CN108642697B - Manufacturing method of bicolor color-changing three-layer mesh cloth - Google Patents

Abstract

The invention provides a manufacturing method of a bicolor color-changing three-layer mesh cloth, which comprises the following steps of threading, weaving, dyeing and finishing and the like, wherein raised wavy convex strips or alternatively arranged convex blocks can be formed on the surface layer of the three-layer mesh cloth through a specific threading and yarn cushion movement mode, the three-layer mesh cloth has a vivid stereoscopic impression, meanwhile, the color of the middle layer can be exposed through grooves between the convex strips or grooves between the convex blocks, due to the blocking effect of the convex strips or the convex blocks, the color of the three-layer mesh cloth can be changed along with the difference of the visual angles of observers, the color-changing effect is realized, the air permeability and the weight of the mesh cloth are not influenced, the air permeability is better, and the.

Description

Manufacturing method of bicolor color-changing three-layer mesh cloth

The invention is a divisional application of an invention patent with the patent number of ZL201710016771.3 and the name of 'a manufacturing method of a bicolor color-changing three-layer mesh cloth'.

Technical Field

The invention relates to a method for manufacturing cloth, in particular to a method for manufacturing bicolor color-changing three-layer mesh cloth.

Background

The mesh fabric is a fabric commonly used in the footwear and clothing industry, and is a fabric with mesh holes. Warp knitting three-layer mesh cloth is also called sandwich mesh cloth and is a type of mesh cloth, the sandwich mesh cloth on the market at present usually consists of a mesh surface layer, a connecting monofilament middle layer and a cloth bottom surface layer, and the appearance of the cloth color is mainly reflected by the colors put into the mesh surface layer and the cloth bottom surface layer and is monotonous.

In order to improve the color tone of the three-layer mesh fabric, the conventional method is to adhere a color-changing material on the surface layer of the mesh of the three-layer mesh fabric so as to present different colors at different light refraction angles, i.e., to generate a color-changing effect. But the use of the adhesive color-changing material can affect the air permeability of the three-layer mesh fabric, can also cause the reduction of the stability of the fabric, can also increase the weight and the cost of the fabric, and is unacceptable to most consumers.

In addition, the warp-knitted three-layer mesh cloth on the market at present has relatively poor warm-keeping effect due to structural limitation, and the warm-keeping property can be improved only by increasing the thickness of the fabric, so that the weight and the cost of the fabric can be increased.

In view of the above, the applicant has made intensive studies on the air permeability and the heat retention of a three-layer mesh, and has devised the present application.

Disclosure of Invention

The invention aims to provide a method for manufacturing bicolor color-changing three-layer mesh cloth with a color-changing effect, good air permeability, relatively low cost and relatively low weight.

In order to achieve the purpose, the invention adopts the following technical scheme:

a manufacturing method of a bicolor color-changing three-layer mesh cloth comprises the following steps:

s1: the method comprises the following steps of (1) threading, namely selecting a double needle bed warp knitting machine with more than six guide bars arranged in sequence, wherein the six guide bars arranged adjacently are sequentially GB2, GB3, GB4, GB5, GB6 and GB7, the GB2 and the GB3 are threaded in a two-through two-empty mode, the GB4 is threaded in a one-through three-empty mode, the GB5 is threaded in a three-through one-empty mode, and the GB6 and the GB7 are threaded in a full-through mode;

s2: weaving, the GB2 and the GB3 weaving forming a face layer, wherein the yarn pad of GB2 moves away from a first satin mesh weave (3-2/4-5) 2/2-1/3-4/(1-0/2-3) 2/1-0/3-4/2-1/4-5//, and the yarn pad of GB3 moves away from a second satin mesh weave (4-5/3-2) 2/3-4/2-1/(2-3/1-0) 2/2-3/2-1/3-4/3-2//;

the GB4 and the GB5 are woven to form a middle layer, wherein the yarn pad of the GB4 moves to a first derivative warp satin tissue (3-2/2-3) 4/(2-1/1-2) 2/(1-0/0-1) 4/1-0/0-1/(1-2/2-1) 2/2-3/3-2//, the gauze pad of GB5 moved through a second derivative satin weave ((3-2/2-3) × 4/(2-1/1-2) × 2/(1-0/0-1) × 4/1-0/0-1/(1-2/2-1) × 2/2-3/3-2//;

the GB6 and GB7 are knitted to form a bottom layer, with the yarn pad of GB6 moving through a flat stitch 1-0/1-2//, and the yarn pad of GB7 moving through a pile stitch 2-3/1-0//;

obtaining grey cloth after weaving;

s3: dyeing and finishing, namely sequentially carrying out pretreatment, dyeing treatment and heat setting treatment on the grey cloth to obtain the three-dimensional intercommunicated breathable three-layer mesh cloth.

As an improvement of the invention, the GB2, GB3, GB6 and GB7 all use semi-gloss polyester long staple yarns for threading, the GB4 uses cotton high stretch yarns for threading, and the GB5 uses polyester high stretch yarns for threading.

As an improvement of the invention, the semi-gloss polyester long fiber yarn, the cotton polyester high-elastic yarn and the polyester high-elastic yarn are all monofilament yarns during yarn threading.

As a refinement of the invention, the guide bars each have six pan heads, 238 yarns being threaded on each pan head of GB2 and GB3, 119 yarns being threaded on each pan head of GB4, 357 yarns being threaded on each pan head of GB5, 476 yarns being threaded on each pan head of GB6 and GB 7.

As an improvement of the invention, softening treatment is also carried out between the dyeing treatment and the heat setting treatment, the heat setting is carried out by a hot stretch setting machine, and the temperature of the heat setting is 170-195 ℃.

The invention can also adopt the following technical scheme:

a manufacturing method of a bicolor color-changing three-layer mesh cloth comprises the following steps:

s1: the method comprises the following steps of (1) threading, namely selecting a double-needle-bed warp knitting machine with more than six guide bars arranged in sequence, wherein the six adjacent guide bars are sequentially GB2, GB3, GB4, GB5, GB6 and GB7, the GB2 and the GB3 are threaded in a three-threading-empty manner, the GB4 and the GB5 are threaded in a one-threading-empty manner, and the GB6 and the GB7 are threaded in a full-threading manner;

s2: weaving, wherein the GB2 and the GB3 are woven to form a surface layer, and the yarn pad of the GB2 moves to go through a third derivative warp satin tissue 1-0/1-2/1-0/1-2/1-0/2-3/2-1/2-3/2-1/3-4/3-2/3-4/3-2/4-5/4-3/4-5/4-3/5-6/5-4/5-6/5-4/5-6/4-3/4-5/4-3/4-5/3-2/3-4/3-2/3-4/2-1/2-3/2-1/2-3/2-1/2-3//, the yarn pad of GB3 moves to fourth derivative warp satin tissue 5-6/5-4/5-6/5-4/5-6/4-3/4-5/4-3/4-5/3-2/3-4/3-2/3-4/2-1/2-3/2-1/2-3/1-0/1-2/1-0/1-2/1-0/2-3/2-1/2-3/2-1/3-4/3-2/3-4/3 -2/4-5/4-3/4-5/4-3/4-5/4-3//;

the GB4 and the GB5 are woven to form a middle layer, wherein the yarn pad of the GB4 moves to a fifth derivative warp satin tissue (1-0/0-1) 5/(1-2/2-1) 4(2-3/3-2) 4/(3-4/4-3) 4/(4-5/5-4) 5/(4-3/3-4) 4/(3-2/2-3) 4/(2-1/1-2) 6//, and the yarn pad of the GB5 moves to a sixth derivative warp satin tissue (4-5/5-4) 5/(4-3/3-4) 4/(3-2/2-3) 4/(2-1/1-2) 4 (1-0/0-1) × 5/(1-2/2-1) × 4/(2-3/3-2) × 4/(3-4/4-3) × 6//;

the GB6 and GB7 are knitted to form a bottom layer, with the yarn pad of GB6 moving through a flat stitch 1-0/1-2//, and the yarn pad of GB7 moving through a pile stitch 2-3/1-0//;

obtaining grey cloth after weaving;

s3: dyeing and finishing, namely sequentially carrying out pretreatment, dyeing treatment and heat setting treatment on the grey cloth to obtain the three-dimensional intercommunicated breathable three-layer mesh cloth.

As an improvement of the invention, the GB2, GB3, GB6 and GB7 all use semi-gloss polyester long staple yarns for threading, the GB4 uses cotton high stretch yarns for threading, and the GB5 uses polyester high stretch yarns for threading.

As an improvement of the invention, the semi-gloss polyester long fiber yarn, the cotton polyester high-elastic yarn and the polyester high-elastic yarn are all monofilament yarns during yarn threading.

As a refinement of the invention, each of the guide bars has six pan heads, each pan head of GB2, GB3, GB4 and GB5 being threaded with 238 yarns, and each pan head of GB6 and GB7 being threaded with 476 yarns.

As an improvement of the invention, softening treatment is also carried out between the dyeing treatment and the heat setting treatment, the heat setting is carried out by a hot stretch setting machine, and the temperature of the heat setting is 170-195 ℃.

By adopting the technical scheme, the invention has the following beneficial effects:

1. according to the invention, through a specific threading and yarn cushion movement mode, raised wavy convex strips or staggered convex blocks can be formed on the surface layers of the three layers of mesh fabrics, so that the three-dimensional effect is more distinct, meanwhile, the color of the middle layer can be exposed through the grooves between the convex strips or the grooves between the convex blocks, and due to the blocking effect of the convex strips or the convex blocks, the color of the three layers of mesh fabrics can be changed along with different visual angles of observers, so that the color change effect is realized, the air permeability and the weight of the mesh fabrics are not influenced, the air permeability is better, and the cost and the weight are relatively lower.

2. The middle layer is formed by weaving the warp-variable satin weave woven by the high-elasticity yarns, and compared with the middle layer formed by connecting the traditional monofilaments, the fabric is softer in hand feeling, better in heat retention, free of wrinkles, good in traveling performance, wear-resistant and the like.

3. The chemical fiber yarn used by the invention is polyester long fiber yarn, the middle layer adopts polyamide high-elasticity yarn and polyester high-elasticity yarn, the dyeing characteristics of different materials are fully facilitated, and the double-color effect is more obvious.

Drawings

FIG. 1 is a schematic front view of a three-layer web according to a first embodiment of the present invention;

FIG. 2 is a schematic front view of a three-layer web according to a second embodiment of the present invention.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

the first embodiment.

The manufacturing method of the bicolor color-changing three-layer mesh cloth provided by the embodiment comprises the following steps:

s1: and (3) threading, namely selecting a double-needle-bed warp knitting machine with more than six guide bars which are sequentially arranged, wherein the six guide bars which are adjacently arranged are GB2, GB3, GB4, GB5, GB6 and GB7 in sequence. The two-needle bed warp knitting machine with seven guide bars is selected in this embodiment, the first guide bar being GB1, which is free, i.e. not threaded.

GB2, GB3, GB6 and GB7 all adopt semi-gloss polyester filament yarns for threading, the linear density of the semi-gloss polyester filament yarns is preferably 75D, and the specification of the semi-gloss polyester filament yarns used in the embodiment is fully bright fully drawn polyester yarns P-FDY75D/36F (83 dTEX/36F); GB4 adopts the cotton high-elastic yarn to carry out the threading, the linear density of the cotton high-elastic yarn is preferably 40D, the specification of the cotton high-elastic yarn used in the embodiment is N-DTY140D/48F (155 dTEX/48F); GB5 uses polyester high stretch yarn to thread, the linear density of the polyester high stretch yarn is preferably 150D, the specification of the polyester high stretch yarn used in this example is P-DTY150D/72F (167 dTEX/72F). It should be noted that the semi-gloss polyester filament yarn, the cotton high-stretch yarn and the polyester high-stretch yarn are yarns directly purchased from the market, and in addition, the yarns used by each guide bar during threading are single yarns, that is, the semi-gloss polyester filament yarn, the cotton high-stretch yarn and the polyester high-stretch yarn are monofilament threading during threading. Thus, the dyeing characteristics of different materials can be fully facilitated, and the two-color effect with bright colors can be realized in the subsequent dyeing and finishing process.

Each guide bar is respectively provided with six pan heads, wherein 238 yarns are respectively threaded on each pan head of GB2 and GB3, and the yarns are threaded in a two-thread and two-empty mode, namely two positions are left after every two yarns are threaded, and then the circular yarn threading is continued; 119 yarns are respectively threaded on each pan head of GB4, and the yarns are threaded in a one-thread-three-space mode; 357 yarns are respectively threaded on each pan head of GB5, and the yarns are threaded in a three-thread-one-empty mode; each pan head of GB6 and GB7 is threaded with 476 yarns, respectively, and both are threaded in a full-through manner.

S2: weaving, GB2 and GB3 are woven to form a surface layer as shown in figure 1, wherein the let-off of GB2 is 1880 mm/wax, the yarn pad moves to move the first satin mesh fabric (3-2/4-5) 2/2-1/3-4/(1-0/2-3) 2/1-0/3-4/2-1/4-5//, the let-off of GB3 is 1880 mm/wax, the gauze pad moves away the second satin mesh weave (4-5/3-2) 2/3-4/2-1/(2-3/1-0) 2/2-3/2-1/3-4/3-2//; it should be noted that the first satin mesh weave and the second satin mesh weave are both satin weave 1-0/1-2/2-3/2-1// and mesh weave 4-5/3-2/2-3/1-0// and the specific derivation can be understood by the gauze pad numbers of the satin weave, the mesh weave, the first satin mesh weave and the second satin mesh weave, and will not be described in detail here.

Because the middle layer is formed by weaving the warp-variable satin weave woven by the high-elasticity yarns, compared with the middle layer formed by connecting the traditional monofilaments, the fabric has the advantages of softer hand feeling, better heat retention, no wrinkle, good traveling performance, wear resistance and the like.

GB4 and GB5 are woven to form a middle layer, wherein the let-off of GB4 is 7400 mm/wax, and a yarn pad moves to a first derivative warp satin tissue (3-2/2-3) × 4/(2-1/1-2) × 2/(1-0/0-1) × 4/1-0/0-1/(1-2/2-1) × 2/2-3/3-2//; the let-off of GB5 is 7400 mm/wax, the yarn pad moves along the second derived satin weave ((3-2/2-3) × 4/(2-1/1-2) × 2/(1-0/0-1) × 4/1-0/0-1/(1-2/2-1) × 2/2-3/3-2/. similarly, the first and second derived satin weaves and the third, fourth, fifth and sixth derived satin weaves mentioned in the following example are all derived satin weaves 1-0/1-2/2-3/2-1/, the specific derivation can be understood by checking the yarn pad number, and will not be described in detail here. It should be noted that, when chain blocks are arranged before weaving, among the chain blocks corresponding to GB4 and GB5, the middle wavy flower type chain block cannot be provided with a transition chain block, and the arrangement of other chain blocks can be arranged according to the above-mentioned yarn pad number in a conventional manner, which is not described in detail herein.

GB6 and GB7 are woven to form a bottom layer, wherein the let-off quantity of GB6 is 1800 mm/wax, the let-off quantity of a yarn pad moving warp flat stitch is 1-0/1-2//, the let-off quantity of GB7 is 2350 mm/wax, and the yarn pad moving warp pile stitch is 2-3/1-0//.

In addition, yarns are required to be paired before weaving, the design required pattern and the thickness of the grey cloth are adjusted, and the pattern can be adjusted according to actual requirements. After knitting, a grey fabric is obtained, the density of the grey fabric is preferably 15.42C/cm, and the thickness of the grey fabric is 3.4-3.6mm and can be preset before knitting.

S3: dyeing and finishing, namely sequentially carrying out pretreatment, dyeing treatment, softening treatment and heat setting treatment on the grey cloth to obtain the sandwich mesh cloth with the conical meshes. The pretreatment is mainly used for removing oil stains on the surface of the fabric and oil added in the spinning or weaving process, and the dosage of the oil removing agent in the pretreatment is 2G/L; softening treatment improves the softness of the fabric primarily by the addition of a softening agent.

Preferably, in the present embodiment, the dyeing process adopts high temperature and high pressure dyeing, so that the dye molecules discard the dye solution to dye the fiber, and the dyeing temperature is 150 ℃.

In addition, the heat setting treatment of this embodiment adopts a tenter setting machine for setting, utilizes the thermal plasticity of the fiber, and adopts a hot tenter setting method for finishing, so that the knitted fabric with irregular appearance is formed into a loop structure, and the knitted fabric has smooth cloth surface, can remove the shrinkage rate, has stable size and good wrinkle resistance, and has good wearability, the heat setting temperature is 170-195 ℃, and the vehicle speed is 20 yards/minute.

The three-layer mesh cloth obtained by the method can form the raised wavy raised lines on the surface layer of the three-layer mesh cloth, has a vivid three-dimensional effect, and meanwhile, the color of the middle layer can be exposed out through the grooves between the two adjacent raised lines.

Example two.

Compared with the first embodiment, the present embodiment has the following differences (i.e., the manufacturing method provided by the present embodiment is the same as that of the first embodiment except for the following points):

firstly, the threading manners of GB2 to GB7 are different, in this embodiment, 298 yarns are threaded through each pan head of GB2 and GB3, 238 yarns are threaded through each pan head of GB4 and GB5, and 476 yarns are threaded through each pan head of GB6 and GB 7. Furthermore, GB2 and GB3 both thread in a three-through-one-empty-one-through-one-empty manner, GB4 and GB5 both thread in a one-through-one-empty manner, and GB6 and GB7 both thread in a full-through manner.

Secondly, the weaving mode of the surface layer is different from that of the middle layer, in the embodiment, GB2 and GB3 are woven to form the surface layer as shown in figure 2, wherein the yarn feeding amount of GB2 is 1770 mm/wax gram, the yarn pad moves to go through a third derivative warp satin tissue 1-0/1-2/1-0/1-2/1-0/2-3/2-1/2-3/2-1/3-4/3-2/3-4/3-2/4-5/4-3/4-5/4-3/5-6/5-4/5-6/5-4/5-6/4-3/4-5/4-3/4-5/3-2/3-4/3-2/3-4/2-1/2-3/2-1/2-3/2-1/2-3//, the let-off amount of GB3 is 1770 mm/wax, the yarn pad moves to fourth derivative warp satin tissue 5-6/5-4/5-6/5-4/5-6/4-3/4-5/4-3/4-5/3-2/3-4/3-2/3-4/2-1/2-3/2-1/2-3/1-0/1-2/1-0/1-2/1-0/2-3/2-1 2-3/2-1/3-4/3-2/3-4/3-2/4-5/4-3/4-5/4-3/4-5/4-3//.

GB4 and GB5 are woven to form a middle layer, wherein the let-off quantity of GB4 is 7200 mm/wax, and a yarn pad moves to a fifth derivative warp satin tissue (1-0/0-1) 5/(1-2/2-1) 4(2-3/3-2) 4/(3-4/4-3) 4/(4-5/5-4) 5/(4-3/3-4) 4/(3-2/2-3) 4/(2-1/1-2) 6//; the let-off of GB5 is 7200 mm/wax, and the yarn pad moves by the sixth derivative warp satin tissue (4-5/5-4) 5/(4-3/3-4) 4/(3-2/2-3) 4/(2-1/1-2) 4/(1-0/0-1) 5/(1-2/2-1) 4/(2-3/3-2) 4/(3-4/4-3) 6/.

Finally, the dyeing and finishing process parameters are different, in the embodiment, the dosage of the oil removing agent in the pretreatment is 1G/L, the dyeing temperature of the dyeing treatment is 130 ℃, and the dyeing time is 150 minutes.

The three-layer screen cloth that the manufacturing method of this embodiment obtained can form the lug of staggered arrangement on the surface course of three-layer screen cloth, and the similar snake belly line of its shape, and the middle level colour can be revealed through the recess between two adjacent lugs simultaneously, because the effect of blockking up of lug, the colour of three-layer screen cloth can be along with the different production changes of observer visual angle, realizes the color change effect, and does not influence the gas permeability and the weight of screen cloth, and the gas permeability is better and cost and weight are lower relatively.

The present invention is described in detail with reference to the attached drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can make various modifications to the present invention according to the prior art, such as changing the specific types of the yarns in the above embodiments, etc., which are within the protection scope of the present invention.

Claims (3)

1. A manufacturing method of a bicolor color-changing three-layer mesh cloth is characterized by comprising the following steps:

s1: the method comprises the following steps of (1) threading, namely selecting a double-needle-bed warp knitting machine with more than six guide bars arranged in sequence, wherein the six adjacent guide bars are sequentially GB2, GB3, GB4, GB5, GB6 and GB7, the GB2 and the GB3 are threaded in a three-threading-empty manner, the GB4 and the GB5 are threaded in a one-threading-empty manner, and the GB6 and the GB7 are threaded in a full-threading manner; the GB2, the GB3, the GB6 and the GB7 adopt semi-gloss polyester long-staple yarns for threading, the GB4 adopts cotton fiber high-elasticity yarns for threading, and the GB5 adopts polyester high-elasticity yarns for threading; the semi-gloss polyester long fiber yarns, the cotton polyester high-elastic yarns and the polyester high-elastic yarns are all monofilament yarns during yarn threading;

s2: weaving, wherein the GB2 and the GB3 are woven to form a surface layer, and the yarn pad of the GB2 moves to go through a third derivative warp satin tissue 1-0/1-2/1-0/1-2/1-0/2-3/2-1/2-3/2-1/3-4/3-2/3-4/3-2/4-5/4-3/4-5/4-3/5-6/5-4/5-6/5-4/5-6/4-3/4-5/4-3/4-5/3-2/3-4/3-2/3-4/2-1/2-3/2-1/2-3/2-1/2-3//, the yarn pad of GB3 moves to fourth derivative warp satin tissue 5-6/5-4/5-6/5-4/5-6/4-3/4-5/4-3/4-5/3-2/3-4/3-2/3-4/2-1/2-3/2-1/2-3/1-0/1-2/1-0/1-2/1-0/2-3/2-1/2-3/2-1/3-4/3-2/3-4/3 -2/4-5/4-3/4-5/4-3/4-5/4-3//;

the GB4 and the GB5 are woven to form a middle layer, wherein the yarn pad of the GB4 moves to a fifth derivative warp satin tissue (1-0/0-1) 5/(1-2/2-1) 4(2-3/3-2) 4/(3-4/4-3) 4/(4-5/5-4) 5/(4-3/3-4) 4/(3-2/2-3) 4/(2-1/1-2) 6//, and the yarn pad of the GB5 moves to a sixth derivative warp satin tissue (4-5/5-4) 5/(4-3/3-4) 4/(3-2/2-3) 4/(2-1/1-2) 4 (1-0/0-1) × 5/(1-2/2-1) × 4/(2-3/3-2) × 4/(3-4/4-3) × 6//;

the GB6 and GB7 are knitted to form a bottom layer, with the yarn pad of GB6 moving through a flat stitch 1-0/1-2//, and the yarn pad of GB7 moving through a pile stitch 2-3/1-0//;

obtaining grey cloth after weaving;

s3: dyeing and finishing, namely sequentially carrying out pretreatment, dyeing treatment and heat setting treatment on the grey cloth to obtain the three-dimensional intercommunicated breathable three-layer mesh cloth.

2. A method of making a bicolor color-changing three-layer mesh fabric according to claim 1, wherein each of said guide bars has six pan heads, and each of said pan heads of GB2, GB3, GB4 and GB5 is threaded with 238 yarns, and each of said pan heads of GB6 and GB7 is threaded with 476 yarns.

3. The method for manufacturing a bicolor color-changing three-layer screen cloth according to claim 1 or 2, wherein a softening treatment is further performed between the dyeing treatment and the heat setting treatment, the heat setting treatment is performed by a heat tenter setting machine, and the heat setting temperature is 170 ℃ to 195 ℃.

Images