the time of oven dry is 4-8h.
In the present invention, described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
In the present invention, the anion burst size of described nano-negative ion bombax cotton is 2900-5100/m
3
In the present invention, the anion burst size of described nano-negative ion bombax cotton fabric reaches 2500-4000/m
3, after 20 washings, the anion burst size reaches 2200-3500/m
3
The application of nano-negative ion bombax cotton fabric of the present invention in home textile product, described nano-negative ion bombax cotton fabric are used for making bed necessaries or the external member that family is spun.
Embodiment 1
Processing step: bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and nano-negative ion bombax cotton fabric is made in printing and dyeing.
Wherein, the bombax cotton of selecting is the common kapok fiber raw material of textile industry.
Described bombax cotton carries out the anion composite finishing by dipping with the anion composite finishing agent and obtains the nano-negative ion bombax cotton.
Described impregnation method carries out the anion composite finishing for bombax cotton is immersed in the anion composite finishing agent, the time of dipping is 20min, after dipping is finished, dewaters; The consumption of described anion composite finishing agent is 10%(o.w.f), bath raio is 1:15,10 ℃ of bath temperature.
Described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1; Described nano-negative ion auxiliary agent spins the FK830 of chemical industry in being; Described softener spins the softener FK-696 of chemical industry in being; Described crosslinking agent spins the FK-839F of chemical industry in being.
The temperature of described oven dry is 40 ℃, and the time of oven dry is 4h.
Described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
The anion burst size of the nano-negative ion bombax cotton for preparing is 2900/m
3
The nano-negative ion bombax cotton fabric that makes reaches the requirement of GB18401, and the anion burst size reaches 2500/m
3, after 20 washings, the anion burst size reaches 2200/m
3
Embodiment 2
Processing step: bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and nano-negative ion bombax cotton fabric is made in printing and dyeing.
Wherein, the bombax cotton of selecting is the common kapok fiber raw material of textile industry.
Described bombax cotton carries out the anion composite finishing by dipping with the anion composite finishing agent and obtains the nano-negative ion bombax cotton.
Described impregnation method carries out the anion composite finishing for bombax cotton is immersed in the anion composite finishing agent, the time of dipping is 50min, after dipping is finished, dewaters; The consumption of described anion composite finishing agent is 40%(o.w.f), bath raio is 1:15,50 ℃ of bath temperature.
Described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1; Described nano-negative ion auxiliary agent is into the A-500 of large chemical industry; Described softener spins the softener FK-696 of chemical industry in being; Described crosslinking agent spins the FK-839F of chemical industry in being.
The temperature of described oven dry is 90 ℃, and the time of oven dry is 8h.
Described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
The anion burst size of the nano-negative ion bombax cotton for preparing is 4500/m
3
The nano-negative ion bombax cotton fabric that makes reaches the requirement of GB18401, and the anion burst size reaches 3500/m
3, after 20 washings, the anion burst size reaches 3100/m
3
Embodiment 3
Processing step: bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and nano-negative ion bombax cotton fabric is made in printing and dyeing.
Wherein, the bombax cotton of selecting is the common kapok fiber raw material of textile industry.
Described bombax cotton carries out the anion composite finishing by dipping with the anion composite finishing agent and obtains the nano-negative ion bombax cotton.
Described impregnation method carries out the anion composite finishing for bombax cotton is immersed in the anion composite finishing agent, the time of dipping is 35min, after dipping is finished, dewaters; The consumption of described anion composite finishing agent is 25%(o.w.f), bath raio is 1:15,25 ℃ of bath temperature.
Described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1; Described nano-negative ion auxiliary agent spins the FK830 of chemical industry in being; Described softener spins the softener FK-696 of chemical industry in being; Described crosslinking agent spins the FK-839F of chemical industry in being.
The temperature of described oven dry is 65 ℃, and the time of oven dry is 6h.
Described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
The anion burst size of the nano-negative ion bombax cotton for preparing is 3800/m
3
The nano-negative ion bombax cotton fabric that makes reaches the requirement of GB18401, and the anion burst size reaches 3200/m
3, after 20 washings, the anion burst size reaches 3000/m
3
Embodiment 4
Processing step: bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and nano-negative ion bombax cotton fabric is made in printing and dyeing.
Wherein, the bombax cotton of selecting is the common kapok fiber raw material of textile industry.
Described bombax cotton carries out the anion composite finishing by sprinkling with the anion composite finishing agent and obtains the nano-negative ion bombax cotton.
Described spray pattern carries out the anion composite finishing for the anion composite finishing agent is sprayed onto on the bombax cotton, the consumption of described anion composite finishing agent is 4%(o.w.f).
Described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1; Described nano-negative ion auxiliary agent spins the FK830 of chemical industry in being; Described softener spins the softener FK-696 of chemical industry in being; Described crosslinking agent spins the FK-839F of chemical industry in being.
The temperature of described oven dry is 40 ℃, and the time of oven dry is 4h.
Described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
The anion burst size of the nano-negative ion bombax cotton for preparing is 4500/m
3
The nano-negative ion bombax cotton fabric that makes reaches the requirement of GB18401, and the anion burst size reaches 3500/m
3, after 20 washings, the anion burst size reaches 3200/m
3
Embodiment 5
Processing step: bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and the nano-negative ion bombax cotton is made in printing and dyeing.
Wherein, the bombax cotton of selecting is the common kapok fiber raw material of textile industry.
Described bombax cotton carries out the anion composite finishing by sprinkling with the anion composite finishing agent and obtains the nano-negative ion bombax cotton.
Described spray pattern carries out the anion composite finishing for the anion composite finishing agent is sprayed onto on the bombax cotton, the consumption of described anion composite finishing agent is 20%(o.w.f).
Described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1; Described nano-negative ion auxiliary agent is into the A-500 of large chemical industry; Described softener spins the softener FK-696 of chemical industry in being; Described crosslinking agent spins the FK-839F of chemical industry in being.
The temperature of described oven dry is 90 ℃, and the time of oven dry is 8h.
Described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
The anion burst size of the nano-negative ion bombax cotton for preparing is 4800/m
3
The nano-negative ion bombax cotton fabric that makes reaches the requirement of GB18401, and the anion burst size reaches 3800/m
3, after 20 washings, the anion burst size reaches 3200/m
3
Embodiment 6
Processing step: bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and the nano-negative ion bombax cotton is made in printing and dyeing.
Wherein, the bombax cotton of selecting is the common kapok fiber raw material of textile industry.
Described bombax cotton carries out the anion composite finishing by sprinkling with the anion composite finishing agent and obtains the nano-negative ion bombax cotton.
Described spray pattern carries out the anion composite finishing for the anion composite finishing agent is sprayed onto on the bombax cotton, the consumption of described anion composite finishing agent is 12%(o.w.f).
Described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1; Described nano-negative ion auxiliary agent spins the FK830 of chemical industry in being; Described softener spins the softener FK-696 of chemical industry in being; Described crosslinking agent spins the FK-839F of chemical industry in being.
The temperature of described oven dry is 65 ℃, and the time of oven dry is 6h.
Described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
The anion burst size of the nano-negative ion bombax cotton for preparing is 5100/m
3
The nano-negative ion bombax cotton that makes reaches the requirement of GB18401, and the anion burst size reaches 4000/m
3, after 20 washings, the anion burst size reaches 3500/m
3
More than show and described basic principle of the present invention and principal character and advantage of the present invention.The technical staff of the industry should understand; the present invention is not restricted to the described embodiments; that describes in above-described embodiment and the specification just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications; these changes and improvements all fall in the claimed scope of the invention, and the claimed scope of the present invention is defined by appending claims and equivalent thereof.
Claims (13)
1. the preparation method of a nano-negative ion bombax cotton fabric, it is characterized in that it comprises the steps: that bombax cotton → anion composite finishing makes nano-negative ion bombax cotton → dry → spin → weave and nano-negative ion bombax cotton fabric is made in printing and dyeing.
2. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 1 is characterized in that, described bombax cotton carries out the anion composite finishing by dipping or spray pattern with the anion composite finishing agent and obtains the nano-negative ion bombax cotton.
3. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 2, it is characterized in that described impregnation method carries out the anion composite finishing for bombax cotton is immersed in the anion composite finishing agent, the time of dipping is 20-50min, after dipping is finished, dewater; The consumption of described anion composite finishing agent is 10-40%(o.w.f), bath raio is 1:15, bath temperature 10-50 ℃.
4. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 2, it is characterized in that, described spray pattern carries out the anion composite finishing for the anion composite finishing agent is sprayed onto on the bombax cotton, the consumption of described anion composite finishing agent is 4-20%(o.w.f).
5. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 1 is characterized in that, described anion composite finishing agent is comprised of nano-negative ion auxiliary agent, softener and the crosslinking agent ratio in 10:4:1.
6. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 5 is characterized in that, described nano-negative ion auxiliary agent spins the FK830 of chemical industry in being or becomes the A-500 of large chemical industry.
7. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 5 is characterized in that, described softener spins the softener FK-696 of chemical industry in being.
8. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 5 is characterized in that, described crosslinking agent spins the FK-839F of chemical industry in being.
9. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 1 is characterized in that, the temperature of described oven dry is 40-90 ℃, and the time of oven dry is 4-8h.
10. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 1, it is characterized in that described spinning is for becoming to contain two components or three component yarns of nano-negative ion bombax cotton with nano-negative ion bombax cotton and cotton, viscose, Lyocell, model or polyester fiber blending.
11. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 1 is characterized in that, the anion burst size of described nano-negative ion bombax cotton is 2900-5100/m
3
12. the preparation method of nano-negative ion bombax cotton fabric as claimed in claim 1 is characterized in that, the anion burst size of described nano-negative ion bombax cotton fabric reaches 2500-4000/m
3, after 20 washings, the anion burst size reaches 2200-3500/m
3
13. the application of a nano-negative ion bombax cotton fabric in home textile product is characterized in that, described nano-negative ion bombax cotton fabric is used for making bed necessaries or the external member that family is spun.
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| CN2013100229745A CN103061161A (en) | 2013-01-22 | 2013-01-22 | Preparation method of nano anion kapok fiber fabric and applications of nano anion kapok fiber fabric in home textile product |
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| CN2013100229745A CN103061161A (en) | 2013-01-22 | 2013-01-22 | Preparation method of nano anion kapok fiber fabric and applications of nano anion kapok fiber fabric in home textile product |
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Cited By (7)
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| CN103382638A (en) * | 2013-07-01 | 2013-11-06 | 上海水星家用纺织品股份有限公司 | Preparation method of anion down feather material and applications thereof in home-textile products |
| CN103993476A (en) * | 2014-03-31 | 2014-08-20 | 黄国强 | Manufacturing method for yarn silk body or rag body having negative ions |
| CN104005223A (en) * | 2014-03-31 | 2014-08-27 | 黄国强 | Manufacturing method for loofah sponges with negative oxygen ions |
| CN109629225A (en) * | 2018-11-27 | 2019-04-16 | 邓小武 | A kind of wall clothing nano-negative ion functional fibre material and preparation method thereof |
| CN110172820A (en) * | 2018-06-27 | 2019-08-27 | 安徽农业大学 | The biomass fiber material of negative ionization arrangement, preparation method and applications |
| CN110359274A (en) * | 2019-05-22 | 2019-10-22 | 苏州夏布朗纺织科技有限公司 | A kind of production method of nano-negative ion textile fabric |
| CN111535039A (en) * | 2020-05-22 | 2020-08-14 | 杭州华俊实业有限公司 | Method for manufacturing negative ion down feather |
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103382638A (en) * | 2013-07-01 | 2013-11-06 | 上海水星家用纺织品股份有限公司 | Preparation method of anion down feather material and applications thereof in home-textile products |
| CN103993476A (en) * | 2014-03-31 | 2014-08-20 | 黄国强 | Manufacturing method for yarn silk body or rag body having negative ions |
| CN104005223A (en) * | 2014-03-31 | 2014-08-27 | 黄国强 | Manufacturing method for loofah sponges with negative oxygen ions |
| CN110172820A (en) * | 2018-06-27 | 2019-08-27 | 安徽农业大学 | The biomass fiber material of negative ionization arrangement, preparation method and applications |
| CN109629225A (en) * | 2018-11-27 | 2019-04-16 | 邓小武 | A kind of wall clothing nano-negative ion functional fibre material and preparation method thereof |
| CN110359274A (en) * | 2019-05-22 | 2019-10-22 | 苏州夏布朗纺织科技有限公司 | A kind of production method of nano-negative ion textile fabric |
| CN111535039A (en) * | 2020-05-22 | 2020-08-14 | 杭州华俊实业有限公司 | Method for manufacturing negative ion down feather |
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Application publication date: 20130424 |