CN110644096A

CN110644096A - Antistatic high-elasticity bulked blended yarn

Info

Publication number: CN110644096A
Application number: CN201910977091.7A
Authority: CN
Inventors: 全金华; 李福洪; 李志勇; 冼礼贤
Original assignee: Zhaoqing Gaoyao District Changhe Wool Textile Co Ltd
Current assignee: Zhaoqing Gaoyao District Changhe Wool Textile Co Ltd
Priority date: 2019-10-15
Filing date: 2019-10-15
Publication date: 2020-01-03

Abstract

The invention relates to the technical field of bulked blended yarns, in particular to a bulked blended yarn with antistatic property and high elasticity, which is a blended yarn with a sheath-core structure, wherein the blended yarn is obtained by removing vinylon fibers through dissolution and is formed by acrylic fibers and wool fibers, and the blending mass ratio of the acrylic fibers to the wool fibers is 50-70%: 30% -50% of the polyvinyl alcohol fiber, the polyvinyl alcohol fiber accounts for 10-40% of the total weight of the blended yarn before dissolving, the acrylic fiber is treated by an acrylic oil agent, and the wool fiber is treated by an antistatic finishing agent. The bulk blended yarn is formed by blending acrylic fibers and wool fibers, and both the acrylic fibers and the wool fibers have good elasticity, so that the woven fabric has good elasticity; and the wool fibers are treated by the antistatic finishing agent, so that the woven fabric has durable antistatic performance, the antistatic performance of the fabric is improved, and the potential safety hazard is reduced.

Description

Antistatic high-elasticity bulked blended yarn

Technical Field

The invention relates to the technical field of bulked blended yarns, in particular to a bulked blended yarn with antistatic high elasticity.

Background

With the development of the economy, the living standard is continuously improved, and the requirements of people on clothes are also continuously improved. The thermal underwear has the advantages that the thermal underwear has better thermal effect, the sweater has better thermal effect, and the like, and the body movement cannot be influenced by wearing heavy clothes in cold winter.

In order to improve lightness and bulkiness, bulked yarns have been developed. The bulked yarn is formed by mixing and spinning high-shrinkage fibers and common fibers, and the high-shrinkage fibers are shrunk through wet heat treatment to form a skin-core structure, so that the air circulation space is increased. For example, patent document CN201459317U discloses a color-blended bulked yarn, which is obtained by blending undyed high shrinkage fibers with one or more other dyed fibers, and has a defect that the bulkiness of the yarn is improved; in addition, in order to obtain the color mixing effect, color mixing before swelling and color matching after swelling are needed, the process is complex, the core yarn cannot be colored, and the color diversity of the ready-made clothes is difficult to improve; meanwhile, the colored light of the yarn in the invention can change after the subsequent wet and heat treatment, and the color can not be corrected subsequently.

As disclosed in patent document CN103097595A, a bulked single spun yarn is obtained by dissolving and removing a water-soluble yarn from a composite twisted yarn in a hydrophilic solvent, and although the single spun yarn is reversely twisted with the water-soluble yarn to form a conjugated double-strand yarn, the original single spun yarn is untwisted and then twisted and wrapped around the outer layer of the water-soluble fiber, and after the water-soluble yarn is removed in the hydrophilic solvent, the untwisted single spun yarn in the outer layer has a loose structure, poor fiber straightness, poor cohesion between fibers, and a reduced resultant yarn strength; meanwhile, too high twisting conditions increase production cost; meanwhile, the straightening degree of the short fiber is only the residual form of the previous single yarn twist, and the long-lasting fluffy performance cannot be achieved.

The existing bulk blended yarn has poor elasticity and antistatic performance and poor comfort, and limits the application to a certain extent.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention aims to provide the antistatic high-elasticity bulked blended yarn which has excellent antistatic property and good elasticity, can be used for manufacturing knitted fabrics such as sweaters and underwear, blankets and the like, is antistatic, does not pilling, has good elasticity, has light, flexible and fluffy characteristics, can fully exert the fiber characteristics of the bulked yarn, has more gaps among fibers and has better fabric heat retention property.

The purpose of the invention is realized by the following technical scheme: the antistatic high-elasticity bulked blended yarn is a blended yarn with a sheath-core structure, which is obtained by removing vinylon fibers through dissolution and is formed by acrylic fibers and wool fibers, wherein the blending mass ratio of the acrylic fibers to the wool fibers is 50-70%: 30% -50% of the polyvinyl alcohol fiber, the polyvinyl alcohol fiber accounts for 10-40% of the total weight of the blended yarn before dissolving, the acrylic fiber is treated by an acrylic oil agent, and the wool fiber is treated by an antistatic finishing agent.

Preferably, the vinylon fiber is water-soluble vinylon short fiber, the specification of the vinylon short fiber is 1.67dtex multiplied by 38mm, and the vinylon short fiber is dissolved in water at the temperature of 85-95 ℃.

Preferably, the acrylic fiber is high-shrinkage acrylic fiber, the specification of the acrylic fiber is 1.67dtex multiplied by 38mm, and the boiling water shrinkage rate is 30-40%.

Preferably, the blended yarn is produced by the following steps: the blended yarn is prepared by selecting vinylon fibers, acrylic fibers and wool fibers as raw materials, mixing → carding → doubling → roving → spun yarn → spooling → silk combining and double twisting to form double twisted yarn, removing the vinylon fibers through hot water treatment at 85-95 ℃, and dyeing.

Preferably, the acrylic fiber oil is prepared from the following raw materials in parts by weight: 10-30 parts of vegetable oil, 5-15 parts of high-carbon fatty alcohol phosphate polyoxyethylene ether, 8-12 parts of high-carbon fatty alcohol polyoxyethylene ether, 4-8 parts of sorbitan stearate, (1-3 parts of Z) -9-octadecenoic acid-dodecyl ester, 1-5 parts of coconut diethanol amide, 4-8 parts of high-carbon alcohol alkyl phosphate potassium salt, 4-6 parts of medium-carbon alcohol polyoxyethylene ether alkyl phosphate potassium salt, 2-4 parts of alkyl carboxylate type imidazoline phosphate potassium salt, 1-5 parts of fatty acid polyoxyethylene methyl ether, 1-5 parts of lauryl alcohol polyoxyethylene ether sulfosuccinate disodium, 1-3 parts of maleic anhydride-acrylic acid copolymer, 1-3 parts of dispersing agent and 1-2 parts of bactericide.

The acrylic fiber oil agent adopts vegetable oil as a smoothing agent, high-carbon fatty alcohol phosphate polyoxyethylene ether, high-carbon fatty alcohol polyoxyethylene ether and sorbitan stearate as emulsifiers, high-carbon alcohol alkyl phosphate potassium salt, medium-carbon alcohol polyoxyethylene ether alkyl phosphate potassium salt and alkyl carboxylate type imidazoline phosphate potassium salt as antistatic agents, fatty acid polyoxyethylene methyl ether as a bundling agent, and (Z) -9-octadecenoic acid-dodecyl ester, coconut oil diethanol amide, lauryl alcohol polyoxyethylene ether disodium sulfosuccinate and maleic anhydride-acrylic acid copolymer as an addition auxiliary agent; the prepared acrylic fiber oiling agent has the effect of improving the smoothness and the softness of acrylic fibers, can enable the fibers to be well formed and easy to unwind, and can improve the antistatic property and the bundling property of the acrylic fibers.

Preferably, the dispersant is at least one of calcium stearate, butyl stearate, ethylene bis stearamide, glyceryl monostearate and glyceryl tristearate. The dispersant can reduce viscosity, reduce flocculation and increase storage stability.

Preferably, the bactericide is at least one of sodium benzoate, potassium sorbate, sodium dehydroacetate, sodium diacetate, calcium propionate and sodium lactate. By adopting the bactericide, the acrylic fiber treated by the acrylic fiber oiling agent has better bactericidal effect.

Preferably, the antistatic finishing agent is prepared from the following raw materials in parts by weight: 5-15 parts of sulfonated polyaniline, 8-12 parts of polyvinyl benzyl trimethyl quaternary ammonium salt, 6-10 parts of octadecyl dimethyl hydroxyethyl quaternary ammonium nitrate, 4-8 parts of N- (phosphonomethyl) glycine isopropylamine salt, 3-7 parts of dimethyl terephthalate, 3-5 parts of zinc cyclohexane butyrate, 1-3 parts of polyethylene glycol monomethyl ether, 5-15 parts of hydrogenated ricinoleic acid, 1-5 parts of thickening agent, 0.5-1.5 parts of defoaming agent, 5-15 parts of ethanol and 40-80 parts of water.

The antistatic finishing agent adopts the raw materials, the weight ratio of the raw materials is strictly controlled, and the fabric woven by the wool fibers treated by the antistatic finishing agent has durable antistatic performance, so that the antistatic performance of the fabric is improved, and the potential safety hazard is reduced.

Preferably, the thickening agent is a mixture of hydroxypropyl distarch phosphate, sorbitan tristearate and sodium carboxymethyl cellulose in a weight ratio of 2-4:1-2: 1. According to the invention, hydroxypropyl distarch phosphate, sorbitan tristearate and sodium carboxymethylcellulose are adopted as the thickening agents to be used in a compounding manner, and the weight ratio of the hydroxypropyl distarch phosphate, the sorbitan tristearate and the sodium carboxymethylcellulose is controlled to be 2-4:1-2:1, so that the viscosity of a system can be improved, and the system can be kept in a uniform and stable suspension state or an emulsion state.

Preferably, the defoaming agent is at least one of polyoxyethylene polyoxypropylene amine ether, polyoxypropylene glycerol ether, polyoxypropylene polyoxyethylene glycerol ether and polydimethylsiloxane. By adopting the defoaming agent, the invention has the characteristics of high defoaming speed, long foam inhibition time, good effect, good diffusivity and permeability, good thermal stability and the like.

The invention has the beneficial effects that: the bulk blended yarn is formed by blending acrylic fibers and wool fibers, and both the acrylic fibers and the wool fibers have good elasticity, so that the woven fabric has good elasticity; and the wool fibers are treated by the antistatic finishing agent, so that the woven fabric has durable antistatic performance, the antistatic performance of the fabric is improved, and the potential safety hazard is reduced.

The bulked blended yarn disclosed by the invention is excellent in antistatic property and good in elasticity, can be used for manufacturing knitted fabrics such as sweaters and underwear, blankets and the like, is antistatic, is not easy to adsorb small-particle dust, has the characteristics of light weight, flexibility and fluffiness, can fully exert the fiber characteristics of the bulked yarn, has a plurality of gaps among fibers, and is better in fabric heat retention property.

Detailed Description

The present invention will be further described with reference to the following examples for facilitating understanding of those skilled in the art, and the description of the embodiments is not intended to limit the present invention.

Example 1

The antistatic high-elasticity bulked blended yarn is a blended yarn which is obtained by removing vinylon fibers through dissolution and has a sheath-core structure and is formed by acrylic fibers and wool fibers, and the blending mass ratio of the acrylic fibers to the wool fibers is 50%: 50 percent of vinylon fiber, the mass of which accounts for 10 percent of the total weight of the blended yarn before dissolution, the acrylic fiber is treated by acrylic oil solution, and the wool fiber is treated by antistatic finishing agent.

The vinylon fiber is water-soluble vinylon short fiber, the specification of the vinylon short fiber is 1.67dtex multiplied by 38mm, and the vinylon short fiber is dissolved in water at the temperature of 85 ℃.

The acrylic fiber is high-shrinkage acrylic fiber, the specification of the acrylic fiber is 1.67dtex multiplied by 38mm, and the boiling water shrinkage rate is 30%.

The blended yarn is produced by the following steps: selecting vinylon fibers, acrylic fibers and wool fibers as raw materials, mixing → carding → doubling → roving → spun yarn → spooling → silk combining and double twisting to form double twisted yarn, removing the vinylon fibers by hot water treatment at 85 ℃, and dyeing to obtain the blended yarn.

The acrylic fiber oiling agent is prepared from the following raw materials in parts by weight: 10 parts of vegetable oil, 5 parts of high-carbon fatty alcohol phosphate polyoxyethylene ether, 8 parts of high-carbon fatty alcohol polyoxyethylene ether, 4 parts of sorbitan stearate, (Z) -9-octadecenoic acid-dodecyl ester 1 part, 1 part of coconut diethanol amide, 4 parts of high-carbon alcohol alkyl phosphate potassium salt, 4 parts of medium-carbon alcohol polyoxyethylene ether alkyl phosphate potassium salt, 2 parts of alkyl carboxylate type imidazoline phosphate potassium salt, 1 part of fatty acid polyoxyethylene methyl ether, 1-5 parts of disodium lauryl alcohol polyoxyethylene ether sulfosuccinate, 1 part of maleic anhydride-acrylic acid copolymer, 1 part of dispersing agent and 1 part of bactericide.

The dispersing agent is calcium stearate.

The bactericide is sodium benzoate.

The antistatic finishing agent is prepared from the following raw materials in parts by weight: 5 parts of sulfonated polyaniline, 8 parts of polyethylene benzyl trimethyl quaternary ammonium salt, 6 parts of octadecyl dimethyl hydroxyethyl quaternary ammonium nitrate, 4 parts of N- (phosphonomethyl) glycine isopropylamine salt, 3 parts of dimethyl terephthalate, 3 parts of zinc cyclohexanebutyrate, 1 part of polyethylene glycol monomethyl ether, 5 parts of hydrogenated ricinoleic acid, 1 part of thickening agent, 0.5 part of defoaming agent, 5 parts of ethanol and 40 parts of water.

The thickening agent is a mixture of hydroxypropyl distarch phosphate, sorbitan tristearate and sodium carboxymethyl cellulose in a weight ratio of 2:1: 1.

The defoaming agent is polyoxyethylene polyoxypropylene ether.

Example 2

The antistatic high-elasticity bulked blended yarn is a blended yarn which is obtained by removing vinylon fibers through dissolution and has a sheath-core structure and is formed by acrylic fibers and wool fibers, and the blending mass ratio of the acrylic fibers to the wool fibers is 550%: 45 percent, the vinylon fiber accounts for 20 percent of the total weight of the blended yarn before dissolution, the acrylic fiber is treated by acrylic oil solution, and the wool fiber is treated by antistatic finishing agent.

The vinylon fiber is water-soluble vinylon short fiber, the specification of the vinylon short fiber is 1.67dtex multiplied by 38mm, and the vinylon short fiber is dissolved in water at 88 ℃.

The acrylic fiber is high-shrinkage acrylic fiber, the specification of the acrylic fiber is 1.67dtex multiplied by 38mm, and the boiling water shrinkage rate is 32%.

The blended yarn is produced by the following steps: selecting vinylon fibers, acrylic fibers and wool fibers as raw materials, mixing → carding → doubling → roving → spun yarn → spooling → silk combining and double twisting to form double twisted yarn, removing the vinylon fibers by hot water treatment at 88 ℃, and dyeing to obtain the blended yarn.

The acrylic fiber oiling agent is prepared from the following raw materials in parts by weight: 15 parts of vegetable oil, 8 parts of high-carbon fatty alcohol phosphate polyoxyethylene ether, 9 parts of high-carbon fatty alcohol polyoxyethylene ether, 5 parts of sorbitan stearate, (Z) -9-octadecenoic acid-dodecyl ester 1.5 parts, 2 parts of coconut diethanol amide, 5 parts of high-carbon alcohol alkyl phosphate potassium salt, 4.5 parts of medium-carbon alcohol polyoxyethylene ether alkyl phosphate potassium salt, 2.5 parts of alkyl carboxylate type imidazoline phosphate potassium salt, 2 parts of fatty acid polyoxyethylene methyl ether, 2 parts of lauryl alcohol polyoxyethylene ether sulfosuccinate disodium, 1.5 parts of maleic anhydride-acrylic acid copolymer, 1.5 parts of dispersing agent and 1.2 parts of bactericide.

The dispersant is butyl stearate.

The bactericide is potassium sorbate.

The antistatic finishing agent is prepared from the following raw materials in parts by weight: 8 parts of sulfonated polyaniline, 9 parts of polyethylene benzyl trimethyl quaternary ammonium salt, 7 parts of octadecyl dimethyl hydroxyethyl quaternary ammonium nitrate, 5 parts of N- (phosphonomethyl) glycine isopropylamine salt, 4 parts of dimethyl terephthalate, 3.5 parts of zinc cyclohexanebutyrate, 1.5 parts of polyethylene glycol monomethyl ether, 8 parts of hydrogenated ricinoleic acid, 2 parts of thickening agent, 0.8 part of defoaming agent, 8 parts of ethanol and 50 parts of water.

The thickening agent is a mixture of hydroxypropyl distarch phosphate, sorbitan tristearate and sodium carboxymethyl cellulose in a weight ratio of 2.5:1.2: 1.

The defoaming agent is polyoxypropylene glycerol ether.

Example 3

The antistatic high-elasticity bulked blended yarn is a blended yarn which is obtained by removing vinylon fibers through dissolution and has a sheath-core structure and is formed by acrylic fibers and wool fibers, and the blending mass ratio of the acrylic fibers to the wool fibers is 60%: 40 percent of the vinylon fiber, the vinylon fiber and the wool fiber are respectively treated by an acrylic fiber oiling agent and an antistatic finishing agent, wherein the mass of the vinylon fiber accounts for 25 percent of the total weight of the blended yarn before dissolution.

The vinylon fiber is water-soluble vinylon short fiber, the specification of the vinylon short fiber is 1.67dtex multiplied by 38mm, and the vinylon short fiber is dissolved in water at 90 ℃.

The acrylic fiber is high-shrinkage acrylic fiber, the specification of the acrylic fiber is 1.67dtex multiplied by 38mm, and the boiling water shrinkage rate is 35%.

The blended yarn is produced by the following steps: selecting vinylon fibers, acrylic fibers and wool fibers as raw materials, mixing → carding → doubling → roving → spun yarn → spooling → silk combining and double twisting to form double twisted yarn, removing the vinylon fibers by hot water treatment at 90 ℃, and dyeing to obtain the blended yarn.

The acrylic fiber oiling agent is prepared from the following raw materials in parts by weight: 20 parts of vegetable oil, 10 parts of high-carbon fatty alcohol phosphate polyoxyethylene ether, 10 parts of high-carbon fatty alcohol polyoxyethylene ether, 6 parts of sorbitan stearate, (Z) -9-octadecenoic acid-dodecyl ester 2 parts, 3 parts of coconut diethanol amide, 6 parts of high-carbon alcohol alkyl phosphate potassium salt, 5 parts of medium-carbon alcohol polyoxyethylene ether alkyl phosphate potassium salt, 3 parts of alkyl carboxylate type imidazoline phosphate potassium salt, 3 parts of fatty acid polyoxyethylene methyl ether, 3 parts of disodium lauryl alcohol polyoxyethylene ether sulfosuccinate, 2 parts of maleic anhydride-acrylic acid copolymer, 2 parts of a dispersing agent and 1.5 parts of a bactericide.

The dispersing agent is ethylene bis stearamide.

The bactericide is sodium dehydroacetate.

The antistatic finishing agent is prepared from the following raw materials in parts by weight: 10 parts of sulfonated polyaniline, 10 parts of polyvinyl benzyl trimethyl quaternary ammonium salt, 8 parts of octadecyl dimethyl hydroxyethyl quaternary ammonium nitrate, 6 parts of N- (phosphonomethyl) glycine isopropylamine salt, 5 parts of dimethyl terephthalate, 4 parts of zinc cyclohexanebutyrate, 2 parts of polyethylene glycol monomethyl ether, 10 parts of hydrogenated ricinoleic acid, 3 parts of thickening agent, 1 part of defoaming agent, 10 parts of ethanol and 60 parts of water.

The thickening agent is a mixture of hydroxypropyl distarch phosphate, sorbitan tristearate and sodium carboxymethyl cellulose in a weight ratio of 3:1.5: 1.

The defoaming agent is at least one of polyoxyethylene polyoxypropylene amine ether, polyoxypropylene glycerol ether, polyoxypropylene polyoxyethylene glycerol ether and polydimethylsiloxane.

Example 4

The antistatic high-elasticity bulked blended yarn is a blended yarn which is obtained by removing vinylon fibers through dissolution and has a sheath-core structure and is formed by acrylic fibers and wool fibers, and the blending mass ratio of the acrylic fibers to the wool fibers is 65%: 35 percent of vinylon fibers, wherein the mass of the vinylon fibers accounts for 30 percent of the total weight of the blended yarn before dissolution, the acrylic fibers are treated by acrylic oil solution, and the wool fibers are treated by antistatic finishing agent.

The vinylon fiber is water-soluble vinylon short fiber, the specification of the vinylon short fiber is 1.67dtex multiplied by 38mm, and the vinylon short fiber is dissolved in water at the temperature of 92 ℃.

The acrylic fiber is high-shrinkage acrylic fiber, the specification of the acrylic fiber is 1.67dtex multiplied by 38mm, and the boiling water shrinkage rate is 38%.

The blended yarn is produced by the following steps: selecting vinylon fibers, acrylic fibers and wool fibers as raw materials, mixing → carding → doubling → roving → spun yarn → spooling → silk combining and double twisting to form double twisted yarn, removing the vinylon fibers by hot water treatment at 92 ℃, and dyeing to obtain the blended yarn.

The acrylic fiber oiling agent is prepared from the following raw materials in parts by weight: 25 parts of vegetable oil, 12 parts of high-carbon fatty alcohol phosphate polyoxyethylene ether, 11 parts of high-carbon fatty alcohol polyoxyethylene ether, 7 parts of sorbitan stearate, (Z) -9-octadecenoic acid-dodecyl ester 2.5 parts, 4 parts of coconut diethanol amide, 7 parts of high-carbon alcohol alkyl phosphate potassium salt, 5.5 parts of medium-carbon alcohol polyoxyethylene ether alkyl phosphate potassium salt, 3.5 parts of alkyl carboxylate type imidazoline phosphate potassium salt, 4 parts of fatty acid polyoxyethylene methyl ether, 4 parts of lauryl alcohol polyoxyethylene ether sulfosuccinate disodium, 2.5 parts of maleic anhydride-acrylic acid copolymer, 2.5 parts of dispersing agent and 1.8 parts of bactericide.

The dispersant is stearic acid monoglyceride.

The bactericide is sodium diacetate.

The antistatic finishing agent is prepared from the following raw materials in parts by weight: 12 parts of sulfonated polyaniline, 11 parts of polyethylene benzyl trimethyl quaternary ammonium salt, 9 parts of octadecyl dimethyl hydroxyethyl quaternary ammonium nitrate, 7 parts of N- (phosphonomethyl) glycine isopropylamine salt, 6 parts of dimethyl terephthalate, 4.5 parts of zinc cyclohexanebutyrate, 2.5 parts of polyethylene glycol monomethyl ether, 12 parts of hydrogenated ricinoleic acid, 4 parts of thickening agent, 1.2 parts of defoaming agent, 12 parts of ethanol and 70 parts of water.

The thickening agent is a mixture of hydroxypropyl distarch phosphate, sorbitan tristearate and sodium carboxymethyl cellulose in a weight ratio of 3.5:1.8: 1.

The defoaming agent is polyoxypropylene polyoxyethylene glycerol ether.

Example 5

The antistatic high-elasticity bulked blended yarn is a blended yarn which is obtained by removing vinylon fibers through dissolution and has a sheath-core structure and is formed by acrylic fibers and wool fibers, and the blending mass ratio of the acrylic fibers to the wool fibers is 70%: 30% of vinylon fibers, wherein the mass of the vinylon fibers accounts for 40% of the total weight of the blended yarn before dissolution, the acrylic fibers are treated by an acrylic oil solution, and the wool fibers are treated by an antistatic finishing agent.

The vinylon fiber is water-soluble vinylon short fiber, the specification of the vinylon short fiber is 1.67dtex multiplied by 38mm, and the vinylon short fiber is dissolved in water at 95 ℃.

The acrylic fiber is high-shrinkage acrylic fiber, the specification of the acrylic fiber is 1.67dtex multiplied by 38mm, and the boiling water shrinkage rate is 40%.

The blended yarn is produced by the following steps: selecting vinylon fibers, acrylic fibers and wool fibers as raw materials, mixing → carding → doubling → roving → spun yarn → spooling → silk combining and double twisting to form double twisted yarn, removing the vinylon fibers by hot water treatment at 95 ℃, and dyeing to obtain the blended yarn.

The acrylic fiber oiling agent is prepared from the following raw materials in parts by weight: 30 parts of vegetable oil, 15 parts of high-carbon fatty alcohol phosphate polyoxyethylene ether, 12 parts of high-carbon fatty alcohol polyoxyethylene ether, 8 parts of sorbitan stearate, (Z) -9-octadecenoic acid-dodecyl ester, 5 parts of coconut diethanol amide, 8 parts of high-carbon alcohol alkyl phosphate potassium salt, 6 parts of medium-carbon alcohol polyoxyethylene ether alkyl phosphate potassium salt, 4 parts of alkyl carboxylate type imidazoline phosphate potassium salt, 5 parts of fatty acid polyoxyethylene methyl ether, 5 parts of disodium lauryl alcohol polyoxyethylene ether sulfosuccinate, 3 parts of maleic anhydride-acrylic acid copolymer, 3 parts of a dispersing agent and 2 parts of a bactericide.

The dispersant is glyceryl tristearate.

The bactericide is calcium propionate or sodium lactate.

The antistatic finishing agent is prepared from the following raw materials in parts by weight: 15 parts of sulfonated polyaniline, 12 parts of polyvinyl benzyl trimethyl quaternary ammonium salt, 10 parts of octadecyl dimethyl hydroxyethyl quaternary ammonium nitrate, 8 parts of N- (phosphonomethyl) glycine isopropylamine salt, 7 parts of dimethyl terephthalate, 5 parts of zinc cyclohexanebutyrate, 3 parts of polyethylene glycol monomethyl ether, 15 parts of hydrogenated ricinoleic acid, 5 parts of thickening agent, 1.5 parts of defoaming agent, 15 parts of ethanol and 80 parts of water.

The thickening agent is a mixture of hydroxypropyl distarch phosphate, sorbitan tristearate and sodium carboxymethyl cellulose in a weight ratio of 4:2: 1.

The defoaming agent is polydimethylsiloxane.

Comparative example 1

This comparative example differs from example 1 in that: the wool fibers were not treated with an antistatic finish, and the other process parameters and the raw materials for the treatment of the acrylic fibers were the same as in example 1.

Through detection, the surface resistance of the fabrics woven by the bulked blended yarns of the embodiments 1 to 5 of the invention is 3.24 to 5.61 multiplied by 10⁷Ω, elastic recovery (longitudinal/transverse) 86.5%/93.6%; the surface resistance of the fabric woven from the bulked blended yarn of comparative document 1 was 4.86X 10⁹Ω, elastic recovery (longitudinal/transverse) 84.3%/91.7%; from the above detection results, it can be seen that the bulked blended yarn of the present invention has excellent antistatic properties and high elasticity.

The above-described embodiments are preferred implementations of the present invention, and the present invention may be implemented in other ways without departing from the spirit of the present invention.

Claims

1. The utility model provides an antistatic high-elasticity's inflation blending yarn which characterized in that: the bulked blended yarn is blended yarn with a sheath-core structure, which is obtained by dissolving and removing vinylon fibers and is formed by acrylic fibers and wool fibers, and the blending mass ratio of the acrylic fibers to the wool fibers is 50-70%: 30% -50% of the polyvinyl alcohol fiber, the polyvinyl alcohol fiber accounts for 10-40% of the total weight of the blended yarn before dissolving, the acrylic fiber is treated by an acrylic oil agent, and the wool fiber is treated by an antistatic finishing agent.

2. The bulked blended yarn with antistatic high elasticity according to claim 1, wherein: the vinylon fiber is water-soluble vinylon short fiber with the specification of 1.67dtex multiplied by 38mm, and is dissolved in water at the temperature of 85-95 ℃.

3. The bulked blended yarn with antistatic high elasticity according to claim 1, wherein: the acrylic fiber is high-shrinkage acrylic fiber, the specification of the acrylic fiber is 1.67dtex multiplied by 38mm, and the boiling water shrinkage rate is 30-40%.

4. The bulked blended yarn with antistatic high elasticity according to claim 1, wherein: the blended yarn is produced by the following steps: the blended yarn is prepared by selecting vinylon fibers, acrylic fibers and wool fibers as raw materials, mixing → carding → doubling → roving → spun yarn → spooling → silk combining and double twisting to form double twisted yarn, removing the vinylon fibers through hot water treatment at 85-95 ℃, and dyeing.

5. The bulked blended yarn with antistatic high elasticity according to claim 1, wherein: the acrylic fiber oiling agent is prepared from the following raw materials in parts by weight: 10-30 parts of vegetable oil, 5-15 parts of high-carbon fatty alcohol phosphate polyoxyethylene ether, 8-12 parts of high-carbon fatty alcohol polyoxyethylene ether, 4-8 parts of sorbitan stearate, (1-3 parts of Z) -9-octadecenoic acid-dodecyl ester, 1-5 parts of coconut diethanol amide, 4-8 parts of high-carbon alcohol alkyl phosphate potassium salt, 4-6 parts of medium-carbon alcohol polyoxyethylene ether alkyl phosphate potassium salt, 2-4 parts of alkyl carboxylate type imidazoline phosphate potassium salt, 1-5 parts of fatty acid polyoxyethylene methyl ether, 1-5 parts of lauryl alcohol polyoxyethylene ether sulfosuccinate disodium, 1-3 parts of maleic anhydride-acrylic acid copolymer, 1-3 parts of dispersing agent and 1-2 parts of bactericide.

6. The bulked blended yarn with antistatic high elasticity according to claim 5, wherein: the dispersing agent is at least one of calcium stearate, butyl stearate, ethylene bis stearamide, glyceryl monostearate and glyceryl tristearate.

7. The bulked blended yarn with antistatic high elasticity according to claim 5, wherein: the bactericide is at least one of sodium benzoate, potassium sorbate, sodium dehydroacetate, sodium diacetate, calcium propionate and sodium lactate.

8. The bulked blended yarn with antistatic high elasticity according to claim 1, wherein: the antistatic finishing agent is prepared from the following raw materials in parts by weight: 5-15 parts of sulfonated polyaniline, 8-12 parts of polyvinyl benzyl trimethyl quaternary ammonium salt, 6-10 parts of octadecyl dimethyl hydroxyethyl quaternary ammonium nitrate, 4-8 parts of N- (phosphonomethyl) glycine isopropylamine salt, 3-7 parts of dimethyl terephthalate, 3-5 parts of zinc cyclohexane butyrate, 1-3 parts of polyethylene glycol monomethyl ether, 5-15 parts of hydrogenated ricinoleic acid, 1-5 parts of thickening agent, 0.5-1.5 parts of defoaming agent, 5-15 parts of ethanol and 40-80 parts of water.

9. The bulked blended yarn with antistatic high elasticity according to claim 8, wherein: the thickening agent is a mixture of hydroxypropyl distarch phosphate, sorbitan tristearate and sodium carboxymethyl cellulose in a weight ratio of 2-4:1-2: 1.

10. The bulked blended yarn with antistatic high elasticity according to claim 8, wherein: the defoaming agent is at least one of polyoxyethylene polyoxypropylene amine ether, polyoxypropylene glycerol ether, polyoxypropylene polyoxyethylene glycerol ether and polydimethylsiloxane.