CN112267204B - Three-layer mesh cloth with color-changing function and manufacturing method and application thereof - Google Patents

Abstract

The invention relates to the technical field of mesh fabrics, in particular to a three-layer mesh fabric with a color-changing function, a manufacturing method and application thereof, wherein the three-layer mesh fabric with the color-changing function comprises a plurality of first yarns, a plurality of second yarns and a plurality of third yarns, wherein the first yarns are crossly woven to form a bottom layer, the second yarns are crossly woven from the bottom end of the bottom layer to form a surface layer, a plurality of meshes are formed at the top end of the surface layer, the third yarns are crossly woven from the bottom end of the surface layer to the top end of the bottom layer, the third yarns are crossly woven with the second yarns between the surface layer and the bottom layer to form an intermediate layer, and the yarn color of the third yarns is more than two. The invention is integrally woven, has attractive appearance, novel surface layer, simple color, light gram weight, strong stereoscopic impression, obvious touch feeling, good air permeability and high structural stability, and greatly simplifies the manufacturing process, thereby improving the production efficiency and reducing the production cost.

Description

Three-layer mesh cloth with color-changing function and manufacturing method and application thereof

Technical Field

The invention relates to the technical field of mesh fabrics, in particular to a three-layer mesh fabric with a color-changing function, a manufacturing method thereof and application thereof in the fields of shoes, clothes and the like.

Background

The mesh cloth is a cloth commonly used in the footwear and clothing industry, and is a fabric with meshes. The screen cloth on the current market is generally composed of a mesh surface layer, a connecting monofilament middle layer and a plane bottom surface layer, the color of the cloth is mainly represented by the colors put in the mesh surface layer and the plane bottom surface layer, and the following defects are overcome:

1. the mesh fabric has poor air permeability and low structural stability;

2. the gram weight of the mesh cloth is high;

3. the line color on the surface of the mesh cloth is affected by the color of the middle layer, so that the color of the face is impure.

Disclosure of Invention

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The invention aims to overcome the defects and provide the three-layer mesh cloth with the color-changing function, which has the advantages of good air permeability, high structural stability, low gram weight and simple surface texture color, and cannot be influenced by the color in the mesh cloth to cause variegation.

In order to achieve the above object, the technical solution of the present invention is: the utility model provides a three-layer screen cloth with function discolours, includes many first yarns, many second yarns and many third yarns, many first yarns alternately weave and form the bottom, many second yarns follow the bottom of bottom is upwards alternately woven and is formed the surface course, and in the top of surface course forms a plurality of mesh, many third yarns follow the bottom of surface course is alternately woven to down the top of bottom, and with the second yarns alternately weave and form the intermediate level between the surface course with the bottom, the yarn colour of third yarn is more than two kinds.

Preferably, a plurality of the meshes form a plurality of grooves at the top end of the surface layer.

Preferably, the yarn color of the second yarn is different from the yarn color of the third yarn.

Preferably, the mesh is a circular mesh, an elliptical mesh or a polygonal mesh.

Preferably, the meshes are the same in pore size, gradually changed in pore size or alternatively changed in pore size.

The invention also provides a manufacturing method of the three-layer mesh cloth with the color-changing function, which comprises the following steps:

S1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 6 guide bars, and the 6 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5 and a ground guide bar GB6;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are all threaded on a machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are all threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 is threaded on the machine table in a full threading mode, the gear warp feed quantity corresponding to the ground guide bar GB1 is 1600-3000 mm/baccarat, the gear warp feed quantity corresponding to the ground guide bar GB2 is 1320-2720 mm/bact, the gear warp feed quantity corresponding to the ground guide bar GB3 is 1480-2880 mm/bact, the gear warp feed quantity corresponding to the ground guide bar GB4 is 1980-3380 mm/bact, and the gear warp feed quantity corresponding to the ground guide bar GB6 is 0-5700 mm/bact;

s4, braiding: the ground guide bar GB1, the ground guide bar GB2 and the ground guide bar GB3 are arranged on the front needle bed to form the bottom layer, the ground guide bar GB4 and the ground guide bar GB5 are arranged on the front needle bed and/or the rear needle bed to form the surface layer, the ground guide bar GB6 is arranged on the front needle bed and/or the rear needle bed to form the middle layer, the ground guide bar GB1 is arranged with the weft insertion organization 0-0/2-2/4-4/2///, the ground guide bar GB2 is arranged with the knitting chain organization 1-0/0-0/0-1///, ground bar GB3 walk knitting chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk change warp knitting chain organization (1-1/1-0/2-2/2-3) 3/(3-3/4-5/4-4/3-2) 3//, ground bar GB5 walk change warp knitting chain organization (3-3/4-5/4/3-2) 3/(1-1/1-0/2-3) 3//, ground bar GB6 walk knitting chain organization 1-0/0-0/0-1///.

The invention also provides an application of the three-layer mesh cloth with the color-changing function in the field of shoes and clothing or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method.

By adopting the technical scheme, the invention has the beneficial effects that: the invention is based on the bottom layer formed by braiding the first yarns, the second yarns are crossly braided from the bottom end of the bottom layer to form the surface layer with meshes, the third yarns are crossly braided from the bottom end of the surface layer to the top end of the bottom layer, and the third yarns are crossly braided with the second yarns to form the middle layer, so that the traditional middle layer is omitted, the gram weight of the mesh cloth is greatly reduced, and the cost is reduced. In addition, a plurality of mesh forms a plurality of recess on the top of surface course for the surface course has formed unsmooth sense, and the colour accessible recess in intermediate level exposes, because unsmooth sense, the colour in intermediate level can change along with the difference of observer's visual angle, has realized the function of discolouring, simultaneously, has also strengthened the third dimension of screen cloth greatly, has improved the air permeability greatly. The third yarn of this application is woven to the top of bottom from the bottom of surface course, and the third yarn is hidden under the surface course bottom promptly, does not disclose the top of surface course, can not cause the surface course variegated and influence the aesthetic property of screen cloth. The invention is integrally woven, has attractive appearance, novel surface layer, simple color, light gram weight, strong stereoscopic impression, obvious touch feeling, good air permeability and high structural stability, and greatly simplifies the manufacturing process, thereby improving the production efficiency and reducing the production cost.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

It is apparent that these and other objects of the present invention will become more apparent from the following detailed description of the preferred embodiments, which is to be read in connection with the accompanying drawings and figures.

The foregoing and other objects, features and advantages of the invention will be apparent from the following more particular description of the preferred embodiments, as illustrated in the accompanying drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention, without limitation to the invention.

In the drawings, like parts are designated with like reference numerals and are illustrated schematically and are not necessarily drawn to scale.

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only one or several embodiments of the invention, and that other drawings can be obtained according to such drawings without inventive effort to a person skilled in the art.

FIG. 1 is a cross-sectional view of the weave of the present invention;

FIG. 2 is a process simulation diagram of the present invention;

FIG. 3 is a color shifting weave diagram one of the present invention;

FIG. 4 is a second color shifting weave pattern according to the invention;

FIG. 5 is a third color shifting weave pattern of the present invention;

FIG. 6 is a top view of the present invention;

FIG. 7 is a cross-sectional view of the present invention;

fig. 8 is a process flow diagram of the present invention.

The main reference numerals illustrate: (1, first yarn, 2, second yarn, 3, third yarn, 4, bottom layer, 5, surface layer, 51, mesh, 52, groove, 6, middle layer).

Detailed Description

The following will describe embodiments of the present invention in detail with reference to the drawings and examples, thereby solving the technical problems by applying technical means to the present invention, and realizing the technical effects can be fully understood and implemented accordingly. It should be noted that, as long as no conflict is formed, each embodiment of the present invention and each feature of each embodiment may be combined with each other, and the formed technical solutions are all within the protection scope of the present invention.

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details or in the specific manner described herein.

Example 1

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to the figure, the embodiment also provides a method for manufacturing the three-layer mesh cloth with the color-changing function, which comprises the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 6 guide bars, and the 6 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5 and a ground guide bar GB6;

S2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

s3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are all threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are all threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 is threaded on the machine table in a full threading mode, the gear feed amount corresponding to the ground guide bar GB1 is 1600 mm/baccarat, the gear feed amount corresponding to the ground guide bar GB2 is 1320 mm/baccarat, the gear feed amount corresponding to the ground guide bar GB3 is 1480 mm/baccarat, the gear feed amount corresponding to the ground guide bar GB4 is 1980 mm/baccarat, and the gear feed amount corresponding to the ground guide bar GB5 is 4300 mm/bact;

S4, braiding: the ground guide bar GB1, the ground guide bar GB2 and the ground guide bar GB3 are arranged on the front needle bed to form the bottom layer 4, the ground guide bar GB4 and the ground guide bar GB5 are arranged on the front needle bed and/or the rear needle bed to form the surface layer 5, the ground guide bar GB6 is arranged on the front needle bed and/or the rear needle bed to form the middle layer 6, the ground guide bar GB1 is arranged on the front needle bed and/or the rear needle bed to form the running weft insertion organization 0-0/2-2/4-4/2-2//, ground bar GB2 travel chain organization 1-0/0-0/0-1/1-1//, ground bar GB3 travel chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 travel variation warp flat organization (1-1/1-0/2-3) 3/(3-3/4-5/4-4/3-2) 3//, ground bar GB5 travel variation warp flat organization (3-3/4-5/4-4/3-2) 3/(1-1/1-0/2-2/2-3) 3//, ground bar GB6 travel chain organization 1-0/0-0/1///.

The ground bar GB6 yarn in the step S2 comprises a first color yarn and a second color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 2

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the embodiment also provides a method for manufacturing the three-layer mesh fabric with the color-changing function, which comprises the following steps:

S1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 6 guide bars, and the 6 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5 and a ground guide bar GB6;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are all threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are all threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 is threaded on the machine table in a full threading mode, the gear warp feed quantity of the ground guide bar GB1 is 2300 mm/sausage, the gear warp feed quantity of the ground guide bar GB2 is 2020 mm/sausage, the gear warp feed quantity of the ground guide bar GB3 is 2180 mm/sausage, the gear warp feed quantity of the ground guide bar GB4 is 2680 mm/sausage, the gear warp feed quantity of the ground guide bar GB5 is 2680 mm/sausage, and the gear warp feed quantity of the ground guide bar GB6 is 5000 mm/sausage;

s4, braiding: the ground guide bar GB1, the ground guide bar GB2 and the ground guide bar GB3 are arranged on the front needle bed to form the bottom layer 4, the ground guide bar GB4 and the ground guide bar GB5 are arranged on the front needle bed and/or the rear needle bed to form the surface layer 5, the ground guide bar GB6 is arranged on the front needle bed and/or the rear needle bed to form the middle layer 6, the ground guide bar GB1 is arranged on the front needle bed and/or the rear needle bed to form the running weft insertion organization 0-0/2-2/4-4/2-2//, ground bar GB2 travel chain organization 1-0/0-0/0-1/1-1//, ground bar GB3 travel chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 travel variation warp flat organization (1-1/1-0/2-3) 3/(3-3/4-5/4-4/3-2) 3//, ground bar GB5 travel variation warp flat organization (3-3/4-5/4-4/3-2) 3/(1-1/1-0/2-2/2-3) 3//, ground bar GB6 travel chain organization 1-0/0-0/1///.

The ground bar GB6 yarn in the step S2 comprises a first color yarn and a second color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 3

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the embodiment also provides a method for manufacturing the three-layer mesh fabric with the color-changing function, which comprises the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 6 guide bars, and the 6 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5 and a ground guide bar GB6;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are all threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are all threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 is threaded on the machine table in a full threading mode, the gear warp feed amount of the ground guide bar GB1 is 3000 mm/sausage, the gear warp feed amount of the ground guide bar GB2 is 2720 mm/sausage, the gear warp feed amount of the ground guide bar GB3 is 2880 mm/sausage, the gear warp feed amount of the ground guide bar GB4 is 3380 mm/sausage, the gear warp feed amount of the ground guide bar GB5 is 3380 mm/sausage, and the gear warp feed amount of the ground guide bar GB6 is 5700 mm/sausage;

s4, braiding: the ground guide bar GB1, the ground guide bar GB2 and the ground guide bar GB3 are arranged on the front needle bed to form the bottom layer 4, the ground guide bar GB4 and the ground guide bar GB5 are arranged on the front needle bed and/or the rear needle bed to form the surface layer 5, the ground guide bar GB6 is arranged on the front needle bed and/or the rear needle bed to form the middle layer 6, the ground guide bar GB1 is arranged on the front needle bed and/or the rear needle bed to form the running weft insertion organization 0-0/2-2/4-4/2-2//, ground bar GB2 travel chain organization 1-0/0-0/0-1/1-1//, ground bar GB3 travel chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 travel variation warp flat organization (1-1/1-0/2-3) 3/(3-3/4-5/4-4/3-2) 3//, ground bar GB5 travel variation warp flat organization (3-3/4-5/4-4/3-2) 3/(1-1/1-0/2-2/2-3) 3//, ground bar GB6 travel chain organization 1-0/0-0/1///.

The ground bar GB6 yarn in the step S2 comprises a first color yarn and a second color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 4

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 7 guide bars, and the 7 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6 and a ground guide bar GB7;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 and the yarn of the ground guide bar GB7 are threaded on the machine table in a full threading mode, the gear warp feeding amount corresponding to the ground guide bar GB1 is 1600 mm/baccarat, the gear warp feeding amount corresponding to the ground guide bar GB2 is 1320 mm/baccarat, the gear warp feeding amount corresponding to the ground guide bar GB3 is 1480 mm/baccarat, the gear warp feeding amount corresponding to the ground guide bar GB4 is 1980 mm/baccarat, the gear warp feeding amount corresponding to the ground guide bar GB5 is 1980 mm/bach, and the gear warp feeding amount corresponding to the ground guide bar GB6 is 4300 mm/bach;

s4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on a front needle bed to form the bottom layer 4, the ground bar GB4 and the ground bar GB5 are arranged on a front needle bed and/or a rear needle bed to form the surface layer 5, the ground bar GB6 and the ground bar GB7 are arranged on the front needle bed and/or the rear needle bed to form the middle layer 6, the ground bar GB1 is arranged on a weft insertion structure of 0-0/2-2/4-4/2///, the ground bar GB2 is arranged on a knitting chain structure of 1-0/0-0/0-1//, ground bar GB3 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk change warp knitting organization (1-1/1-0/2-2/2-3) ×3/(3-3/4-5/4-4/3-2) ×3//, ground bar GB5 walk change warp knitting organization (3-3/4-5/4/3-2) ×3/(1-1/1-0/2-3) ×3//, ground bar GB6 walk chain organization 1-0/0-0/1//, ground bar GB7 walk change satin organization.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, and the yarn of the ground guide bar GB7 is a second color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 5

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 7 guide bars, and the 7 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6 and a ground guide bar GB7;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 and the yarn of the ground guide bar GB7 are threaded on the machine table in a full threading mode, the gear warp feeding amount 2300 mm/sausage corresponding to the ground guide bar GB1, the gear warp feeding amount 2020 mm/sausage corresponding to the ground guide bar GB2, the gear warp feeding amount 2180 mm/sausage corresponding to the ground guide bar GB3, the gear warp feeding amount 2680 mm/sausage corresponding to the ground guide bar GB4, the gear warp feeding amount 5000 mm/sausage corresponding to the ground guide bar GB6 and the gear warp feeding amount 5000 mm/sausage corresponding to the ground guide bar GB 7;

s4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on a front needle bed to form the bottom layer 4, the ground bar GB4 and the ground bar GB5 are arranged on a front needle bed and/or a rear needle bed to form the surface layer 5, the ground bar GB6 and the ground bar GB7 are arranged on the front needle bed and/or the rear needle bed to form the middle layer 6, the ground bar GB1 is arranged on a weft insertion structure of 0-0/2-2/4-4/2///, the ground bar GB2 is arranged on a knitting chain structure of 1-0/0-0/0-1//, ground bar GB3 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk change warp knitting organization (1-1/1-0/2-2/2-3) ×3/(3-3/4-5/4-4/3-2) ×3//, ground bar GB5 walk change warp knitting organization (3-3/4-5/4/3-2) ×3/(1-1/1-0/2-3) ×3//, ground bar GB6 walk chain organization 1-0/0-0/1//, ground bar GB7 walk change satin organization.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, and the yarn of the ground guide bar GB7 is a second color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 6

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 7 guide bars, and the 7 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6 and a ground guide bar GB7;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine in a 2-thread-2-empty mode, the yarn of the ground guide bar GB6 and the yarn of the ground guide bar GB7 are threaded on the machine in a full threading mode, the warp feeding quantity of gears corresponding to the ground guide bar GB1 is 3000 mm/bach, the gear warp feeding amount of the ground bar GB2 is 2720 mm/sausage, the gear warp feeding amount of the ground bar GB3 is 2880 mm/sausage, the gear warp feeding amount of the ground bar GB4 is 3380 mm/sausage, the gear warp feeding amount of the ground bar GB5 is 3380 mm/sausage, the gear warp feeding amount of the ground bar GB6 is 5700 mm/sausage, and the gear warp feeding amount of the ground bar GB7 is 5700 mm/sausage;

s4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on a front needle bed to form the bottom layer 4, the ground bar GB4 and the ground bar GB5 are arranged on a front needle bed and/or a rear needle bed to form the surface layer 5, the ground bar GB6 and the ground bar GB7 are arranged on the front needle bed and/or the rear needle bed to form the middle layer 6, the ground bar GB1 is arranged on a weft insertion structure of 0-0/2-2/4-4/2///, the ground bar GB2 is arranged on a knitting chain structure of 1-0/0-0/0-1//, ground bar GB3 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk change warp knitting organization (1-1/1-0/2-2/2-3) ×3/(3-3/4-5/4-4/3-2) ×3//, ground bar GB5 walk change warp knitting organization (3-3/4-5/4/3-2) ×3/(1-1/1-0/2-3) ×3//, ground bar GB6 walk chain organization 1-0/0-0/1//, ground bar GB7 walk change satin organization.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, and the yarn of the ground guide bar GB7 is a second color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 7

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 7 guide bars, and the 7 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6 and a ground guide bar GB7;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 and the yarn of the ground guide bar GB7 are threaded on the machine table in a full threading mode, the gear warp feeding amount 2300 mm/sausage corresponding to the ground guide bar GB1, the gear warp feeding amount 2020 mm/sausage corresponding to the ground guide bar GB2, the gear warp feeding amount 2180 mm/sausage corresponding to the ground guide bar GB3, the gear warp feeding amount 2680 mm/sausage corresponding to the ground guide bar GB4, the gear warp feeding amount 5000 mm/sausage corresponding to the ground guide bar GB6 and the gear warp feeding amount 5000 mm/sausage corresponding to the ground guide bar GB 7;

s4, braiding: the ground bar GB1, the ground bar GB2, the ground bar GB3 are arranged on a front needle bed to form the bottom layer 4, the ground bar GB5, the ground bar GB7 are arranged on a front needle bed and/or a rear needle bed to form the surface layer 5, the ground bar GB6 is arranged on the front needle bed and/or the rear needle bed to form the middle layer 6, the ground bar GB1 is arranged on the front needle bed and/or the rear needle bed to form 0-0/2-2/4-4/2///, the ground bar GB2 is arranged on the knitting chain to form 1-0/0-0/1//, ground bar GB3 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk change warp knitting organization (1-1/1-0/2-2/2-3) ×3/(3-3/4-5/4-4/3-2) ×3//, ground bar GB5 walk change warp knitting organization (3-3/4-5/4/3-2) ×3/(1-1/1-0/2-3) ×3//, ground bar GB6 walk chain organization 1-0/0-0/1//, ground bar GB7 walk change satin organization.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, and the yarn of the ground guide bar GB7 is a second color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 8

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 8 guide bars, and the 8 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6, a ground guide bar GB7 and a ground guide bar GB8;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarns of the ground guide bar GB1, the ground guide bar GB2 and the ground guide bar GB3 are all threaded on the machine table in a full threading mode, the yarns of the ground guide bar GB4 and the ground guide bar GB5 are all threaded on the machine table in a 2-threading 2-blank mode, the yarns of the ground guide bar GB6, the ground guide bar GB7 and the ground guide bar GB8 are all threaded on the machine table in a full threading mode, the warp feeding quantity of gears corresponding to the ground guide bar GB1 is 1600 mm/bach, the gear warp feed amount 1320 mm/sausage corresponding to the ground bar GB2, the gear warp feed amount 1480 mm/sausage corresponding to the ground bar GB3, the gear warp feed amount 1980 mm/sausage corresponding to the ground bar GB4, the gear warp feed amount 1980 mm/sausage corresponding to the ground bar GB5, the gear warp feed amount 4300 mm/sausage corresponding to the ground bar GB6, the gear warp feed amount 4300 mm/sausage corresponding to the ground bar GB7, and the gear warp feed amount 4300 mm/sausage corresponding to the ground bar GB 8;

s4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on a front needle bed to form the bottom layer 4, the ground bar GB4 and the ground bar GB5 are arranged on a front needle bed and/or a back needle bed to form the surface layer 5, the ground bar GB6 is arranged on the front needle bed and/or the back needle bed to form the middle layer 6, the ground bar GB1 is arranged on the front needle bed and/or the back needle bed to form 0-0/2-4/2-2///, the ground bar GB2 is arranged on the knitting chain of 1-0/0-0/1//, ground bar GB3 walk-knitting chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk-changing warp knitting chain organization (1-1/1-0/2-2/2-3) 3/(3-3/4-5/4-4/3-2) 3//, ground bar GB5 walk-changing warp knitting chain organization (3-3/4-5/4/3-2) 3/(1-1/1-0/2-3) 3//, ground bar GB6 walk-knitting chain organization 1-0/0-0/1//, ground bar GB7 walk-changing satin organization, the ground guide bar GB8 walk knitting chain organization is 1-0/0-0/0-1/1-1//.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, the yarn of the ground guide bar GB7 is a second color yarn, and the yarn of the ground guide bar GB8 is a third color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 9

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 8 guide bars, and the 8 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6, a ground guide bar GB7 and a ground guide bar GB8;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6, the yarn of the ground guide bar GB7 and the yarn of the ground guide bar GB8 are threaded on the machine table in a full threading mode, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB1 is 2300 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB2 is 2020 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB3 is 2180 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB4 is 2680 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB6 is 5000 mm/sausage, the gear warp feeding amount of the corresponding gear of the ground guide bar GB7 is 5000 mm/sausage, and the gear warp feeding amount of the gear corresponding gear of the ground guide bar GB7 is 5000 mm/sausage;

s4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on a front needle bed to form the bottom layer 4, the ground bar GB4 and the ground bar GB5 are arranged on a front needle bed and/or a back needle bed to form the surface layer 5, the ground bar GB6 is arranged on the front needle bed and/or the back needle bed to form the middle layer 6, the ground bar GB1 is arranged on the front needle bed and/or the back needle bed to form 0-0/2-4/2-2///, the ground bar GB2 is arranged on the knitting chain of 1-0/0-0/1//, ground bar GB3 walk-knitting chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk-changing warp knitting chain organization (1-1/1-0/2-2/2-3) 3/(3-3/4-5/4-4/3-2) 3//, ground bar GB5 walk-changing warp knitting chain organization (3-3/4-5/4/3-2) 3/(1-1/1-0/2-3) 3//, ground bar GB6 walk-knitting chain organization 1-0/0-0/1//, ground bar GB7 walk-changing satin organization, the ground guide bar GB8 walk knitting chain organization is 1-0/0-0/0-1/1-1//.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, the yarn of the ground guide bar GB7 is a second color yarn, and the yarn of the ground guide bar GB8 is a third color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 10

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 8 guide bars, and the 8 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6, a ground guide bar GB7 and a ground guide bar GB8;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6, the yarn of the ground guide bar GB7 and the yarn of the ground guide bar GB8 are threaded on the machine table in a full threading mode, the warp feeding amount of gears corresponding to the ground guide bar GB1 is 3000 mm/Czochralski, the warp feeding amount of gears corresponding to the ground guide bar GB2 is 2720 mm/Czochralski, the warp feeding amount of gears corresponding to the ground guide bar GB3 is 2880 mm/Czochralski, the warp feeding amount of gears corresponding to the ground guide bar GB4 is 3380 mm/Czochralski, the warp feeding amount of gears corresponding to the ground guide bar GB6 is 5700 mm/Czochralski, and the warp feeding amount of gears corresponding to the ground guide bar GB7 is 5700 mm/Czochralski;

s4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on a front needle bed to form the bottom layer 4, the ground bar GB4 and the ground bar GB5 are arranged on a front needle bed and/or a back needle bed to form the surface layer 5, the ground bar GB6 is arranged on the front needle bed and/or the back needle bed to form the middle layer 6, the ground bar GB1 is arranged on the front needle bed and/or the back needle bed to form 0-0/2-4/2-2///, the ground bar GB2 is arranged on the knitting chain of 1-0/0-0/1//, ground bar GB3 walk-knitting chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk-changing warp knitting chain organization (1-1/1-0/2-2/2-3) 3/(3-3/4-5/4-4/3-2) 3//, ground bar GB5 walk-changing warp knitting chain organization (3-3/4-5/4/3-2) 3/(1-1/1-0/2-3) 3//, ground bar GB6 walk-knitting chain organization 1-0/0-0/1//, ground bar GB7 walk-changing satin organization, the ground guide bar GB8 walk knitting chain organization is 1-0/0-0/0-1/1-1//.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, the yarn of the ground guide bar GB7 is a second color yarn, and the yarn of the ground guide bar GB8 is a third color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 11

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 8 guide bars, and the 8 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6, a ground guide bar GB7 and a ground guide bar GB8;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6, the yarn of the ground guide bar GB7 and the yarn of the ground guide bar GB8 are threaded on the machine table in a full threading mode, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB1 is 2300 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB2 is 2020 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB3 is 2180 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB4 is 2680 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB6 is 5000 mm/sausage, the gear warp feeding amount of the corresponding gear of the ground guide bar GB7 is 5000 mm/sausage, and the gear warp feeding amount of the gear corresponding gear of the ground guide bar GB7 is 5000 mm/sausage;

s4, braiding: ground bars GB1, GB2 and GB3 form the bottom layer 4 by being laid on a front needle bed, ground bars GB4, GB5, GB7 and GB8 form the surface layer 5 by being laid on a front needle bed and/or a rear needle bed, ground bars GB6 form the middle layer 6 by being laid on a front needle bed and/or a rear needle bed, ground bars GB1 are laid with weft insertion tissues 0-0/2-2/4-4/2//, ground bar GB2 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB3 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk change warp knitting organization (1-1/1-0/2-3) 3/(3-3/4-5/4/3-2) 3//, ground bar GB5 walk change warp knitting organization (3-3/4-5/4/3-2) 3/(1-1/1-0/2-2/2-3), ground bar GB6 walk chain organization 1-0/0-0/1///, ground bar GB7 walk change satin organization, the ground guide bar GB8 walk knitting chain organization is 1-0/0-0/0-1/1-1//.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, the yarn of the ground guide bar GB7 is a second color yarn, and the yarn of the ground guide bar GB8 is a third color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 12

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 8 guide bars, and the 8 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6, a ground guide bar GB7 and a ground guide bar GB8;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6, the yarn of the ground guide bar GB7 and the yarn of the ground guide bar GB8 are threaded on the machine table in a full threading mode, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB1 is 2300 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB2 is 2020 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB3 is 2180 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB4 is 2680 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB6 is 5000 mm/sausage, the gear warp feeding amount of the corresponding gear of the ground guide bar GB7 is 5000 mm/sausage, and the gear warp feeding amount of the gear corresponding gear of the ground guide bar GB7 is 5000 mm/sausage;

s4, braiding: ground bars GB1, GB2, GB3 form the bottom layer 4 by being laid on a front needle bed, ground bars GB4, GB5, GB7 form the surface layer 5 by being laid on a front needle bed and/or a rear needle bed, ground bars GB6, GB8 form the middle layer 6 by being laid on a front needle bed and/or a rear needle bed, ground bars GB1 are laid with weft insertion organization 0-0/2-2/4-4/2-2//, ground bar GB2 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB3 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk change warp knitting organization (1-1/1-0/2-3) 3/(3-3/4-5/4/3-2) 3//, ground bar GB5 walk change warp knitting organization (3-3/4-5/4/3-2) 3/(1-1/1-0/2-2/2-3), ground bar GB6 walk chain organization 1-0/0-0/1///, ground bar GB7 walk change satin organization, the ground guide bar GB8 walk knitting chain organization is 1-0/0-0/0-1/1-1//.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, the yarn of the ground guide bar GB7 is a second color yarn, and the yarn of the ground guide bar GB8 is a third color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

Example 13

Referring to fig. 1-2 and fig. 6-7, a three-layer mesh cloth with color changing function comprises a plurality of first yarns 1, a plurality of second yarns 2 and a plurality of third yarns 3, wherein the plurality of first yarns 1 are cross-woven to form a bottom layer 4, the plurality of second yarns 2 are cross-woven upwards from the bottom end of the bottom layer 4 to form a surface layer 5, a plurality of meshes 51 are formed at the top end of the surface layer 5, the plurality of third yarns 3 are cross-woven downwards from the bottom end of the surface layer 5 to the top end of the bottom layer 4, and are cross-woven with the second yarns 2 between the surface layer 5 and the bottom layer 4 to form an intermediate layer 6, and the yarn color of the third yarns 3 is more than two.

A plurality of meshes 51 form a plurality of grooves 52 at the top of the face layer 5.

The yarn colour of the second yarn 2 is different from the yarn colour of the third yarn 3.

The mesh 51 is a circular mesh, an elliptical mesh, or a polygonal mesh.

The mesh 51 is a mesh having the same pore size, a mesh having a gradual pore size, or a mesh having an alternate pore size.

Referring to fig. 8, the present embodiment provides a method for manufacturing a three-layer mesh fabric with color-changing function, which includes the following steps:

s1, setting guide bars: a double-needle bed high-speed warp knitting machine or a jacquard machine is selected for knitting, the double-needle bed high-speed warp knitting machine or the jacquard machine is provided with at least 8 guide bars, and the 8 guide bars are sequentially arranged from the front needle bed to the back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6, a ground guide bar GB7 and a ground guide bar GB8;

s2, warping: the method comprises the steps of (1) stripping a P-DTY150D/48F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, wherein the content of the stripping comb GB1 terylene semi-smooth low-elastic light net yarn is about 8.994%, 3 packing heads each packing head 476 root yarn, the content of the stripping comb GB2 terylene transparent yarn is about 11.692%, stripping comb GB3 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 476 root yarn, stripping comb GB3 terylene semi-smooth low-elastic light net yarn content is about 16.959%, 3 packing heads each packing head 476 root yarn, stripping comb GB4 warping color yarn P-DTY200D/72F semi-smooth low-elastic light net yarn, 3 packing heads each packing head 238 root yarn, stripping comb GB4 color yarn content is about 11.692%, 3 packing heads each packing head 238G-3 semi-smooth low-elastic net yarn content is about 5656%, 3 packing heads each packing head 476 root yarn is about 3749%, 3 packing heads each packing head 476 root yarn is about 16.959%, and 3 packing heads each packing head 476 root yarn is about 37-smooth low-smooth net yarn, and 3 packing heads each stripping comb GB3 terylene low-smooth low-elastic net yarn content is about 200D/72F;

S3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6, the yarn of the ground guide bar GB7 and the yarn of the ground guide bar GB8 are threaded on the machine table in a full threading mode, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB1 is 2300 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB2 is 2020 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB3 is 2180 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB4 is 2680 mm/sausage, the gear warp feeding amount of the corresponding gear warp of the ground guide bar GB6 is 5000 mm/sausage, the gear warp feeding amount of the corresponding gear of the ground guide bar GB7 is 5000 mm/sausage, and the gear warp feeding amount of the gear corresponding gear of the ground guide bar GB7 is 5000 mm/sausage;

s4, braiding: ground bars GB1, GB2, GB3 form the bottom layer 4 by being laid on a front needle bed, ground bars GB4, GB5, GB8 form the surface layer 5 by being laid on a front needle bed and/or a rear needle bed, ground bars GB6, GB7 form the middle layer 6 by being laid on a front needle bed and/or a rear needle bed, ground bars GB1 are laid with weft insertion organization 0-0/2-2/4-4/2-2//, ground bar GB2 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB3 walk chain organization 1-0/0-0/0-1/1-1//, ground bar GB4 walk change warp knitting organization (1-1/1-0/2-3) 3/(3-3/4-5/4/3-2) 3//, ground bar GB5 walk change warp knitting organization (3-3/4-5/4/3-2) 3/(1-1/1-0/2-2/2-3), ground bar GB6 walk chain organization 1-0/0-0/1///, ground bar GB7 walk change satin organization, the ground guide bar GB8 walk knitting chain organization is 1-0/0-0/0-1/1-1//.

In the step S2, the yarn of the ground guide bar GB6 is a first color yarn, the yarn of the ground guide bar GB7 is a second color yarn, and the yarn of the ground guide bar GB8 is a third color yarn.

Referring to fig. 3-5, the color change effect of the mesh fabric manufactured by the manufacturing method described above may be:

(1) The left side of the mesh 51 is one color, and the right side of the mesh 51 is one color;

(2) The colors on the left and right sides of the mesh 51 are alternately changed;

(3) As the size of the mesh 51 gradually changes, the color changes, such as the size or length of the left and right sides of the mesh 51 changes, the upper and lower half of one mesh 51 changes, etc.

The embodiment also provides an application of the three-layer mesh cloth with the color-changing function or the three-layer mesh cloth with the color-changing function obtained by the manufacturing method in the field of shoes and clothes.

It is to be understood that the disclosed embodiments are not limited to the specific process steps or materials disclosed herein, but are intended to extend to equivalents of such features as would be understood by one of ordinary skill in the relevant arts. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting.

Reference in the specification to "an embodiment" means that a particular feature, or characteristic, described in connection with the embodiment is included in at least one embodiment of the invention. Thus, appearances of the phrase or "an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment.

It should be noted that while the above description sets forth numerous specific details for a thorough understanding of the present invention, the present invention may be practiced in other ways than those described herein, and the scope of the present invention is therefore not limited to the specific embodiments disclosed above.

Claims (9)

1. The manufacturing method of the three-layer mesh cloth with the color-changing function is characterized by comprising the following steps of: the first yarns are interwoven to form a bottom layer, the second yarns are interwoven from the bottom end of the bottom layer upwards to form a surface layer, a plurality of meshes are formed at the top end of the surface layer, the third yarns are interwoven from the bottom end of the surface layer downwards to the top end of the bottom layer and are interwoven with the second yarns to form a middle layer, and the yarn colors of the third yarns are more than two;

s1, setting guide bars: selecting a machine for knitting, wherein the machine is provided with at least 6 guide bars, and the 6 guide bars are sequentially arranged from a front needle bed to a back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5 and a ground guide bar GB6;

S2, warping:

s3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are all threaded on a machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are all threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 is threaded on the machine table in a full threading mode, the gear warp feed quantity corresponding to the ground guide bar GB1 is 1600-3000 mm/baccarat, the gear warp feed quantity corresponding to the ground guide bar GB2 is 1320-2720 mm/bact, the gear warp feed quantity corresponding to the ground guide bar GB3 is 1480-2880 mm/bact, the gear warp feed quantity corresponding to the ground guide bar GB4 is 1980-3380 mm/bact, and the gear warp feed quantity corresponding to the ground guide bar GB6 is 0-5700 mm/bact;

s4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on the front needle bed to form the bottom layer, the ground bar GB4 and the ground bar GB5 are arranged on the front needle bed and/or the rear needle bed to form the surface layer, the ground bar GB6 is arranged on the front needle bed and/or the rear needle bed to form the middle layer, the ground bar GB1 is arranged on the weft insertion structure, the ground bar GB2 is arranged on the weft knitting structure, the ground bar GB3 is arranged on the weft knitting structure, the ground bar GB4 is arranged on the warp knitting structure, the ground bar GB5 is arranged on the warp knitting structure, and the ground bar GB6 is arranged on the weft knitting structure.

2. The method for manufacturing the three-layer mesh cloth with the color-changing function according to claim 1, comprising the following steps:

s1, setting guide bars: selecting a machine for knitting, wherein the machine is provided with at least 7 guide bars, and the 7 guide bars are sequentially arranged from a front needle bed to a back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6 and a ground guide bar GB7;

s2, warping:

s3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are threaded on a machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6 and the yarn of the ground guide bar GB7 are threaded on the machine table in a full threading mode, the gear warp feeding amount corresponding to the ground guide bar GB1 is 1600-3000 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB2 is 1320-2720 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB3 is 1480-2880 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB4 is 1980-3380 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB5 is 1980-3380 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB6 is 5700-5700/sausage and the gear warp feeding amount corresponding to the ground guide bar GB 7-5700 mm/sausage;

S4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on the front needle bed to form the bottom layer, the ground bar GB4, the ground bar GB5 and the front needle bed and/or the back needle bed are arranged on the front needle bed and/or the back needle bed to form the surface layer, the ground bar GB6 and the back needle bed are arranged on the front needle bed and/or the back needle bed to form the middle layer, the ground bar GB1 and the ground bar GB2 are arranged on the back needle bed to form the weft insertion structure, the ground bar GB3 and the ground bar GB4 are arranged on the weft insertion structure, the ground bar GB4 and the ground bar GB5 are arranged on the weft insertion structure, the ground bar GB7 and the ground bar GB7 are arranged on the weft insertion structure.

3. The method for manufacturing the three-layer mesh cloth with the color-changing function according to claim 1, comprising the following steps:

s1, setting guide bars: selecting a machine for knitting, wherein the machine is provided with at least 8 guide bars, and the 8 guide bars are sequentially arranged from a front needle bed to a back needle bed as a ground guide bar GB1, a ground guide bar GB2, a ground guide bar GB3, a ground guide bar GB4, a ground guide bar GB5, a ground guide bar GB6, a ground guide bar GB7 and a ground guide bar GB8;

s2, warping:

s3, threading: the yarn of the ground guide bar GB1, the yarn of the ground guide bar GB2 and the yarn of the ground guide bar GB3 are all threaded on the machine table in a full threading mode, the yarn of the ground guide bar GB4 and the yarn of the ground guide bar GB5 are all threaded on the machine table in a 2-threading 2-blank mode, the yarn of the ground guide bar GB6, the yarn of the ground guide bar GB7 and the yarn of the ground guide bar GB8 are all threaded on the machine table in a full threading mode, the gear warp feeding amount corresponding to the ground guide bar GB1 is 1600-3000 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB2 is 1320-2720 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB3 is 1480-2880 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB4 is 1980-3380 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB5 is 1980-3380 mm/sausage, the gear warp feeding amount corresponding to the ground guide bar GB6 is 5700-43000 mm/sausage and the gear warp feeding amount corresponding to the ground guide bar 5700 mm/sausage;

S4, braiding: the ground bar GB1, the ground bar GB2 and the ground bar GB3 are arranged on the front needle bed to form the bottom layer, the ground bar GB4, the ground bar GB5 are arranged on the front needle bed and/or the rear needle bed to form the surface layer, the ground bar GB6 is arranged on the front needle bed and/or the rear needle bed to form the middle layer, the ground bar GB1 is arranged on the weft insertion structure, the ground bar GB2 is arranged on the weft insertion structure, the ground bar GB3 is arranged on the weft insertion structure, the ground bar GB4 is arranged on the warp flat structure, the ground bar GB5 is arranged on the warp flat structure, the ground bar GB6 is arranged on the weft structure, the ground bar GB7 is arranged on the warp satin structure, and the ground bar GB8 is arranged on the weft insertion structure.

4. A method for producing a three-layer mesh with color changing function according to any one of claims 1 to 3, wherein the machine is a double needle bed high speed warp knitting machine.

5. A three-layer mesh cloth with color-changing function obtained by the manufacturing method according to any one of claims 1 to 3, wherein a plurality of grooves are formed on the top end of the surface layer by a plurality of meshes.

6. A three-layer web with color shifting function according to claim 5, wherein the yarn color of the second yarn is different from the yarn color of the third yarn.

7. A three-layer mesh cloth with a color changing function according to claim 5, wherein the mesh is a circular mesh, an oval mesh or a polygonal mesh.

8. The three-layer mesh cloth with color changing function according to claim 5, wherein the mesh holes are the same size, gradually changed size or alternatively changed size.

9. Use of a three-layer mesh with color-changing function obtained by the manufacturing method of any one of claims 1 to 3 in footwear.