CN110468479B

CN110468479B - High-strength anti-bending blended yarn

Info

Publication number: CN110468479B
Application number: CN201910584270.4A
Authority: CN
Inventors: 陈兴华; 卓志明; 吴学海
Original assignee: Fujian Kangbaisai New Materials Co ltd
Current assignee: Fujian Minruixin Fiber Co ltd
Priority date: 2019-07-01
Filing date: 2019-07-01
Publication date: 2020-11-10
Anticipated expiration: 2039-07-01
Also published as: CN110468479A

Abstract

The invention relates to the technical field of chemical fibers, in particular to a novel high-strength anti-bending blended yarn, which comprises a core wire, a winding wire and a spinning nanofiber membrane arranged between the core wire and the winding wire; the core wire comprises cotton fibers, bamboo charcoal fibers and adhesive fibers which are parallel to each other, the bamboo charcoal fibers and the adhesive fibers are arranged on the surfaces of the cotton fibers in a surrounding mode, and the bamboo charcoal fibers and the adhesive fibers are arranged at intervals; the spinning nanofiber membrane is coated outside the core wire; the winding comprises bamboo fibers and polyvinyl chloride fibers, the bamboo fibers and the polyvinyl chloride fibers are spirally wound on the surface of the spinning nanofiber membrane, and the spiral direction of the bamboo fibers is opposite to that of the polyvinyl chloride fibers; the angle range of the helical angle of the bamboo fiber is 8-12 degrees, and the angle range of the helical angle of the polyvinyl chloride fiber is 10-15 degrees. The invention has simple structure and easy realization, and enhances the strength, toughness and antibacterial performance of the blended yarn.

Description

High-strength anti-bending blended yarn

Technical Field

The invention relates to the technical field of chemical fibers, in particular to novel high-strength anti-bending blended yarn.

Background

The blended yarn is generally prepared by mixing two or more different fibers according to a specific proportion, and the existing blended yarn has the defects of low strength, poor bending resistance and poor antibacterial effect, and cannot meet the use requirements of people on the blended yarn.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a novel high-strength anti-bending blended yarn with high strength and good anti-bending property.

In order to solve the technical problems, the invention adopts the technical scheme that: a novel high-strength anti-bending blended yarn comprises a core wire, a winding wire and a spinning nanofiber membrane arranged between the core wire and the winding wire;

the core wire comprises cotton fibers, bamboo charcoal fibers and adhesive fibers which are parallel to each other, the bamboo charcoal fibers and the adhesive fibers are arranged on the surfaces of the cotton fibers in a surrounding mode, and the bamboo charcoal fibers and the adhesive fibers are arranged at intervals;

the spinning nanofiber membrane is coated outside the core wire;

the winding comprises bamboo fibers and polyvinyl chloride fibers, the bamboo fibers and the polyvinyl chloride fibers are spirally wound on the surface of the spinning nanofiber membrane, and the spiral direction of the bamboo fibers is opposite to that of the polyvinyl chloride fibers;

the angle range of the helical angle of the bamboo fiber is 8-12 degrees, and the angle range of the helical angle of the polyvinyl chloride fiber is 10-15 degrees;

the ratio of the diameter of the cotton fibers to the diameter of the bamboo charcoal fibers ranges from 2 to 5, and the ratio of the diameter of the adhesive fibers to the diameter of the bamboo charcoal fibers ranges from 2 to 4.

The invention has the beneficial effects that: the novel high-strength anti-bending blended yarn comprises a core wire, a winding wire and a spinning nanofiber membrane arranged between the core wire and the winding wire, wherein cotton fibers, bamboo carbon fibers and adhesive fibers are arranged in parallel, the bamboo carbon fibers and the adhesive fibers are arranged on the surface of the cotton fibers in a surrounding manner, and the spinning nanofiber membrane is coated on the surface of the core wire, so that the core wire has the advantages of high strength, good anti-bending property and strong antibacterial property; the strength of the wire core is enhanced by the spinning nanofiber membrane, and the effects of fixing and bending resistance are achieved; bamboo fiber and polyvinyl chloride fiber are reversely wound outside the core wire, the bamboo fiber is good in toughness and has a permanent antibacterial effect, and the polyvinyl chloride fiber enhances the elasticity of the yarn and plays a role in protection and buffering.

Drawings

FIG. 1 is a schematic structural view of a novel high strength and bending resistant blended yarn according to an embodiment of the present invention;

description of reference numerals:

1-a core wire; 11-cotton fibers; 12-bamboo charcoal fiber; 13-adhesive fibres;

2-winding; 21-bamboo fiber; 22-polyvinyl chloride fibers;

3-spinning a nanofiber membrane;

4-bamboo fiber layer; 41-titanium dioxide nanoparticles; 42-silver ion coating.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1, the novel high-strength anti-bending blended yarn of the present invention includes a core wire, a winding wire, and a spinning nanofiber membrane disposed between the core wire and the winding wire;

the spinning nanofiber membrane is coated outside the core wire;

From the above description, the beneficial effects of the present invention are: the bamboo charcoal fiber and the adhesive fiber are arranged in parallel, the bamboo charcoal fiber and the adhesive fiber are arranged on the surface of the cotton fiber in a surrounding manner, and the spinning nanofiber membrane is coated on the surface of the core wire, so that the core wire has the advantages of high strength, good bending resistance and strong antibacterial property; the strength of the wire core is enhanced by the spinning nanofiber membrane, and the effects of fixing and bending resistance are achieved; bamboo fiber and polyvinyl chloride fiber are reversely wound outside the core wire, the bamboo fiber is good in toughness and has a permanent antibacterial effect, and the polyvinyl chloride fiber enhances the elasticity of the yarn and plays a role in protection and buffering.

Furthermore, novel high strength anti-bending blended yarn still includes the bamboo fibre layer of cladding outside the winding, the inner wall on bamboo fibre layer is equipped with the titanium dioxide nano particle, the outer wall on bamboo fibre layer is equipped with silver ion coating.

From the above description, the titanium dioxide nano particles and the silver ion coating both have extremely strong bactericidal effects, and the antibacterial performance of the blended yarn is enhanced.

Further, the diameter of the cotton fiber is respectively larger than that of the bamboo charcoal fiber and that of the adhesive fiber.

As can be seen from the above description, the cotton fiber plays a major supporting role, ensuring the strength and air permeability of the blended yarn.

Further, the adhesive fiber is adhesive temperature-adjusting fiber.

Further, the angle of the helical angle of the bamboo fiber is 8 degrees, and the angle of the helical angle of the polyvinyl chloride fiber is 10 degrees.

Further, the strand ratio of the cotton fibers, the bamboo charcoal fibers and the adhesive fibers is 1: 2: 2.

furthermore, the number of the strands of the bamboo charcoal fiber and the adhesive fiber is even.

Further, the ratio of the strands of the bamboo fibers to the strands of the polyvinyl chloride fibers is 1; 1.

furthermore, the number of the strands of the bamboo fibers and the number of the strands of the polyvinyl chloride fibers are both odd.

As can be seen from the above description, designing the number of strands of the bamboo charcoal fiber and the adhesive fiber to be an even number and designing the number of strands of the bamboo fiber and the polyvinyl chloride fiber to be an odd number is both beneficial to improving the strength and toughness of the blended yarn.

Referring to fig. 1, a first embodiment of the present invention is: a novel high-strength anti-bending blended yarn comprises a core wire 1, a winding wire 2 and a spinning nanofiber membrane 3 arranged between the core wire 1 and the winding wire 2;

the core wire 1 comprises cotton fibers 11, bamboo charcoal fibers 12 and adhesive fibers 13 which are parallel to each other, wherein the bamboo charcoal fibers 12 and the adhesive fibers 13 are arranged on the surfaces of the cotton fibers 11 in a surrounding mode, and the bamboo charcoal fibers 12 and the adhesive fibers 13 are arranged at intervals;

the spinning nanofiber membrane 3 is coated outside the core wire 1;

the winding 2 comprises bamboo fibers 21 and polyvinyl chloride fibers 22, the bamboo fibers 21 and the polyvinyl chloride fibers 22 are spirally wound on the surface of the spinning nanofiber membrane 3, and the spiral direction of the bamboo fibers 21 is opposite to that of the polyvinyl chloride fibers 22;

the angle range of the helical angle of the bamboo fiber 21 is 8-12 degrees, and the angle range of the helical angle of the polyvinyl chloride fiber 22 is 10-15 degrees;

the ratio of the diameter of the cotton fibers 11 to the diameter of the bamboo charcoal fibers 12 ranges from 2 to 5, and the ratio of the diameter of the adhesive fibers 13 to the diameter of the bamboo charcoal fibers 12 ranges from 2 to 4.

Referring to fig. 1, a second embodiment of the present invention is: a novel high-strength anti-bending blended yarn comprises a core wire 1, a winding wire 2 and a spinning nanofiber membrane 3 arranged between the core wire 1 and the winding wire 2;

the spinning nanofiber membrane 3 is coated outside the core wire 1;

the winding 2 comprises bamboo fibers 21 and polyvinyl chloride fibers 22, the bamboo fibers 21 and the polyvinyl chloride fibers 22 are spirally wound on the surface of the spinning nanofiber membrane 3, and the spiral direction of the bamboo fibers 21 is opposite to that of the polyvinyl chloride fibers 22.

The novel high-strength anti-bending blended yarn further comprises a bamboo fiber layer 4 coated outside the winding 2, the inner wall of the bamboo fiber layer 4 is provided with titanium dioxide nano particles 41, and the outer wall of the bamboo fiber layer 4 is provided with a silver ion coating 42. The diameters of the cotton fibers 11 are respectively larger than the diameters of the bamboo charcoal fibers 12 and the adhesive fibers 13. The adhesive fiber 13 is an adhesive thermoregulation fiber. The angle of the helical angle of the bamboo fiber 21 is 8 degrees, and the angle of the helical angle of the polyvinyl chloride fiber 22 is 10 degrees. The strand ratio of the cotton fibers 11 to the bamboo charcoal fibers 12 to the adhesive fibers 13 is 1: 2: 2. the number of the bamboo charcoal fiber 12 and the adhesive fiber 13 is even. The strand number ratio of the bamboo fibers 21 to the polyvinyl chloride fibers 22 is 1; 1. the number of strands of the bamboo fibers 21 and the number of strands of the polyvinyl chloride fibers 22 are both odd.

In conclusion, the invention provides a novel high-strength anti-bending blended yarn, which comprises a core wire, a winding wire and a spinning nanofiber membrane arranged between the core wire and the winding wire, wherein cotton fibers, bamboo carbon fibers and adhesive fibers are arranged in parallel, the bamboo carbon fibers and the adhesive fibers are arranged on the surface of the cotton fibers in a surrounding manner, and the spinning nanofiber membrane is coated on the surface of the core wire, so that the core wire has the advantages of high strength, good anti-bending property and strong antibacterial property; the strength of the wire core is enhanced by the spinning nanofiber membrane, and the effects of fixing and bending resistance are achieved; bamboo fiber and polyvinyl chloride fiber are reversely wound outside the core wire, the bamboo fiber is good in toughness and has a permanent antibacterial effect, and the polyvinyl chloride fiber enhances the elasticity of the yarn and plays a role in protection and buffering.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims

1. The high-strength anti-bending blended yarn is characterized by comprising a core wire, a winding wire and a spinning nanofiber membrane arranged between the core wire and the winding wire;

the spinning nanofiber membrane is coated outside the core wire;

2. The high-strength anti-bending blended yarn according to claim 1, further comprising a bamboo fiber layer coated outside the winding, wherein the inner wall of the bamboo fiber layer is provided with titanium dioxide nanoparticles, and the outer wall of the bamboo fiber layer is provided with a silver ion coating.

3. The high strength anti-bending blended yarn according to claim 1, wherein the diameter of the cotton fiber is larger than the diameter of the bamboo charcoal fiber and the diameter of the adhesive fiber, respectively.

4. The high strength, bend-resistant blended yarn of claim 1, wherein said adhesive fiber is an adhesive temperature-regulating fiber.

5. The high strength, bend-resistant blended yarn of claim 1, wherein the angle of the helix angle of the bamboo fiber is 8 ° and the angle of the helix angle of the polyvinyl chloride fiber is 10 °.

6. The high-strength anti-bending blended yarn according to claim 1, wherein the ratio of the strands of the cotton fiber, the bamboo charcoal fiber and the adhesive fiber is 1: 2: 2.

7. the high strength anti-bending blended yarn according to claim 1, wherein the number of strands of the bamboo charcoal fiber and the adhesive fiber is even.

8. The high strength, bend-resistant blended yarn according to claim 1, wherein the ratio of the number of strands of the bamboo fiber and the polyvinyl chloride fiber is 1; 1.

9. the high strength, bend-resistant blended yarn according to claim 1, wherein the number of strands of the bamboo fiber and the polyvinyl chloride fiber are both odd.