CN115369537A

CN115369537A - Matte elastic fireproof wire and manufacturing process thereof

Info

Publication number: CN115369537A
Application number: CN202211102672.4A
Authority: CN
Inventors: 傅冰如; 胡冬正; 王宣听; 陈非凡; 潘一可; 王迦勒; 阚向法
Original assignee: Wenzhou Yike Thread Technology Co ltd
Current assignee: Wenzhou Yike Thread Technology Co ltd
Priority date: 2022-09-09
Filing date: 2022-09-09
Publication date: 2022-11-22
Anticipated expiration: 2042-09-09
Also published as: CN115369537B

Abstract

The invention relates to a manufacturing process of a matt elastic fireproof wire, which comprises the following steps of selecting a flame-retardant material aramid fiber mixed flame-retardant auxiliary agent to carry out crisscross tight coating on nylon monofilaments by one layer without stress, then using different pulling forces according to the monofilaments with different diameters, equally dividing five pulling force grades according to the pulling force, carrying out five times of coating, and carrying out staggered coating and upgrading the pulling force grade every time of coating, so as to form an aramid fiber fireproof nylon monofilament coated wire; secondly, uniformly compressing and twisting a plurality of monofilaments into single-stranded folded yarns after folding; step three, continuously coating the single stranded wire again by repeating the step one; step four, carrying out high-temperature ironing and shaping treatment at 60-80 ℃ on the single folded yarn obtained in the step three; fifthly, singeing the single-stranded wire obtained in the fourth step to enable the surface of the single-stranded wire to be in a non-feather matte shape; and step six, respectively carrying out soaking fireproof treatment and antistatic treatment on the single-stranded wire obtained in the step five.

Description

Matte elastic fireproof wire and manufacturing process thereof

Technical Field

The invention relates to the field of new materials, in particular to a matt elastic fireproof wire for a textile process and a manufacturing process thereof.

Background

At present, more and more elastic fabric materials are selected in the whole sewn product market, but the application scene of the traditional elastic thread function is relatively limited, and in some special fields such as military combat uniforms, the application scene is wide in demand, and meanwhile, the effects of flame retardance, water resistance, ultraviolet resistance, good tensile resistance, strong physical stability and the like are required, so that how to research and develop a sub-light elastic thread with the functions becomes a technical problem which needs to be solved urgently.

Disclosure of Invention

The invention provides an antistatic filopless elastic expansion line used in textile technology and a manufacturing technology thereof in order to solve the technical defects.

In order to solve the technical problems, the method comprises the steps of firstly, selecting a flame-retardant material aramid fiber mixed flame-retardant auxiliary agent to carry out crisscross and tight coating on nylon monofilaments by one layer without stress, then using different pulling forces according to the monofilaments with different diameters, equally dividing five pulling force grades according to the pulling force, carrying out five times of coating, and carrying out staggered coating in the next time and upgrading the pulling force grade every time of coating to form the aramid fiber fireproof nylon monofilament coated yarn;

step two, uniformly compressing and twisting a plurality of monofilaments into single-stranded folded yarns; step three, continuously coating the single stranded wire again by repeating the step one;

step four, performing high-temperature ironing and shaping treatment at 60-80 ℃ on the single folded yarn obtained in the step three;

fifthly, singeing the single-stranded wire obtained in the fourth step to enable the surface of the single-stranded wire to be in a non-feather matt state;

step six, soaking the single-stranded wire obtained in the step five together with a waterproof auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, then soaking together with the waterproof auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, then soaking together with a fireproof auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, then soaking together with an antistatic auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, finally soaking together with an anti-ultraviolet auxiliary agent for 2-4 hours, and then drying at a high temperature of 60-80 ℃;

and step seven, twisting the single-stranded wire into three strands of stranded wires. The preferred temperature for the high temperature treatment of the individual strands in step three is 70 degrees. The soaking time is preferably three hours.

After the technical scheme is adopted, compared with the traditional elastic thread, the elastic thread product obtained by the coating method has higher stability, the physical property is increased, and the risk of bare nylon monofilaments can be reduced in the practical use and stretching process. The aramid fiber mixed flame retardant with flame retardance is utilized, so that the flame retardance of the nylon monofilament is improved, the technical effect of flame retardance can be achieved by utilizing a combination method, the combination between the aramid fiber and the elastic thread does not exist in the field, the combination is carried out according to the method, the winding method is more stable than the traditional winding method, and the characteristics of two kinds of wires are better met. After the compression folding in the second step and the repeated covering in the step 3, the two wires can be covered to the maximum extent, and the combination degree is improved. And soaking the various auxiliaries in the step six to enable the elastic line to have the characteristics of fire prevention, water prevention, static resistance, ultraviolet resistance and the like.

Detailed Description

Selecting a flame-retardant material aramid fiber mixed flame-retardant auxiliary agent to carry out crisscross and tight coating on nylon monofilaments by one layer without stress, then using different pulling forces according to monofilaments with different diameters, equally dividing five pulling force grades according to the pulling force, carrying out five times of coating, and carrying out staggered coating and upgrading the pulling force grade every time of coating, so as to form the aramid fiber fireproof nylon monofilament coated wire;

step two, uniformly compressing and twisting a plurality of monofilaments into single-stranded folded yarns; step three, continuously coating the single strand of the yarn again by repeating the step one;

step four, carrying out high-temperature ironing and shaping treatment at 60-80 ℃ on the single folded yarn obtained in the step three;

step six, soaking the single-stranded wire obtained in the step five together with a waterproof auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, then soaking together with the waterproof auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, then soaking together with a fireproof auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, then soaking together with an antistatic auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, finally soaking together with an ultraviolet resistant auxiliary agent for 2-4 hours, and then drying at a high temperature of 60-80 ℃;

Compared with the traditional elastic thread, the elastic thread product obtained by the coating method has higher stability, increases the physical property, and can reduce the risk of bare nylon monofilaments in the actual use and stretching process. The aramid fiber mixed flame retardant with flame retardance is utilized, so that the flame retardance of the nylon monofilament is improved, the technical effect of flame retardance can be achieved by utilizing a combination method, the combination between the aramid fiber and the elastic thread does not exist in the field, the combination is carried out according to the method, the winding method is more stable than the traditional winding method, and the characteristics of two kinds of wires are better met. After the compression folding in the second step and the repeated covering in the step 3, the two wires can be covered to the maximum extent, and the combination degree is improved. And soaking the various auxiliaries in the step six to enable the elastic line to have the characteristics of fire prevention, water prevention, static resistance, ultraviolet resistance and the like.

Claims

1. The manufacturing process of the matt elastic fireproof line is characterized in that:

selecting a flame-retardant material aramid fiber mixed flame-retardant auxiliary agent to carry out crisscross close coating on nylon monofilaments by one layer without stress, then using different pulling forces according to monofilaments with different diameters, equally dividing five pulling force grades according to the pulling force, carrying out five times of coating, and carrying out staggered coating and upgrading the pulling force grade every time of coating, so as to form the aramid fiber fireproof nylon monofilament coated yarn;

step two, uniformly compressing and twisting a plurality of monofilaments into single-stranded folded yarns;

step three, continuously coating the single stranded wire again by repeating the step one;

fifthly, singeing the single-stranded wire obtained in the fourth step to enable the surface of the single-stranded wire to be in a non-feather matte shape;

step six, soaking the single-stranded wire obtained in the step five together with a waterproof auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, then soaking with a fireproof auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, then soaking with an antistatic auxiliary agent for 2-4 hours, then drying at a high temperature of 60-80 ℃, finally soaking with an anti-ultraviolet auxiliary agent for 2-4 hours, and then drying at a high temperature of 60-80 ℃;

and step seven, twisting the single-stranded wire into three strands of stranded wires.

2. The manufacturing process of the matt elastic fireproof line according to claim 1, wherein: the preferred temperature for the high temperature treatment of the individual strands in step three is 70 degrees.

3. The manufacturing process of the matt elastic fireproof line according to claim 1, wherein: the soaking waterproof time, the soaking antistatic treatment and the soaking fireproof treatment are preferably three hours.

4. The matt fire line according to any one of claims 1 to 3.