CN213476220U - Compound yarn for kapok 3A antibacterial knitting - Google Patents

Abstract

The utility model discloses a folded yarn, including cotton-wood cotton blended yarn and roving, cotton-wood cotton blended yarn and roving twist with opposite direction, and the single yarn twist factor of cotton-wood cotton blended yarn is 420 and supplyes medicine 460, and the single yarn twist factor of roving is 290 and supplyes medicine 320. The compound yarn can weaken the rigidity of the kapok fiber, reduce hairiness, reduce slippage of the kapok fiber, enhance the holding capacity among the fibers, and effectively protect and utilize the kapok fiber in the cotton-kapok blended yarn; when the plied yarn is applied to the knitting, weaving and drafting processes, the problems that one single yarn is stressed in advance due to unbalanced stress between two yarns, the plied yarn is broken and even the plied yarn is scattered and taken off integrally can be solved; in addition, the knitted fabric woven by the compound yarn has an antibacterial effect, and the problem of emission and pollution of heavy metals or other chemical substances in the process of producing the antibacterial knitted fabric can be solved.

Description

Compound yarn for kapok 3A antibacterial knitting

Technical Field

The utility model belongs to knitting field, in particular to cotton 3A antibiotic knitting uses strand.

Background

In the prior art, the method for obtaining the textile with the antibacterial function from being invaded by harmful bacteria mainly comprises the following steps: a dissolution type and a non-dissolution type; the dissolution type antibacterial finishing agent is not chemically combined with the fabric, but can be absorbed into the human body by foot sweat, and the human body is damaged due to improper use. The non-dissolution type antibacterial finishing adopts the chemical bond combination formed by fiber modification and fabric, and the antibacterial method also has the hidden health safety hazard, is not the optimal selection, can increase carbon emission and has ecological toxicity to human bodies and environment.

Kapok fiber is a green and environment-friendly natural fiber, has the characteristics of light weight, natural heat preservation, antibiosis, environmental protection and the like, but has poor spinnability, is generally difficult to be purely spun, and can be blended with cotton or other cellulose fibers to produce clothing fabric with good luster and hand feeling. However, the following problems still remain: the kapok fiber has the advantages of high torsional rigidity, high filoplume during spinning, poor cohesion, low yarn strength and poor wear resistance, and is easy to damage the kapok fiber in the fabric due to friction during washing or wearing in the using process, so that the using effect of the kapok fiber is greatly reduced.

For example, various knitted socks are subjected to more or less friction during actual wearing and washing processes, so that fibers on the surface of the knitted fabric are exposed out of the surface of the knitted fabric, fuzz appears on the surface of the knitted fabric, and the fuzz can be intertwined with each other to form a plurality of spherical small granules, commonly called balls, which protrude out of the outer surface of the knitted fabric, and have serious influence on the attractiveness and sanitation of the knitted fabric.

The patent application (CN102304795A) discloses a thick and thin specially-combined yarn and a preparation method of a fabric thereof, the yarn and the method are suitable for woven fabrics, the yarn and the method are labor-saving, material-saving, energy-saving and emission-reducing, the characteristics of moisture absorption, ventilation, fluffiness, softness, excellent skin affinity and the like of the original untwisted cloth are ensured, meanwhile, the tensile capacity and the strength of the fabric are further improved, the wear resistance of the fabric is improved, and the yarn and the method are not suitable for knitted fabrics.

Patent application (CN206580943U) discloses a plied yarn, which aims to control the twist of the plied yarn to make the roving present an untwisted state, but the plied yarn changes the linear density of the thicker single yarn, reduces the friction force between the fibers to make the fibers of the roving with low twist easily slide, and the spun yarn is wound on the periphery of the roving to bind the fibers of the roving, and further illustrates the stress that the spun yarn cannot obtain the reverse cohesion support of the roving in the plied yarn, if the plied yarn is applied in the knitting and weaving drafting process, the first single yarn (spun yarn) mainly bears the delayed drafting force of the second single yarn (roving), and the unbalanced stress between the two easily causes the phenomenon that one single yarn is stressed in advance, the plied yarn is broken, and even the single yarn is scattered.

Disclosure of Invention

In order to solve the problems, the utility model provides a compound yarn for kapok 3A antibacterial knitting, which can weaken the rigidity of kapok fiber, reduce hairiness, reduce the slippage of the kapok fiber, enhance the holding capacity between fibers, and can effectively protect and utilize the kapok fiber in the cotton-kapok blended yarn; when the plied yarn is applied to the knitting, weaving and drafting processes, the problems that one single yarn is stressed in advance due to unbalanced stress between two yarns, the plied yarn is broken and even the plied yarn is scattered and taken off integrally can be solved; in addition, the knitted fabric woven by the compound yarn has an antibacterial effect, and the problem of emission and pollution of heavy metals or other chemical substances in the process of producing the antibacterial knitted fabric can be solved.

Another object of the utility model is to provide an antibiotic knitting strand of using of ceiba 3A, this strand is stand wear and tear, makes the ceiba fibre obtain more effective utilization, and the knitted fabric that adopts this strand to weave is difficult for pilling.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a folded yarn comprises a cotton-wood-cotton blended yarn and a roving yarn, wherein the cotton-wood-cotton blended yarn and the roving yarn are twisted in opposite directions, the single yarn twist coefficient of the cotton-wood-cotton blended yarn is 420-320, and the single yarn twist coefficient of the roving yarn is 290-320. The utility model discloses in, this ply yarn makes kapok fiber cavity can cushion the recovery owing to produced the effect of backing twist in reverse twisting, can make the kapok fiber in the cotton-wood cotton blended yarn obtain effectual protection utilization.

In addition, the cotton-wood-cotton blended yarn with high twist coefficient can weaken the rigidity of the kapok fiber and reduce hairiness, the pressure exerted on the fiber is increased by using larger twist, so that the yarn strength is increased, the slippage of the kapok fiber is reduced, the holding capacity between the fibers is enhanced, and when the plied yarn is applied to the knitting and weaving drafting process, the problems that one single yarn is stressed in advance due to unbalanced stress between two kinds of yarns, the plied yarn is broken and even the plied yarn is scattered integrally can be solved; in addition, due to the self action of the kapok fiber, the cotton fiber is harmless and antibacterial to human bodies, and the knitted fabric woven by adopting the strand has an antibacterial effect, so that the problem of emission pollution of heavy metals or other chemical substances in the process of producing the antibacterial knitted fabric can be solved.

Specifically, the outer wall surface of the folded yarn forms a concave surface and a convex surface, the number of the concave surfaces and the number of the convex surfaces are at least 2, the concave surfaces and the convex surfaces are uniformly arranged, at least 2 concave surfaces are cotton-wood blended yarns, and at least 2 convex surfaces are rough yarns. Generally, for the concave surface and the convex surface, cotton-wood-cotton blended yarns or rough yarns can be adopted, preferably, the concave surface is the cotton-wood-cotton blended yarns, and the convex surface is the rough yarns, so that the convex rough yarns can be rubbed in wearing and washing processes, meanwhile, the strength of the folded yarns can be increased, the kapok fibers in the concave surface cotton-wood-cotton blended yarns can be protected, the folded yarns are wear-resistant, the kapok fibers can be utilized more effectively, and knitted fabrics woven by the folded yarns are not easy to pilling.

Specifically, the diameter of the cotton-wood-cotton blended yarn is smaller than or equal to that of the roving, and the roving can be rubbed firstly when the roving is washed and rubbed, so that the cotton-wood-cotton blended yarn can be protected, and then kapok fibers in the cotton-wood-cotton blended yarn can be effectively utilized.

Specifically, the twisting direction of the plied yarn is S twist, the single yarn twist of the cotton-wood-cotton blended yarn and the roving is Z twist, and the roving with the conventional twist factor can be adopted as the roving.

Specifically, in the yarn, the kapok-containing fiber is greater than or equal to 5%, preferably, not more than 15% -30%.

Specifically, the cotton-wood-cotton blended yarn is formed by blending 5-30% of kapok fiber and 70-95% of cotton fiber; the roving yarn is one, two or three of all cotton yarn, chemical fiber filament or blended yarn containing at least 2 components in any combination.

Wherein the concavities and convexities may be staggered.

The utility model also provides a method for weaving the ceiba 3A knitting antibacterial socks by adopting the compound yarn, which comprises the following steps:

s1: the kapok fiber and the cotton fiber are obtained and blended into cotton-kapok blended yarn containing 5-30% of the kapok fiber and 70-95% of the cotton fiber, and the roving meeting the requirements is spun in the same way; the single yarn twist coefficient of the cotton-wood-cotton blended yarn is 420-460, and the single yarn twist coefficient of the roving is 290-320; in the step, a spinning machine can be used, in the cotton-wood-cotton blended yarn, the pressure exerted on the fibers is increased by using larger twist, so that the strength of the yarn is increased, the slippage of the kapok fibers is reduced, the holding capacity between the fibers is enhanced, high-twist spun yarn which is thinner than roving can be obtained, and the number of the two yarns can be the same;

s2: doubling the cotton-wood-cotton blended yarn and the roving by using a doubling machine, and preparing materials for twisting in the next procedure;

s3: twisting by a two-for-one twister: twisting the cotton-wood-cotton blended yarn and the roving in opposite directions to form a folded yarn, wherein the plying twisting direction is S twisting, and the twist range of the folded yarn is 8-16 per inch;

s4: dyeing the strand: dyeing the folded yarn by using a cheese cylinder;

s5: and weaving, sewing and shaping the sock by using knitting equipment.

In the method, the twist rigidity of the kapok fiber can be weakened, the hairiness can be reduced, the cohesion force of the kapok fiber in the blended yarn can be enhanced, and meanwhile, the twist of the twisted yarn in the subsequent process can be matched in a mode of improving the single yarn twist coefficient of the cotton-kapok blended yarn.

The cotton-wood-cotton blended yarns and the rough yarns have different twisting coefficients, so that the two yarns can be distinguished, the same yarn count can be formed, different thickness difference structures are shown, the twisting direction of the plied yarns is S twisting, and when the cotton-wood-cotton blended yarns and the rough yarns are twisted in the reverse direction, the plied yarns of the cotton-wood-cotton blended yarns and the rough yarns correspondingly obtain mutual cohesion stress in the process of increasing the twist, so that the application effects of more uniform yarn levelness and smooth and bright surfaces are achieved; the socks woven by the compound yarn are wear-resistant, skin-friendly and harmless to human bodies, kapok fibers in the socks are effectively utilized, the compound yarn has an antibacterial effect, pilling is not easy to occur, and the problem of heavy metal or other chemical substance emission pollution in the process of producing the antibacterial knitted fabric is solved.

Specifically, in step S5, one, two or three of 5-15% spandex, 10-40% spandex cotton covered yarn or spandex polyester covered yarn are inserted during the weaving process to increase the elasticity of the sock, improve the dimensional stability of the sock after being worn and during washing, and make the sock not easy to deform.

The utility model has the advantages that:

compared with the prior art, the utility model discloses a compound yarn for ceiba 3A antibacterial knitting, this compound yarn can weaken the fibrous rigidity of ceiba, reduce the filoplume, reduce the fibrous slip of ceiba, strengthen holding capacity between the fibre, can make the ceiba fibre in the cotton-wood-cotton blended yarn obtain effective protection utilization; when the plied yarn is applied to the knitting, weaving and drafting processes, the problems that one single yarn is stressed in advance due to unbalanced stress between two yarns, the plied yarn is broken and even the plied yarn is scattered and taken off integrally can be solved; in addition, the knitted fabric woven by the compound yarn has an antibacterial effect, and the problem of emission and pollution of heavy metals or other chemical substances in the process of producing the antibacterial knitted fabric can be solved.

The compound yarn is wear-resistant, so that the kapok fiber is utilized more effectively, and knitted fabrics woven by the compound yarn are not easy to pilling.

Drawings

Fig. 1 is a schematic structural view of a kapok 3A antibacterial knitting strand implemented by the present invention.

Fig. 2 is a schematic view of the knitting effect of the kapok 3A antibacterial knitting yarn implemented by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical scheme of the utility model as follows:

as shown in fig. 1-2, the utility model discloses an antibiotic knitting folded yarn of ceiba 3A, including ceiba mixed yarn 1 and roving 2, the opposite direction twisting is carried out to ceiba mixed yarn 1 and roving 2, and the single yarn twist multiplier of ceiba mixed yarn 1 is 420-. The utility model discloses in, this ply yarn makes kapok fiber cavity can cushion the recovery owing to produced the effect of backing twist in reverse twisting, can make the kapok fiber in the cotton-wood cotton blended yarn 1 obtain effectual protection utilization.

In addition, the cotton-wood-cotton blended yarn 1 with a high twist coefficient can weaken the rigidity of kapok fibers and reduce hairiness, the pressure exerted on the fibers is increased by using larger twist, so that the yarn strength is increased, the slippage of the kapok fibers is reduced, the holding capacity between the fibers is enhanced, and when the plied yarn is applied to the knitting and weaving drafting process, the problems that one single yarn is stressed in advance due to unbalanced stress between two kinds of yarns, the plied yarn is broken and even the plied yarn is scattered integrally can be solved; in addition, due to the self action of the kapok fiber, the cotton fiber is harmless and antibacterial to human bodies, and the knitted fabric woven by adopting the strand has an antibacterial effect, so that the problem of emission pollution of heavy metals or other chemical substances in the process of producing the antibacterial knitted fabric can be solved.

In this embodiment, the outer wall surface of the yarn is formed with at least 2 concave surfaces 3 and at least 2 convex surfaces 4, the concave surfaces 3 and the convex surfaces 4 are uniformly arranged, at least 2 concave surfaces 3 are cotton-wood-cotton blended yarns 1, and at least 2 convex surfaces 4 are roving yarns 2. Generally, for the structures of the concave surface 3 and the convex surface 4, cotton-wood-cotton blended yarn 1 or roving 2 can be adopted, preferably, the concave surface 3 is the cotton-wood-cotton blended yarn 1, and the convex surface 4 is the roving 2, so that the roving 2 of the convex surface 4 can be firstly rubbed when being worn and washed, meanwhile, the strength of the folded yarn can be increased, the kapok fiber in the cotton-wood-cotton blended yarn 1 of the concave surface 3 can be protected, the abrasion resistance is realized, the kapok fiber can be more effectively utilized, and the knitted fabric woven by adopting the folded yarn is not easy to pilling.

In this embodiment, the diameter of cotton-wood-cotton blended yarn 1 is less than or equal to the diameter of roving 2, and during washing friction, roving 2 can be rubbed first, so that cotton-wood-cotton blended yarn 1 can be protected, and then the kapok fiber in cotton-wood-cotton blended yarn 1 is effectively utilized.

In the embodiment, the twist direction of the strands is S twist, the single twist of the cotton-wood-cotton blended yarn 1 and the roving yarn 2 is Z twist, and the roving yarn 2 can adopt the roving yarn with the conventional twist factor.

In this embodiment, the kapok-containing fibers in the strand are greater than or equal to 5%, preferably, not more than 15% -30%.

In the embodiment, the cotton-wood-cotton blended yarn 1 is formed by blending 5-30% of kapok fiber and 70-95% of cotton fiber; the roving yarn 2 is one, two or three of all cotton yarn, chemical fiber filament or blended yarn containing at least 2 components in any combination.

The following is a description by way of a few examples:

the cotton-kapok blended yarn 1 is blended high-twist yarn containing 5-30% of kapok fiber and 70-95% of cotton fiber, and the roving yarn 2 is all-cotton yarn with a conventional twist coefficient; the kapok blended yarn 1 is blended yarn containing 5-30% of kapok fiber and 70-95% of cotton fiber, and the roving yarn 2 is chemical fiber filament yarn; the cotton-kapok blended yarn 1 is blended yarn containing 5-30% of kapok fiber and 70-95% of cotton fiber, and the roving yarn 2 is cotton yarn and cotton spandex coated yarn or combined yarn of cotton yarn and elastic yarn of nylon, terylene and the like; that is, in the yarn, the cotton-wood-cotton blended yarn 1 must be contained, and the roving yarn 2 is other yarn with conventional twisting coefficient, and can be any existing yarn or yarn formed by combining a plurality of components.

Wherein the concave surfaces 3 and the convex surfaces 4 can be arranged in a staggered manner.

The utility model discloses still implemented the method that adopts this folded yarn to weave the antibiotic socks of kapok 3A knitting, specifically can have following 3 implementation modes:

embodiment 1:

the roving is spun by 100% cotton fiber, the specification of the cotton-wood-cotton blended yarn is 40 English counts, and the specification of the roving is 40 English counts, and the specific processing method comprises the following steps:

s1: the kapok fiber and the cotton fiber are obtained and are blended into the cotton-kapok blended yarn containing 5-30% of the kapok fiber and 70-95% of the cotton fiber, the single yarn twisting direction is Z twisting, and the single yarn twisting coefficient is 420-460;

spinning the rough yarn in the same way, wherein the twist coefficient is 290-320, and the twist direction of the single yarn is Z twist;

s2: doubling the cotton-wood-cotton blended yarn and the roving by using a doubling machine, and preparing materials for twisting in the next procedure;

s3: twisting by a two-for-one twister: twisting the cotton-wood-cotton blended yarn and the roving in opposite directions to form a folded yarn, wherein the folding twisting direction is S twisting, and the twist degree of the folded yarn is 14-16 per inch;

s4: dyeing the strand: dyeing the folded yarn by using a cheese cylinder;

s5: and weaving, sewing and shaping the sock by using knitting equipment.

In this embodiment, the obtained kapok 3A knitted antibacterial sock has the anti-pilling effect performance as shown in the following table 1:

TABLE 1 anti-pilling property test chart for antibacterial socks obtained in embodiment 1

As can be seen from table 1, in this method, the knitted ceiba 3A antibacterial socks have anti-pilling effect.

Embodiment 2:

the roving is spun by 100% cotton fiber, the specification of the cotton-wood-cotton blended yarn is 40 English counts, and the specification of the roving is 40 English counts, and the specific processing method comprises the following steps:

s1: the kapok fiber and the cotton fiber are obtained and are blended into the cotton-kapok blended yarn containing 5-30% of the kapok fiber and 75-95% of the cotton fiber, the single yarn twisting direction is Z twisting, and the single yarn twisting coefficient is 420-460;

spinning the rough yarn in the same way, wherein the single yarn twist coefficient is 290-320, and the single yarn twist direction is Z twist;

s2: doubling the 1 cotton-wood-cotton blended yarn and 2 rovings by using a doubling machine, and preparing materials for twisting in the next procedure;

s3: twisting by a two-for-one twister: twisting the cotton-wood-cotton blended yarn and the roving in opposite directions to form a folded yarn, wherein the folding twisting direction is S twisting, and the twist degree range of the folded yarn is 8-10 per inch;

s4: dyeing the strand: dyeing the folded yarn by using a cheese cylinder;

s5: and weaving, sewing and shaping the sock by using knitting equipment.

In this embodiment, the obtained kapok 3A knitted antibacterial socks have the anti-pilling effect performance as shown in the following table 2:

table 2. anti-pilling performance test chart for antibacterial socks obtained in embodiment 2

As can be seen from table 2, in the method, the knitted ceiba 3A antibacterial socks have anti-pilling effect.

Embodiment 3:

the roving is spun by 100% cotton fiber, the specification of the cotton-wood-cotton blended yarn is 40 English, the specification of the roving is 36 English, and the specific processing method comprises the following steps:

s1: the kapok fiber and the cotton fiber are obtained and are blended into the cotton-kapok blended yarn containing 5-30% of the kapok fiber and 70-95% of the cotton fiber, the single yarn twisting direction is Z twisting, and the single yarn twisting coefficient is 420-460;

spinning the rough yarn in the same way, wherein the single yarn twist coefficient is 290-320, and the single yarn twist direction is Z twist;

s2: doubling the 1 cotton-wood-cotton blended yarn and 2 rovings by using a doubling machine, and preparing materials for twisting in the next procedure;

s3: twisting by a two-for-one twister: twisting the cotton-wood-cotton blended yarn and the roving in opposite directions to form a folded yarn, wherein the folding twisting direction is S twisting, and the twist degree range of the folded yarn is 8-10 per inch;

s4: dyeing the strand: dyeing the folded yarn by using a cheese cylinder;

s5: and weaving, sewing and shaping the sock by using knitting equipment.

In this embodiment, the obtained kapok 3A knitted antibacterial socks are tested for antibacterial effect performance, and the test results obtained after washing the samples 50 times are as follows in table 3:

table 3. test table for antibacterial effect performance of antibacterial socks obtained in embodiment 3 after washing 50 times

As can be seen from table 3, in the antibacterial effect test of the ceiba 3A knitted antibacterial sock woven by the method, after being washed 50 times, the antibacterial effect still meets 3A level, and the antibacterial effect is good.

The utility model has the advantages that:

compared with the prior art, the utility model discloses the antibiotic knitting folded yarn of using of ceiba 3A, this folded yarn can weaken ceiba fibrous rigidity, reduce the filoplume, reduce ceiba fibrous slippage, and the ability of gripping between the reinforcing fiber can make the ceiba fiber in the cotton-wood-cotton blended yarn obtain effectual protection utilization; when the plied yarn is applied to the knitting, weaving and drafting processes, the problems that one single yarn is stressed in advance due to unbalanced stress between two yarns, the plied yarn is broken and even the plied yarn is scattered and taken off integrally can be solved; in addition, the knitted fabric woven by the compound yarn has an antibacterial effect, and the problem of emission and pollution of heavy metals or other chemical substances in the process of producing the antibacterial knitted fabric can be solved.

The compound yarn is wear-resistant, so that the kapok fiber is utilized more effectively, and knitted fabrics woven by the compound yarn are not easy to pilling.

The above description is intended to be illustrative of the present invention and is not intended to be limiting, and all such modifications, equivalents and improvements as fall within the spirit and scope of the invention are intended to be included therein.

Claims (5)

1. The compound yarn for the ceiba 3A antibacterial knitting is characterized by comprising a ceiba blended yarn and a roving yarn, wherein the ceiba blended yarn and the roving yarn are twisted in opposite directions, the single-yarn twist coefficient of the ceiba blended yarn is 420-320, and the single-yarn twist coefficient of the roving yarn is 290-320.

2. The kapok 3A antibacterial knitted strand according to claim 1, wherein concave surfaces and convex surfaces are formed on the outer wall surface of the strand, at least 2 concave surfaces and at least 2 convex surfaces are arranged uniformly, at least 2 concave surfaces are cotton-kapok blended yarns, and at least 2 convex surfaces are rovings.

3. A kapok 3A antimicrobial knit strand as claimed in claim 1, wherein the diameter of the kapok blend is less than or equal to the diameter of the roving.

4. The kapok 3A antibacterial knitted strand according to claim 1, wherein the direction of twist of the strand is S twist, and the single yarn twist of the cotton-kapok blended yarn and the roving is Z twist.

5. The kapok 3A antibacterial knitted yarn according to claim 2, wherein the concavities and convexities are staggered.

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