Production process of negative ion far infrared anti-ultraviolet woolen sweater

A negative ion far-infrared, production technology technology, applied in biochemical fiber treatment, anti-coloring pollution/anti-fouling fibers, textiles and papermaking, etc., can solve the problem of difficult to realize industrial production, complex process of antibacterial and anti-ultraviolet composite cloth, difficult to meet multiple Functional clothing requirements and other issues, to achieve the effect of easy application

Inactive Publication Date: 2020-02-14
安徽京威纺织服饰有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

And the functionality of the above-mentioned finishing clothing is less, it is difficult to meet the requirements of the market for multifunctional clothing
At the same time, the process of an antibacterial and anti-ultraviolet composite cloth is relatively complicated, and it is difficult to realize industrial production

Method used

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0041] 1) Fabric weighing

[0042] Weigh the weight of the sweater to be finished (the weight before washing) and record it. Then add detergent to wash and dehydrate.

[0043] 2) Preparation of negative ion far-infrared anti-ultraviolet finishing agent

[0044] ① Add 46% nano far infrared ceramic radiator, 45% nano anion tourmaline powder, 3% dispersion, and 1% protective agent into the beaker, and configure it into nano far infrared anion powder.

[0045] ②Put the nano far-infrared anion powder JLSUN900 into the mixing tank, and then add 3 times the water; first stir at low speed for a few minutes to wet the far-infrared anion powder, and then stir at high speed for 15 minutes. Then filter it with a 80-120 mesh filter bag, and finally filter it with a 180-200 mesh filter bag to obtain anion far-infrared finishing agent.

[0046] ③Add 4% (o.w.f) of benzotriazole compound and 4% (o.w.f) of SP type adhesive to the beaker, and keep stirring to obtain the anti-ultraviolet finishing agent....

Embodiment 2

[0057] 1) Fabric weighing

[0058] Weigh the weight of the sweater to be finished (the weight before washing) and record it. Then add detergent to wash and dehydrate.

[0059] 2) Preparation of negative ion far-infrared anti-ultraviolet finishing agent

[0060] ① Add 46% nano far infrared ceramic radiator, 45% nano anion tourmaline powder, 3% dispersion, and 1% protective agent into the beaker, and configure it into nano far infrared anion powder.

[0061] ②Put the nano far-infrared anion powder into the mixing tank, and then add 3 times the water; first stir at low speed for a few minutes to wet the far-infrared anion powder, and then stir at high speed for 18 minutes. Then filter it with a 80-120 mesh filter bag, and finally filter it with a 180-200 mesh filter bag to obtain anion far-infrared finishing agent.

[0062] ③Add 3% (o.w.f) of benzotriazole compound and 3% (o.w.f) of SP type adhesive to the beaker, and keep stirring to obtain the anti-ultraviolet finishing agent.

[0063] ...

Embodiment 3

[0073] 1) Fabric weighing

[0074] Weigh the weight of the sweater to be finished (the weight before washing) and record it. Then add detergent to wash and dehydrate.

[0075] 2) Preparation of negative ion far-infrared anti-ultraviolet finishing agent

[0076] ① Add 46% nano far infrared ceramic radiator, 45% nano anion tourmaline powder, 3% dispersion, and 1% protective agent into the beaker, and configure it into nano far infrared anion powder.

[0077] ②Put the nano far-infrared anion powder into the mixing tank, and then add 3 times the water; first stir at low speed for a few minutes to wet the far-infrared anion powder, and then stir at high speed for 20 minutes. Then filter it with a 80-120 mesh filter bag, and finally filter it with a 180-200 mesh filter bag to obtain anion far-infrared finishing agent.

[0078] ③Add 4% (o.w.f) of benzotriazole compound and 4% (o.w.f) of SP type adhesive to the beaker, and keep stirring to obtain the anti-ultraviolet finishing agent.

[0079] ...

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Abstract

The invention discloses a production process of a negative ion far infrared anti-ultraviolet woolen sweater. The production process of the negative ion far infrared anti-ultraviolet woolen sweater ischaracterized in that a nano far infrared ceramic radiator, nano negative ion tourmaline powder, a dispersion body, a protective agent and a benzotriazole compound are introduced into after-treatment,and are prepared into a negative ion far infrared and anti-ultraviolet finishing agent, and the negative ion far infrared and anti-ultraviolet finishing agent is uniformly finished on the woolen sweater by a two-bath method. The woolen sweater finished by the production process not only has good stimulated emission negative ions, far infrared rays and ultraviolet protection effects, but also hasthe advantages that the far infrared emissivity can reach 85% or above, the negative ion concentration can reach up to 3000/cm<3>, the woolen sweater has good absorption conversion, reflection and scattering effects on ultraviolet rays (especially UV-A and UV-B) in the wavelength range of 180-400 nm, meanwhile, the woolen sweater has soft hand feeling and good fastness, and the original style of the woolen sweater is kept.

Description

Technical field [0001] The invention relates to the technical field, in particular to a production process of anion far-infrared and ultraviolet-proof woolen sweater. Background technique [0002] With the improvement of people's living standards in our country, consumers have put forward higher and higher requirements for the quality and quality of woolen sweaters. People's concept of health has developed from seeking medical treatment for illnesses in the past to active prevention now, and the awareness of medical care has been valued by more and more people. Since the 1990s, the research and development of negative ion far-infrared textiles has begun in the world. Negative ion far-infrared textiles are directly worn on the body and come in contact with human skin in a large area. The heat energy of the human body and the friction between the human body and the skin are used to accelerate the emission of negative ions, forming a negative ion air layer between the skin and clot...

Claims

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): D06M13/352D06M11/82D06M11/00D06M13/00D06M15/00D06M16/00D06M101/12
CPCD06M11/00D06M11/82D06M13/00D06M13/352D06M15/00D06M16/00D06M2101/12D06M2200/01D06M2200/25D06M2200/30
Inventor 陈克勇
Owner 安徽京威纺织服饰有限公司
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