CN111020826A - Production process of cool cotton textile applicable to sportswear - Google Patents

Abstract

The invention discloses a production process of cool cotton textiles applicable to sportswear, which is characterized by comprising the following steps: the method comprises the following steps: s1, degumming the flax; s2, performing antibacterial pretreatment on the cotton fiber and the flax; s3, preliminarily mixing the cotton fiber, the flax and the moisture absorption and sweat releasing fiber according to a certain blending ratio after finishing the antibacterial pretreatment; s4, preparing blended suction and discharge yarns through opening picking, cotton carding, drawing, roving and rotor spinning; s5: preparing super cool yarn; s6: interweaving the super-cool yarn and the blended suction and discharge yarn into a double-sided mesh knitted fabric; the invention blends various fibers, the advantages of the fibers are complementary, blended products have changeable styles, not only have the characteristics of moisture absorption, ventilation, comfortable wearing and smooth hand feeling, but also have three effects of instant cooling, coolness, dryness and moisture absorption and perspiration, and the preparation method is simple and reliable and is suitable for large-scale industrial production.

Description

Production process of cool cotton textile applicable to sportswear

Technical Field

The invention relates to the technical field of sports clothes, in particular to a production process of cool cotton textiles which can be applied to sports clothes.

Background

Along with the development of economy, the requirements of people on the comfort, the health, the safety, the environmental protection and the like of clothes products are higher and higher, the outdoor activity time of people is increased, the leisure clothes and the sportswear are mutually permeated and integrated and are increasingly favored by consumers, the fabrics of the clothes not only require good comfort, but also require that once sweat flowing down to the back occurs when the people move to the greatest extent, the clothes do not need to be pasted with the hot and sticky bound feeling of skin, hot air can be quickly evaporated from the surface of the skin to the outer layer of the clothes and can be kept dry at any time, and the body can have cool and comfortable feelings for a long time; therefore, it is urgent to develop a product that can make people feel cool and comfortable in summer. Through products on the market, related technical data and related patent documents, a plurality of polyester fiber products with moisture absorption and sweat releasing effects exist at present, but the polyester fiber products do not have three effects of cool instant cooling, moisture absorption and sweat releasing, cooling and dryness at the same time.

Disclosure of Invention

The invention aims to provide a production process of cool cotton textiles applicable to sportswear, which aims to solve the problems of the existing cotton textiles in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

a production process of cool cotton textiles applicable to sportswear comprises the following steps:

s1, degumming the flax;

s2, performing antibacterial pretreatment on the cotton fiber and the flax;

s3, preliminarily mixing the cotton fiber, the flax and the moisture absorption and sweat releasing fiber according to a certain blending ratio after finishing the antibacterial pretreatment;

s4, preparing blended suction and discharge yarns through opening picking, cotton carding, drawing, roving and rotor spinning;

s5: preparing super cool yarn;

s6: and interweaving the super-cool yarn and the blended suction and discharge yarn into the double-sided mesh knitted fabric.

Preferably, the blending ratio of the super cool yarn to the blended suction and discharge yarn is as follows: the super cool yarn content (percentage) is 40% -45%, and the blending suction and discharge yarn content is 55% -60%.

Preferably, the super-cool yarn is formed by spinning silver-plated short fibers and super-cool polyester fibers.

Wherein, the super cool polyester fiber is prepared by blending 8-15 wt% of inorganic nanometer super cool polyester master batch and polyester chips and then preparing the super cool health-care polyester fiber by a polyester fiber production process, which is the prior art and is not described herein again.

The silver-plated short fiber is silver-plated by adopting a silver ammonia solution reduction method, which is a conventional method and conditions in the field, and the special-shaped structure of the special-shaped polyester fiber containing nano silver is preferably cross-shaped, triangular, Y-shaped, pentagonal, trilobal, quadralobal, pentagonal, fan-shaped or hollow. In the profiled polyester fiber containing nano-silver, the content of the nano-silver is preferably 3900-6000 mg/kg.

Preferably, the step of performing antibacterial pretreatment on the cotton fiber and the flax in the step S2 comprises the following steps:

a1, preparing an antibacterial finishing agent;

a2, immersing cotton fibers and flax into the antibacterial finishing agent in A1 for antibacterial treatment;

a3, taking out the cotton fiber and the flax which are subjected to the antibacterial treatment in the step A2, and drying to obtain the antibacterial cotton fiber and the flax.

Preferably, the antibacterial finishing agent comprises the following components in parts by weight: 10-15 parts of subtilisin, 10-15 parts of polymyxin E, 2-8 parts of active nano zinc oxide, 10-16 parts of bock greenbrier rhizome extract, 10-15 parts of propolis ethanol solution and 25-28 parts of nano silver-copper loaded POSS-based resin.

Preferably, the antibacterial finishing agent comprises the following components in parts by weight: 12 parts of subtilisin, 13 parts of polymyxin E, 5 parts of active nano zinc oxide, 13 parts of bock greenbrier rhizome extract, 14 parts of propolis ethanol solution and 27 parts of nano silver-copper loaded POSS-based resin.

Preferably, the mass ratio of the cotton fiber to the flax to the moisture absorption and sweat releasing fiber is (40-45): (20-25): (15-35).

Preferably, the cross section of the moisture-absorbing and sweat-releasing fiber is in a divergent star-shaped structure.

Compared with the prior art, the invention has the beneficial effects that: the invention blends various fibers, the advantages of the fibers are complementary, blended products have changeable styles, not only have the characteristics of moisture absorption, ventilation, comfortable wearing and smooth hand feeling, but also have three effects of instant cooling, coolness, dryness and moisture absorption and perspiration, and the preparation method is simple and reliable and is suitable for large-scale industrial production.

Detailed Description

The technical solutions of the present invention will be described clearly and completely in the following embodiments of the present invention, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The invention provides a technical scheme that: a production process of cool cotton textiles applicable to sportswear comprises the following steps:

s1, degumming the flax;

s2, performing antibacterial pretreatment on the cotton fiber and the flax;

s3, preliminarily mixing the cotton fiber, the flax and the moisture absorption and sweat releasing fiber according to a certain blending ratio after finishing the antibacterial pretreatment;

s4, preparing blended suction and discharge yarns through opening picking, cotton carding, drawing, roving and rotor spinning;

s5: preparing super cool yarn;

s6: and interweaving the super-cool yarn and the blended suction and discharge yarn into the double-sided mesh knitted fabric.

The mass ratio of the cotton fibers to the flax to the moisture absorption and sweat releasing fibers is 43: 22: 32, the cross section of the moisture absorption and sweat releasing fiber is in a divergent star-shaped structure.

Wherein, the blending ratio of the super cool yarn to the blended suction and discharge yarn is as follows: the blended yarn comprises 43% of super-cool yarn and 57% of blended suction and discharge yarn, wherein the super-cool yarn is formed by spinning silver-plated short fibers and super-cool polyester fibers.

The super cool feeling polyester fiber is prepared by blending 12 wt% of inorganic nano super cool feeling polyester master batch with polyester chips and then preparing the super cool feeling health-care polyester fiber through a polyester fiber production process, which is the prior art and is not described herein any more, silver-plated short fiber is subjected to silver plating by a silver-ammonia solution reduction method, and the special-shaped structure of the special-shaped polyester fiber containing nano silver is preferably cross-shaped, triangular, Y-shaped, pentagonal, trilobal, quadralobal, pentalobal, fan-shaped or hollow. In the profiled polyester fiber containing nano-silver, the content of the nano-silver is preferably 3900-6000 mg/kg.

Specifically, the step of performing antibacterial pretreatment on the cotton fibers and the flax in the step S2 comprises the following steps:

a1, preparing an antibacterial finishing agent;

a2, immersing cotton fibers and flax into the antibacterial finishing agent in A1 for antibacterial treatment;

a3, taking out the cotton fiber and the flax which are subjected to the antibacterial treatment in the step A2, and drying to obtain the antibacterial cotton fiber and the flax.

The antibacterial finishing agent comprises the following components in parts by weight: 12 parts of subtilisin, 13 parts of polymyxin E, 5 parts of active nano zinc oxide, 13 parts of bock greenbrier rhizome extract, 14 parts of propolis ethanol solution and 27 parts of nano silver-copper loaded POSS-based resin.

Example 2

A production process of cool cotton textiles applicable to sportswear comprises the following steps:

s1, degumming the flax;

s2, performing antibacterial pretreatment on the cotton fiber and the flax;

s3, preliminarily mixing the cotton fiber, the flax and the moisture absorption and sweat releasing fiber according to a certain blending ratio after finishing the antibacterial pretreatment;

s4, preparing blended suction and discharge yarns through opening picking, cotton carding, drawing, roving and rotor spinning;

s5: preparing super cool yarn;

s6: and interweaving the super-cool yarn and the blended suction and discharge yarn into the double-sided mesh knitted fabric.

Wherein, the blending ratio of the super cool yarn to the blended suction and discharge yarn is as follows: the super-cool yarn comprises 40% of super-cool yarn and 60% of blended suction and discharge yarn, and is formed by spinning silver-plated short fibers and super-cool polyester fibers. The mass ratio of the cotton fibers to the flax to the moisture absorption and sweat releasing fibers is 40: 24: 28, the cross section of the moisture absorption and sweat release fiber is in a divergent star-shaped structure.

Wherein, the super cool polyester fiber is prepared by blending 8-15 wt% of inorganic nanometer super cool polyester master batch and polyester chips and then preparing the super cool health-care polyester fiber by a polyester fiber production process, which is the prior art and is not described herein again.

The silver-plated short fiber is silver-plated by adopting a silver ammonia solution reduction method, which is a conventional method and conditions in the field, and the special-shaped structure of the special-shaped polyester fiber containing nano silver is preferably cross-shaped, triangular, Y-shaped, pentagonal, trilobal, quadralobal, pentagonal, fan-shaped or hollow. In the profiled polyester fiber containing nano-silver, the content of the nano-silver is preferably 3900-6000 mg/kg.

Specifically, the step of performing antibacterial pretreatment on the cotton fibers and the flax in the step S2 comprises the following steps:

a1, preparing an antibacterial finishing agent;

a2, immersing cotton fibers and flax into the antibacterial finishing agent in A1 for antibacterial treatment;

a3, taking out the cotton fiber and the flax which are subjected to the antibacterial treatment in the step A2, and drying to obtain the antibacterial cotton fiber and the flax.

The antibacterial finishing agent comprises the following components in parts by weight: 11 parts of subtilisin, 14 parts of polymyxin E, 7 parts of active nano zinc oxide, 12 parts of bock greenbrier rhizome extract, 14 parts of propolis ethanol solution and 27 parts of nano silver-copper loaded POSS-based resin.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A production process of cool cotton textiles applicable to sportswear is characterized in that: the method comprises the following steps:

s1, degumming the flax;

s2, performing antibacterial pretreatment on the cotton fiber and the flax;

s3, preliminarily mixing the cotton fiber, the flax and the moisture absorption and sweat releasing fiber according to a certain blending ratio after finishing the antibacterial pretreatment;

s4, preparing blended suction and discharge yarns through opening picking, cotton carding, drawing, roving and rotor spinning;

s5: preparing super cool yarn;

s6: and interweaving the super-cool yarn and the blended suction and discharge yarn into the double-sided mesh knitted fabric.

2. The production process of the cool cotton textile applicable to the sports wear, according to the claim 1, is characterized in that: the blending ratio of the super cool yarn to the blended suction and discharge yarn is as follows: the super cool yarn content (percentage) is 40% -45%, and the blending suction and discharge yarn content is 55% -60%.

3. The production process of the cool cotton textile applicable to the sports wear, according to the claim 1, is characterized in that: the super-cool yarn is formed by spinning silver-plated short fibers and super-cool polyester fibers.

4. The production process of the cool cotton textile applicable to the sports wear, according to the claim 1, is characterized in that: the step S2 of performing antibacterial pretreatment on the cotton fiber and the flax comprises the following steps:

a1, preparing an antibacterial finishing agent;

a2, immersing cotton fibers and flax into the antibacterial finishing agent in A1 for antibacterial treatment;

a3, taking out the cotton fiber and the flax which are subjected to the antibacterial treatment in the step A2, and drying to obtain the antibacterial cotton fiber and the flax.

5. The production process of the cool cotton textile applicable to the sports wear, according to claim 4, is characterized in that: the antibacterial finishing agent comprises the following components in parts by weight: 10-15 parts of subtilisin, 10-15 parts of polymyxin E, 2-8 parts of active nano zinc oxide, 10-16 parts of bock greenbrier rhizome extract, 10-15 parts of propolis ethanol solution and 25-28 parts of nano silver-copper loaded POSS-based resin.

6. The production process of the cool cotton textile applicable to the sports wear, according to claim 5, is characterized in that: the antibacterial finishing agent comprises the following components in parts by weight: 12 parts of subtilisin, 13 parts of polymyxin E, 5 parts of active nano zinc oxide, 13 parts of bock greenbrier rhizome extract, 14 parts of propolis ethanol solution and 27 parts of nano silver-copper loaded POSS-based resin.

7. The production process of the cool cotton textile applicable to the sports wear, according to the claim 1, is characterized in that: the mass ratio of the cotton fiber to the flax to the moisture-absorbing and sweat-releasing fiber is (40-45): (20-25): (15-35).

8. The production process of the cool cotton textile applicable to the sports wear, according to the claim 1, is characterized in that: the cross section of the moisture absorption and sweat releasing fiber is in a divergent star-shaped structure.