CN108823781B

CN108823781B - Angle color-changing mesh cloth and manufacturing method thereof

Info

Publication number: CN108823781B
Application number: CN201810843441.6A
Authority: CN
Inventors: 许金泰; 鲁晓兵; 朱丹燕; 朱盼; 王雅霜
Original assignee: Sincetech Fujian Technology Co Ltd
Current assignee: Sincetech Fujian Technology Co Ltd
Priority date: 2018-07-27
Filing date: 2018-07-27
Publication date: 2023-05-09
Anticipated expiration: 2038-07-27
Also published as: CN108823781A

Abstract

The invention relates to an angle color-changing mesh fabric, which comprises a mesh fabric body integrally woven by a warp knitting machine, wherein the mesh fabric body comprises a surface layer, a bottom layer and a connecting layer, a plurality of longitudinal columns are formed on the surface layer and are distributed along the weft direction, each longitudinal column comprises a plurality of coils connected in series along the warp direction, each coil comprises a first coil formed by a first color and a second coil formed by a second color, the first coil and the second coil are interwoven together, the first coil is exposed on one side of the longitudinal column along the weft direction, and the second coil is exposed on the other side of the longitudinal column along the weft direction. After the technical scheme of the invention is adopted, the coils with different colors are exposed out of the two sides of the column, the mesh is watched from different angles, the whole mesh can show the main colors with different colors, the color-changing effect is formed, and the whole mesh is of an integral structure integrally woven by a warp knitting machine, and has the advantages of convenient processing and stable structure. The invention also provides a manufacturing process of the mesh cloth, and the processing efficiency is high.

Description

Angle color-changing mesh cloth and manufacturing method thereof

Technical Field

The invention relates to an angle-changing mesh cloth and a manufacturing method thereof.

Background

The mesh cloth is a cloth commonly used in the footwear and clothing industries. Along with the development of the times and the improvement of living standard, people not only have higher and higher requirements on the texture and comfort level of shoe material fabrics, but also require that the vamp can accord with fashion trend, and a color-changing mesh appears on the market, and color-changing materials are adhered on the surface layer so that the mesh can present different colors under different light refraction angles, namely, color-changing effects are generated. However, the use of the adhesive color-changing material can affect the air permeability of the three-layer mesh cloth, can also reduce the stability of the fabric, can increase the weight and cost of the fabric, and is relatively troublesome to process and manufacture.

In view of this, the present inventors have conducted intensive studies on the above problems, and have produced the present invention.

Disclosure of Invention

The invention aims to provide the angle-changing mesh cloth which is convenient to manufacture, stable in structure and capable of presenting different colors under different observation angles.

Another object of the present invention is to provide a method for manufacturing a mesh cloth capable of improving processing efficiency and improving stability.

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

the utility model provides an angle screen cloth that discolours, includes the screen cloth body of weaving by warp knitting machine an organic whole, and the screen cloth body includes surface course, bottom and is used for connecting the articulamentum of surface course and bottom, forms a plurality of columns on the surface course, and a plurality of columns are arranged along the latitudinal direction, and every column is along warp direction extension, and every column includes a plurality of coils of concatenating along the warp direction, the coil includes the first coil that is formed by first colour and the second coil that is formed by the second colour, and first colour is different with the second colour, and first coil and second coil interweave together, and first coil is protruding to be exposed in one side along the latitudinal direction in the column, and the second coil is protruding to be exposed in the opposite side along the latitudinal direction in the column.

As a preferred embodiment of the present invention, the warp knitting machine is a double jacquard double needle bed warp knitting machine.

In a preferred embodiment of the present invention, the facing layer has mesh formed thereon, the mesh being formed between adjacent columns, the mesh passing from an upper surface of the facing layer to a lower surface of the facing layer.

As a preferred form of the invention, the mesh extends in the warp direction.

As a preferable mode of the invention, the first coil is made of cationic polyester yarn, the specification of the cationic polyester yarn is 100-300D, and the second coil is made of polyester yarn, and the specification of the second coil is 100-200D.

As a preferable mode of the invention, the connecting layer is connecting yarns interwoven between the surface layer and the bottom layer, the connecting yarns are low-elasticity light net wires with the specification of 30-40D, and the bottom layer is formed by interweaving 100-200D polyester yarns.

The invention also provides a manufacturing method of the angle color-changing mesh cloth, the mesh cloth comprises a mesh cloth body, the mesh cloth body comprises a surface layer, a bottom layer and a connecting layer for connecting the surface layer and the bottom layer, a plurality of longitudinal columns are formed on the surface layer, the longitudinal columns are distributed along the weft direction, each longitudinal column extends along the warp direction, each longitudinal column comprises a plurality of coils connected in series along the warp direction, the manufacturing method of the mesh cloth comprises a weaving process and a dyeing and shaping process,

in the knitting process, a double-needle bed jacquard warp knitting machine with at least five guide bars is selected for knitting, the five guide bars sequentially comprise a guide bar GB1, a jacquard guide bar JB1.1, a jacquard guide bar JB1.2, a guide bar GB4 and a guide bar GB5 from a front needle bed yarn to form a surface layer of a mesh cloth, the jacquard guide bar JB1.1 and the jacquard guide bar JB1.2 penetrate through first yarns, the guide bar GB 1.1 and the jacquard guide bar JB1.2 penetrate through second yarns, a first coil is formed through the jacquard guide bar 1.1 and the jacquard guide bar JB1.2, a second coil is formed through the guide bar GB1, the first coil and the second coil are interwoven together, the first coil is exposed on one side of the longitudinal direction, the second coil is exposed on the other side of the longitudinal direction, the mesh cloth is formed on the back needle bed, and the mesh cloth is connected with the front layer of the back needle bed, and the bottom layer of the mesh cloth is formed by connecting the first and the back needle bed layer with the back layer of the mesh cloth;

in the dyeing and shaping process, the first yarn and the second yarn are dyed into different colors.

As a preferred mode of the present invention, the double needle bar jacquard warp knitting machine further includes jacquard bars JB2.1 and jacquard bars JB2.2, the jacquard bars JB2.1 and jacquard bars JB2.2 being disposed between the jacquard bars 1.2 and the jacquard bars GB 4.

As a preferable mode of the invention, the guide bar GB1 is threaded in a full thread mode, and the stitch of the stitch chain is 1-0/0-0/0-1/1-1/; jacquard bar JB1.1 wears yarn in a 1-wear 1-empty mode, walks through plain weave 1-0/1-1/1-2/1-1//; jacquard bar JB1.2 wears yarn in a 1-space 1-wear mode, walks through plain weave 1-0/1-1/1-2/1-1//; jacquard bar JB2.1 wears the yarn in a 1-wear 1-empty mode, and the basic organization of the yarn is 1-1/1-0/1-1/1-2//; jacquard bar JB2.2 wears 1 empty 1 way, and the basic organization of the yarn is 1-1/1-0/1-1/1-2//; the guide bar GB4 is threaded in a full thread mode, and the yarn-laying structure is 1-1/1-0/1-0/1-0//; GB5 walks thick plain weave 1-1/2-3/2-2/1-0//.

As a preferable mode of the invention, the guide bar GB1 wears 100-200D polyester yarns; jacquard guide bar JB1.1 is used for threading 100-300D cationic polyester yarns; jacquard guide bar JB1.2 is used for threading 100-300D cationic polyester yarns; jacquard bar JB2.1 wears 100-200D nylon yarn; jacquard bar JB2.1 wears 100-200D nylon yarn; the guide bar GB4 is threaded with 30-40D low-elasticity light gauze; guide bar G5 wears 100-200D nylon yarn.

After the technical scheme of the invention is adopted, the coils with different colors are exposed out of the two sides of the column, the mesh is watched from different angles, the main color of the whole mesh can be different colors, the color-changing effect is formed, and the whole mesh is of an integral structure integrally woven by a warp knitting machine, and has the advantages of convenient processing and stable structure. The invention also provides a manufacturing process of the mesh cloth, which has high processing efficiency and stable structure of the manufactured mesh cloth.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a partial structure of a facing layer of the present invention;

FIG. 3 is a diagram of the present invention;

FIG. 4 is a schematic diagram of a partial structure of an embodiment of the present invention;

in the figure:

10-facing 11-first coil

12-second coil 13-mesh

14-Jacquard 20-underlayer

30-tie layer

Detailed Description

For further explanation of the technical scheme of the present invention, the following is described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 4, an angle-changing mesh comprises a mesh body integrally knitted by a warp knitting machine, the mesh body comprising a face layer 10, a bottom layer 20 and a connection layer 30 for connecting the face layer 10 and the bottom layer 20, the face layer 10 and the bottom layer 20 being composited together, the connection layer 30 being a connection yarn by which the mesh is converted into a layer structure, a plurality of columns being formed on the face layer 10, the plurality of columns being arranged in a weft direction, each column extending in the warp direction, each column comprising a plurality of loops connected in series in the warp direction, the loops comprising a first loop 11 formed of a first color and a second loop 12 formed of a second color, the first color being different from the second color, in an embodiment the first color being red, the second color being yellow, the first loop 11 and the second loop 12 being interlaced together, the first loop 11 and the second loop 12 being partially overlapped together, the first loop 11 protruding on one side of the columns in the weft direction (being provided as a first side), the second loop 12 protruding on the other side of the columns in the weft direction (second side). The first sides of the wales may be all the first coils 11, or one second coil 12 may be formed between adjacent first coils 11, i.e., extending from the second coil 12 from the second side to the first side and between adjacent first coils 11.

As a preferred embodiment of the present invention, the face layer 10 is formed with mesh openings 13, the mesh openings 13 are formed between adjacent columns, and the mesh openings 13 extend from the upper surface of the face layer 10 to the lower surface of the face layer 10, and as a preferred embodiment of the present invention, the mesh openings extend in the warp direction. The mesh 13 is used for the vamp, and mesh 13 has ventilative effect, and the vamp can reach dustproof ventilation effect.

In a preferred embodiment of the present invention, the first coil 11 is made of a cationic polyester yarn, the specification of the cationic polyester yarn is 100-300D, and the second coil 12 is made of a polyester yarn, the specification of the cationic polyester yarn is 100-200D.

In a preferred embodiment of the present invention, the connecting layer 30 is a connecting yarn interwoven between the surface layer 10 and the bottom layer 20, the connecting yarn is a low-elastic light net yarn, for example, a polyester low-elastic light net yarn with a specification of 30-40D may be used, and the bottom layer 20 is formed by interweaving 100-200D polyester yarns.

The invention also provides a manufacturing method of the angle color-changing mesh cloth, the mesh cloth comprises a mesh cloth body, the mesh cloth body comprises a surface layer 10, a bottom layer 20 and a connecting layer 30 for connecting the surface layer 10 and the bottom layer 20, a plurality of longitudinal columns are formed on the surface layer 10 and are distributed along the weft direction, each longitudinal column extends along the warp direction, each longitudinal column comprises a plurality of coils connected in series along the warp direction, the manufacturing method of the mesh cloth comprises a weaving process and a dyeing and shaping process,

in the knitting process, a double-needle bar jacquard warp knitting machine with at least five guide bars is selected for knitting, in the embodiment, seven guide bars are selected, namely, a guide bar GB1, a guide bar JB1.1, a guide bar JB1.2, a guide bar JB2.1, a guide bar JB2.2, a guide bar GB4, a guide bar GB5, a guide bar GB1, a guide bar Jacquard guide bar JB1.1, a guide bar Jacquard guide bar JB1.2 are arranged on a front needle mattress yarn to form a face layer 10 of a mesh, the guide bar JB1.1 and the guide bar Jacquard guide bar JB1.2 penetrate through first yarns, a guide bar GB 1.1 and a guide bar Jacquard guide bar JB1.2 are sequentially arranged from a front needle bar to a rear needle bar, a first coil 11 is formed through the guide bar JB1.1 and the guide bar Jacquard guide bar JB1.2, a second coil 12 is formed through the guide bar GB1, the first coil 11 and the second coil 12 are connected with the second coil guide bar GB1 on the front needle mattress yarn layer 20 along the front needle bar mattress layer 20, and the second coil layer 20 is exposed on the other side of the guide bar layer 20;

in the dyeing and shaping process, the first yarn and the second yarn are dyed into different colors, and the conventional process is adopted for dyeing and shaping. Before dyeing, the fabric surface is degreased and the oiling agent is added in the spinning or weaving process. If the pretreatment oiling agent is not carried out, a dye-resisting film is formed, the fabric is not easy to dye, the dyeing spots are easy to cause, the dyeing defects are dark, and the fastness is reduced. During heat setting, the oil can penetrate into the fabric or thermally decompose to stain the setting equipment, forming a char oil which in turn can stain the fabric. The fabric can dissolve out disperse dye in the fiber due to excessive oil-containing agent; meanwhile, the oiling agent can be dissolved into the fiber, so that the dye can be more easily diffused to the surface of the fiber, and the color of the fiber is lightened. The purpose of tentering and shaping the polyester knitted fabric is to finish the polyester knitted fabric by using the thermal plasticity of polyester fibers and adopting a thermal tentering and shaping method, so that the knitted fabric with irregular appearance is formed into a knitted fabric with a loop-shaped structure, and the cloth cover is flat. The fabric has the advantages of residual shrinkage removal rate, stable size and good wrinkle resistance, so that the polyester knitted fabric has good wearability, and the heat setting temperature of the general polyester knitted fabric is 170 ℃ as a starting point, so that the stability of a finished product can be improved within 185-190 ℃ and the setting purpose is achieved. The shaping temperature is not higher than 195 ℃, otherwise, the hand feeling and the elasticity of the finished product are affected.

As a preferable mode of the invention, the guide bar GB1 is threaded in a full thread mode, and the stitch of the stitch chain is 1-0/0-0/0-1/1-1/; jacquard bar JB1.1 wears yarn in a 1-wear 1-empty mode, walks through plain weave 1-0/1-1/1-2/1-1//; jacquard bar JB1.2 wears yarn in a 1-space 1-wear mode, walks through plain weave 1-0/1-1/1-2/1-1//; the jacquard guide bar JB1.1 and the jacquard guide bar JB1.2 are also used for forming thick plain weave and mesh, and the jacquard offset yarn-laying number is 1-0/1-1/2-3/1-1//, and the offset signal is HHHTTTHH when the thick plain weave is formed. The jacquard offset yarn-laying number is 2-1/1-1/1-2/1-1//, and the offset signal is TTHHHHH.

Jacquard bar JB2.1 wears the yarn in a 1-wear 1-empty mode, and the basic organization of the yarn is 1-1/1-0/1-1/1-2//; jacquard bar JB2.2 wears 1 empty 1 way, and the basic organization of the yarn is 1-1/1-0/1-1/1-2//; the jacquard bar JB2.1 and the jacquard bar JB2.2 are used to form a jacquard pattern 14, in an embodiment the jacquard pattern 14 is "V" shaped.

The guide bar GB4 is threaded in a full thread mode, and the yarn-laying structure is 1-1/1-0/1-0/1-0//; GB5 walks thick plain weave (i.e. three-needle warp flat weave) 1-1/2-3/2-2/1-0//.

As a preferable mode of the invention, the guide bar GB1 wears 100-200D polyester yarns; jacquard guide bar JB1.1 is used for threading 100-300D cationic polyester yarns; jacquard guide bar JB1.2 is used for threading 100-300D cationic polyester yarns; jacquard bar JB2.1 wears 100-200D nylon yarn; jacquard bar JB2.1 wears 100-200D nylon yarn; the guide bar GB4 is threaded with 30-40D low-elasticity light gauze; guide bar G5 wears 100-200D nylon yarn. Guide bar GB1, jacquard guide bar JB1.1, jacquard guide bar JB1.2, jacquard guide bar JB2.1, jacquard guide bar JB2.2, guide bar GB4, guide bar GB5 correspond 6 coils respectively, each coil that guide bar GB1 corresponds has 512 yarns, each coil that jacquard guide bar JB1.1 and jacquard guide bar JB1.2 correspond has 256 yarns, each coil that jacquard guide bar JB2.1 and jacquard guide bar JB2.2 correspond has 256 yarns, each coil that GB4 corresponds has 512 yarns, each coil that GB5 corresponds has 512 yarns.

The invention has the advantages of unique color flashing effect, angle color change, high performance, good chemical stability, good hand feeling, softness, crease resistance, good maintainability, wear resistance and the like.

The form of the present invention is not limited to the illustrations and examples, and any person who performs a similar idea of the present invention should be regarded as not departing from the scope of the patent of the invention.

Claims

1. The utility model provides a manufacturing method of angle screen cloth that discolours, this screen cloth includes the screen cloth body, and the screen cloth body includes surface course, bottom and is used for connecting the articulamentum of surface course and bottom, forms a plurality of columns on the surface course, and a plurality of columns are arranged along the latitudinal direction, and every column is along warp direction extension, and every column includes a plurality of coils of concatenating along warp direction, its characterized in that, this screen cloth's manufacturing method includes weaving process and dyeing design process, its characterized in that:

2. A method of making an angularly variable web according to claim 1, wherein: the double needle bar jacquard warp knitting machine further comprises jacquard guide bar JB2.1 and jacquard guide bar JB2.2, wherein the jacquard guide bar JB2.1 and the jacquard guide bar JB2.2 are arranged between the jacquard guide bar JB1.2 and the jacquard guide bar GB 4.

3. A method of making an angularly variable web according to claim 2, wherein: the guide bar GB1 is threaded in a full thread mode, and the stitch of the stitch chain is 1-0/0-0/0-1/1-1//; jacquard bar JB1.1 wears yarn in a 1-wear 1-empty mode, walks through plain weave 1-0/1-1/1-2/1-1//; jacquard bar JB1.2 wears yarn in a 1-space 1-wear mode, walks through plain weave 1-0/1-1/1-2/1-1//; jacquard bar JB2.1 wears the yarn in a 1-wear 1-empty mode, and the basic organization of the yarn is 1-1/1-0/1-1/1-2//; jacquard bar JB2.2 wears 1 empty 1 way, and the basic organization of the yarn is 1-1/1-0/1-1/1-2//; the guide bar GB4 is threaded in a full thread mode, and the yarn-laying structure is 1-1/1-0/1-0/1-0//; GB5 walks thick plain weave 1-1/2-3/2-2/1-0//.

4. A method of making an angularly variable web according to claim 1, wherein: the guide bar GB1 wears 100-200D polyester yarns; jacquard guide bar JB1.1 is used for threading 100-300D cationic polyester yarns; jacquard guide bar JB1.2 is used for threading 100-300D cationic polyester yarns; jacquard bar JB2.1 wears 100-200D nylon yarn; jacquard bar JB2.1 wears 100-200D nylon yarn; the guide bar GB4 is threaded with 30-40D low-elasticity light gauze; guide bar GB5 wears 100-200D nylon yarn.