CN107268138B - Functional cyproheptaculum compact spinning bunchy yarn and production process thereof - Google Patents

Abstract

The invention discloses a novel functional cyproheptaculum compact spinning bunchy yarn and a production process thereof, wherein the yarn adopts coffee carbon polyester fiber, colored viscose, polyimide fiber and copper ion modified polyester fiber as raw materials; wherein, the proportion of each fiber is as follows according to the weight percentage: cyproding is adopted to spin ring yarn closely, wherein: roving A: 2-20% of copper ion modified polyester fiber, 50-70% of colored viscose C and 30-5% of polyimide fiber; roving B: 40-60% of colored viscose D and 60-40% of coffee carbon polyester fiber; the colored viscose C and the colored viscose D have different colors. The fancy yarn is developed by utilizing the color characteristics of the functional fibers through yarn design, so that the functional fiber fabric not only meets the functional requirements of the market, but also has fashionable characteristics, and the market space of the functional fibers is expanded. The yarn has the advantages of heat preservation, antibiosis, moisture permeability, air permeability, fashion and unique structure.

Description

Functional cyproheptaculum compact spinning bunchy yarn and production process thereof

Technical Field

The invention belongs to the field of spinning production, and particularly relates to a functional cyproheptaculum compact spinning bunchy yarn and a production process thereof.

Background

The functional fiber is characterized in that copper ion modified polyester fiber, coffee carbon polyester fiber and polyimide fiber are colored fibers, wherein the copper ion modified polyester fiber has the functions of lasting antibiosis, deodorization, self-cleaning, mite prevention, deodorization and electric conduction, and the fiber is bronze; the coffee carbon polyester fiber not only has the functions of moisture absorption, heating and warm keeping, but also has the effects of deodorization and bacteriostasis, and the fiber is black; the polyimide fiber product has good mechanical property, high temperature resistance, flame retardance, insulation, radiation resistance, corrosion resistance, low heat conductivity coefficient and good heat insulation property, the fibers are golden yellow, and other colored fibers colored by stock solution are also adopted, but the fibers have high rigidity, poor cohesion and high spinning difficulty.

Although the functional fiber has a plurality of good functions, the functional fiber has a specific color, and great limitation is brought to the development of the functional fiber and products thereof.

Disclosure of Invention

The purpose of the invention is as follows: in order to solve the defects of the prior art, the invention provides a functional cyprodinil compact spinning bunchy yarn and a production process thereof.

The technical scheme is as follows: a functional cyproheptaculum compact spinning bunchy yarn adopts the raw materials of coffee carbon polyester fiber, colored viscose, polyimide fiber and copper ion modified polyester fiber; cyproding compact spinning bunchy yarn, wherein: roving A: 2-20% of copper ion modified polyester fiber, 50-70% of colored viscose C and 30-5% of polyimide fiber; roving B: 40-60% of colored viscose D and 60-40% of coffee carbon polyester fiber; the colored viscose C and the colored viscose D have different colors.

The production process of the functional cyprodinil compact spinning bunchy yarn comprises the following spinning process flows:

because the multi-fiber mixing is adopted, in order to ensure the uniform mixing and reduce the damage to the fibers, a semi-worsted process is partially adopted;

roving A: BC262 type wool weaving machine → wool storage cabin → BC262 type wool weaving machine → FA106A opener → wool storage cabin → UF-80A feed box → FA266 type carding machine (attached LC-II type cotton-homogenizing controller) → FA311F type drawing frame (three channels) → TJFA458 type roving frame;

roving B: BC262 type wool making machine → FA106A opener → wool storage tank → UF-80A feed box → FA266 type carding machine (attached LC-II type cotton equalizing controller) → FA311F type drawing frame (three passes) → TJFA458 type roving frame;

roving A and roving B: an FA507 type spinning machine (modified by compact spinning, cyprodinil spinning and slub yarn spinning devices) → Toyota No.21C automatic winder;

blowing: selecting a BC262 type wool mixing machine, wherein the cylinder speed is 201-227r/min, an FA106A type opener, and the beater speed is 480-600 r/min; selecting an FA266 type carding machine, wherein the cylinder speed is 330r/min, the doffer speed is 20-30r/min, and the sliver ration is 19-23g/5 m;

drawing: adopting an FA311F drawing frame, wherein the drawing speed is 260-380m/min, and the final drawing ration is 17.5-22g/5 m;

roving: selecting a TJFA458 type roving frame, wherein the roving weight of the warp yarn is 3-5g/10m, the twist coefficient is 50-75, and the spindle speed is 800-;

spinning: an FA507 spinning machine is selected and is transformed into a siro compact spinning bunchy yarn for spinning, the twist coefficient is 330 plus 420, and the spindle speed is 13000 plus 16000 r/min;

spooling: an automatic winder of Toyota No.21C is selected, and the speed is 800-.

As an optimization: the fiber pretreatment specifically operates as follows: roving A: the polyimide fiber and the copper ion modified polyester fiber are both manually mixed, then spinning oil FX-801 with the mass ratio of 2.5% is added into deionized water or distilled water with the temperature of 25 ℃ under stirring, the solution is stirred until the solution is clear and transparent, the solution is uniformly sprayed into the fibers, and the fibers are sealed for 6-10 hours; loosening the dyed viscose in a cotton storage room, keeping the air humidity of the cotton storage room at 65-80%, keeping the temperature at 20-35 ℃, and carrying out humidity conditioning treatment; then weighing the dyed viscose according to the mass of the polyimide fibers and the copper ion modified polyester fibers, mixing according to the mass percentage, and sending to a wool making machine for processing and mixing twice.

Roving B: loosely wrapping the dyed viscose and the coffee carbon fibers in a cotton storage room, keeping the air humidity of the cotton storage room at 65-80%, keeping the temperature at 20-35 ℃, and carrying out humidity conditioning treatment; sending the mixture to a wool making machine for processing and mixing according to the mass percentage.

Has the advantages that: the fancy yarn is developed and developed by utilizing the color characteristics of the functional fibers through yarn design, so that the functional requirements of the market on the textiles with fashion characteristics are met, and the market space of the functional fibers is expanded. The yarn has the advantages of heat preservation, antibiosis, moisture permeability, air permeability, fashion and unique structure.

Detailed Description

Examples

A functional cyproheptaculum compact spinning bunchy yarn adopts the raw materials of coffee carbon polyester fiber, colored viscose, polyimide fiber and copper ion modified polyester fiber; adopting cyprodinil compact spinning bunchy yarn, wherein: roving A: 2-20% of copper ion modified polyester fiber, 50-70% of colored viscose C and 30-5% of polyimide fiber; roving B: 40-60% of colored viscose D and 60-40% of coffee carbon polyester fiber; the colored viscose C and the colored viscose D have different colors.

The specific operation is as follows: roving A: the polyimide fiber and the copper ion modified polyester fiber are both manually mixed, then spinning oil FX-801 with the mass ratio of 2.5% is added into deionized water or distilled water with the temperature of 25 ℃ under stirring, the solution is stirred until the solution is clear and transparent, the solution is uniformly sprayed into the fibers, and the fibers are sealed for 6-10 hours; loosening the dyed viscose in a cotton storage room, keeping the air humidity of the cotton storage room at 65-80%, keeping the temperature at 20-35 ℃, and carrying out humidity conditioning treatment; then weighing the dyed viscose according to the mass of the polyimide fibers and the copper ion modified polyester fibers, mixing according to the mass percentage, and sending to a wool making machine for processing and mixing twice.

Roving B: loosely wrapping the dyed viscose and the coffee carbon fibers in a cotton storage room, keeping the air humidity of the cotton storage room at 65-80%, keeping the temperature at 20-35 ℃, and carrying out humidity conditioning treatment; sending the mixture to a wool making machine for processing and mixing according to the mass percentage.

The fancy yarn is developed and developed by utilizing the color characteristics of the functional fibers through yarn design, so that the functional requirements of the market on the textiles with fashion characteristics are met, and the market space of the functional fibers is expanded.

The copper ion modified polyester fiber can increase the lasting, stable and good antibacterial performance of the fabric, and can also reduce static electricity in the textile production process and the fabric using process.

1. Fiber pretreatment:

polyimide fibers have high rigidity, poor cohesion, poor moisture absorption, severe electrostatic phenomena, and high spinning difficulty. In the spinning process, spinning oil is added to the polyimide fibers, the humidity is increased, the polyimide fibers are blended with the fibers with high moisture regain, and a small amount of conductive fibers are added, so that the spinnability of the polyimide fibers can be effectively changed. Because the wearing comfort of the polyimide fiber is poor and the price is high, the proportion of the polyimide fiber is generally reduced in use. Because the moisture regain of the copper ion modified polyester fiber is low, the fiber has low crimp rate, poor cohesion and poor spinnability, and pretreatment is also needed to improve the spinnability. Therefore, when the polyimide fiber is pretreated, if the yarn contains the copper ion-modified polyester fiber, the copper ion-modified polyester fiber is generally mixed with the polyimide fiber and pretreated.

The fiber pretreatment operation in the invention is specifically as follows:

roving A: the polyimide fiber and the copper ion modified polyester fiber are both manually mixed, then spinning oil FX-801 with the mass ratio of 2.5% is added into deionized water or distilled water with the temperature of 25 ℃ under stirring, the solution is stirred until the solution is clear and transparent, the solution is uniformly sprayed into the fibers, and the fibers are sealed for 6-10 hours; loosening the dyed viscose in a cotton storage room, keeping the air humidity of the cotton storage room at 65-80%, keeping the temperature at 20-35 ℃, and carrying out humidity conditioning treatment; then weighing the dyed viscose according to the mass of the polyimide fibers and the copper ion modified polyester fibers, mixing according to the mass percentage, and sending to a wool making machine for processing and mixing twice.

Roving B: loosely wrapping the dyed viscose and the coffee carbon fibers in a cotton storage room, keeping the air humidity of the cotton storage room at 65-80%, keeping the temperature at 20-35 ℃, and carrying out humidity conditioning treatment; sending the mixture to a wool making machine for processing and mixing according to the mass percentage.

As the fibers adopted in the invention are chemical fibers, the fiber uniformity is good, the length is controllable, no impurity exists, only few defects such as hard doubling, yarn bunching and the like exist, and the fiber is prevented from being damaged during process design. When multi-fiber blending is carried out, the uniformity of mixing is very important, and in order to ensure uniform mixing and reduce fiber damage, a semi-worsted process flow is selected.

2. The proportion of each fiber of the invention is as follows by weight percent:

adopting cyprodinil compact spinning bunchy yarn, wherein: roving A: 2-20% of copper ion modified polyester fiber, 50-70% of colored viscose C and 30-5% of polyimide fiber;

roving B: 40-60% of colored viscose D and 60-40% of coffee carbon polyester fiber;

the colored viscose C and the colored viscose D have different colors.

3. The spinning process flow is as follows:

because the multi-fiber mixing is adopted, in order to ensure the uniform mixing and reduce the damage to the fibers, a semi-worsted process is partially adopted.

Roving A: BC262 type wool weaving machine → wool storage cabin → BC262 type wool weaving machine → FA106A opener → wool storage cabin → UF-80A cotton feeding box → FA266 type carding machine (attached LC-II type cotton blending controller) → FA311F type drawing frame (three channels) → TJFA458 type roving frame

Roving B: BC262 type wool making machine → FA106A opener → wool storage tank → UF-80A feed box → FA266 type carding machine (attached LC-II type cotton balancing controller) → FA311F type drawing frame (three channels) → TJFA458 type roving frame

Roving A and roving B: FA507 type spinning frame (modified by compact spinning, cyprodinil spinning and slub yarn spinning device) → village No.21C automatic winder.

One specific embodiment of the present invention is: cyproheptadine compact slub spun yarn 18.5tex, wherein: slub yarn: pitch length 80, 60, 70, 90, 80, 60mm, pitch thickness 160%, pitch: 120. 100, 90, 130, 60, 90 mm.

Blowing: selecting a BC262 type wool mixing machine, wherein the cylinder speed is 201-227r/min, an FA106A type opener, and the beater speed is 480-600 r/min; selecting an FA266 type carding machine, wherein the cylinder speed is 330r/min, the doffer speed is 20-30r/min, and the sliver ration is 19-23g/5 m;

drawing: adopting an FA311F drawing frame, wherein the drawing speed is 260-380m/min, and the final drawing ration is 17.5-22g/5 m;

roving: selecting a TJFA458 type roving frame, wherein the roving weight of the warp yarn is 3-5g/10m, the twist coefficient is 50-75, and the spindle speed is 800-;

spinning: an FA507 spinning machine is selected and is transformed into a siro compact spinning bunchy yarn for spinning, the twist coefficient is 330 plus 420, and the spindle speed is 13000 plus 16000 r/min;

spooling: the Toyota NO.21C automatic winder is selected, the speed is 800-.

The technical solutions in the embodiments of the present invention are clearly and completely described above, so that those skilled in the art can better understand the advantages and features of the present invention, and thus the protection scope of the present invention is more clearly defined. The embodiments described herein are only a few embodiments of the present invention, rather than all embodiments, and all other embodiments that can be derived by one of ordinary skill in the art without inventive faculty based on the embodiments described herein are intended to fall within the scope of the present invention.

Claims (1)

1. A functional cyproheptadine compact spinning bunchy yarn is characterized in that: the yarns are made of coffee carbon polyester fibers, colored viscose, polyimide fibers and copper ion modified polyester fibers; wherein, the proportion of each fiber is as follows according to the weight percentage:

cyproding is adopted to spin ring yarn closely, wherein: roving A: 2-20% of copper ion modified polyester fiber, 50-70% of colored viscose C and 30-5% of polyimide fiber;

roving B: 40-60% of colored viscose D and 60-40% of coffee carbon polyester fiber;

the colored viscose C and the colored viscose D have different colors;

the fiber pretreatment is specifically carried out as follows: roving A: the polyimide fiber and the copper ion modified polyester fiber are both manually mixed, then spinning oil FX-801 with the mass ratio of 2.5% is added into deionized water or distilled water with the temperature of 25 ℃ under stirring, the solution is stirred until the solution is clear and transparent, the solution is uniformly sprayed into the fibers, and the fibers are sealed for 6-10 hours; loosening the dyed viscose in a cotton storage room, keeping the air humidity of the cotton storage room at 65-80%, keeping the temperature at 20-35 ℃, and carrying out humidity conditioning treatment; then weighing the dyed viscose according to the mass of the polyimide fibers and the copper ion modified polyester fibers, mixing according to the mass percentage, and sending the mixture to a wool making machine for processing and mixing twice;

roving B: loosely wrapping the dyed viscose and the coffee carbon fibers in a cotton storage room, keeping the air humidity of the cotton storage room at 65-80%, keeping the temperature at 20-35 ℃, and carrying out humidity conditioning treatment; sending the mixture to a mixing machine for processing and mixing according to the mass percentage;

the production process of the functional cyprodinil compact spinning bunchy yarn comprises the following spinning process flows: mixing the roving A, mixing the roving B and mixing the roving A and the roving B; the method comprises the following specific steps:

(1) the mixing of the roving a itself comprises the following steps: BC262 type wool making machine → wool storage cabin → BC262 type wool making machine → FA106A opener → wool storage cabin → UF-80A feed box → FA266 type cotton carding machine, attached LC-II type cotton-homogenizing controller → FA311F type drawing frame, three passes → TJFA458 type roving frame;

(2) the mixing of the roving B itself comprises the following steps: BC262 type wool making machine → FA106A opener → wool storage tank → UF-80A cotton feeding box → FA266 type cotton carding machine, attached LC-II type cotton balancing controller → FA311F type drawing frame, three passes → TJFA458 type roving frame;

(3) the mixing of roving a and roving B comprises the following steps: an FA507 type spinning frame is modified by a compact spinning device, a cyprodinil spinning device and a bunchy yarn spinning device → an automatic winder of Toyota NO. 21C;

wherein, in the step of the mixing of roving A itself, the mixing of roving B itself, the mixing of roving A and roving B, the process parameter setting of the same step is all the same, specifically as follows:

the BC262 type hair mixing machine: the cylinder speed is 201-227r/min, the FA106A type opener has the beater speed of 480-600 r/min; selecting an FA266 type carding machine, wherein the cylinder speed is 330r/min, the doffer speed is 20-30r/min, and the sliver ration is 19-23g/5 m;

the FA311F drawing frame comprises: the drawing speed is 260-380m/min, and the final drawing ration is 17.5-22g/5 m;

the TJFA458 type roving frame: the roving ration of the warp is 3-5g/10m, the twist coefficient is 50-75, and the spindle speed is 800-;

the FA507 type spinning frame comprises: spinning is carried out through the transformation of siro compact spinning bunchy yarn spinning, the twisting coefficient is 330 plus 420, and the spindle speed is 13000 plus 16000 r/min;

the Toyota No.21C automatic winder comprises: the speed is 800-1200 m/min.