CN112030344A - Hole velvet lifting process screen cloth, and manufacturing method and application thereof - Google Patents

Abstract

The invention discloses a mesh cloth in a hole velvet lifting process, a manufacturing method and application thereof, comprising a mesh cloth body woven by a double-needle bed high-speed warp knitting machine, wherein the mesh cloth of a velvet lifting fabric in a warp knitting geometric mesh hole is divided into a face mesh layer, a velvet lifting connecting layer and a bottom layer according to the fabric, and the mesh cloth manufacturing step, compared with the prior art, the mesh cloth in the hole velvet lifting process has the following beneficial effects: the mesh design screen cloth of the face mesh of the invention not only ensures that the screen cloth is breathable and comfortable, but also better and intuitively reflects the pile lifting effect in the holes by the mesh design, so that the fabric has the pile effect and better screen cloth soft hand feeling compared with the common screen cloth, has the advantages of no wrinkle, good breathable effect, good maintainability, wear resistance and the like, solves the problems of abnormal joint hand feeling and effect by using integrated weaving, saves the cost, saves the working procedure of screen cloth post-production processing, and can finally form the pile lifting process fabric screen cloth in special holes according to the use season, the use, the mesh size and the pile lifting length.

Description

Hole velvet lifting process screen cloth, and manufacturing method and application thereof

Technical Field

The invention relates to a hole velvet-lifting process screen cloth, a manufacturing method and application thereof, belonging to the technical field of shoe materials.

Background

The mesh cloth is a fabric with mesh holes, namely mesh cloth, woven mesh cloth and knitted mesh cloth, and also nonwoven fabric at present, wherein the woven mesh cloth is white-woven or yarn-dyed, has good air permeability, is stiff and comfortable after bleaching and dyeing processing, is particularly suitable for being used as articles such as curtains and mosquito nets besides being used as summer clothing, and has consistent mesh hole size for printing, filtering and the like.

The prior art has the problems that pile cloth is processed and attached to mesh screen cloth after napping cloth on the market, so that pile is flat and collapsed, the pile effect is poor due to the fact that glue is attached, the hand feeling is abnormal, and the pile is easy to fall.

Disclosure of Invention

The invention aims to solve the problems and provide a technical mesh cloth for raising velvet in holes, a manufacturing method and application thereof.

In order to achieve the purpose, the invention is realized by the following technical scheme: a mesh cloth for raising pile in holes is composed of a main body of mesh cloth knitted by warp knitting machine, and the mesh cloth for raising pile in geometric holes of mesh is divided into face mesh layer, pile-raising connecting layer and bottom layer.

As an improvement of the present invention, the pile-lifting connection layer 2 includes first yarns 4 and second yarns 5, the first yarns 4 are disposed above the second yarns 5, the face mesh layer 1 is disposed above the bottom layer 3, and the pile-lifting connection layer 2 is disposed between the face mesh layer 1 and the bottom layer 3.

As a modification of the present invention, the material used for the first yarns 4 is transparent monofilament, and the material used for the second yarns 5 is low stretch yarn.

As an improvement of the present invention, the method for manufacturing the facial mesh layer 1 is as follows:

GB 1: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB1 yarn is threaded through a machine in a one-thread-one-empty mode, the GB1 running weft insertion organization is 0-0/2-2//, and the GB1 polyester yarn content accounts for about 2.761%.

GB 2: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB2 yarn is threaded 2 times in a machine station, the GB2 yarn is changed by satin weave 1-0/(2-3/3-2) × 2/4-5/(3-2/2-3) × 2//, and the GB2 polyester yarn content accounts for about 16.989%.

GB 3: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB3 yarn is threaded by a machine station in a 2-thread 2-space mode, the GB3 yarn is changed by satin weave 4-5/(3-2/2-3) × 2/1-0/(2-3/3-2) × 2//, and the GB3 polyester yarn content accounts for about 16.989%.

As an improvement of the invention, the manufacturing method of the raised connecting layer comprises the following steps: the pile lifting is connected with 2 guide bars and 2 guide bars.

GB 4: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB4 yarn is fully threaded on a machine, the GB4 variable chain stitch 1-1/1-0/0-0/0-1//, and the GB4 color master batch yarn content accounts for about 36.527%.

GB 5: the warping chemical fiber yarn comprises a plurality of pan heads and a plurality of yarns of each pan head, the GB5 yarn is fully threaded on a machine, the GB5 variable chaining organization is 1-0/0-0/0-1/1-1//, and the content of the GB5 monofilament yarn accounts for about 5.921%.

As an improvement of the present invention, the bottom layer is made by the following method: the ground yarn 2 is a guide bar.

GB 6: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB6 yarn is fully threaded on a machine, GB6 runs through a velvet tissue 2-2/1-0/1-1/2-3//, and the GB6 terylene content accounts for about 10.406%.

GB 7: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB7 yarn is fully threaded on a machine, GB7 runs through a velvet tissue 1-1/2-3/2-2/1-0//, and the GB4 terylene content accounts for about 10.406%.

As an improvement of the invention, the face mesh layer can be designed into meshes which can meet the requirements of warp knitting netting according to design requirements, and can be warp knitting geometric meshes in a mode of gradually changing the size.

As an improvement of the invention, the face mesh layer can be made of any materials according to needs to enrich the diversity of colors and mesh effects.

As an improvement of the invention, the bottom layer can be designed with a woven mesh weave, a plain weave, a gradient weave and other warp knitting process weaves according to design requirements, or other yarns are used for enriching the color and the bottom mesh effect.

As an improvement of the invention, the GB4 guide bar is a yarn for raising velvet, the color of the yarn is an effect for determining the color of the velvet, the color of the yarn can be changed arbitrarily according to requirements, and the effect and the color can be enriched by using colored yarns and network yarns such as segment dyeing and the like.

As an improvement of the invention, the GB5 guide bar is an important combing process for ensuring the fluff lifting effect, and the tension is taken into consideration, so that the length of the fluff and the fluff feeling effect of the fluff are determined to a certain extent.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. the mesh-type design mesh fabric of the face part not only ensures that the mesh fabric is breathable and comfortable, but also better and visually reflects the fluff lifting effect in the holes by the design of the meshes, so that the fabric has the advantages of fluff effect, good mesh fabric hand feeling, no wrinkle, good breathable effect, good maintainability, wear resistance and the like compared with the common mesh fabric, solves the problems of abnormal bonding hand feeling and effect by using integrated weaving, saves the cost and saves the working procedure of processing the mesh fabric after production.

2. According to the 2-3 pile-lifting technological comb, the length of the pile-lifting pile is achieved by utilizing the height of the double needle beds in the middle, so that the fabric has the pile-lifting effect, is comfortable in hand feeling and good in extensibility and heat preservation, and more importantly, the net cloth woven by the technology is not easy to fall down like other towel cloth or pile-lifting cloth, and is good in physical property.

3. The invention can set the screen cloth into various unique pattern patterns and two-color or multi-color effects according to the design concept, even gradually changed plush type meshes and the like, and can finally form the plush lifting process screen cloth in special holes according to the use season, the use, the size of the designed mesh and the length of plush lifting, and can use various colored yarn low-elasticity or colorful yarn or space dyeing yarn and the like to enrich the plush screen cloth, the plush lifting lines can be not simply flat full plush lifting, partially hollowed plush lifting, or wave plush lifting, or jacquard weave is used to enrich patterns of other plush effects.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a diagram of a first embodiment of the present invention;

FIG. 2 is a front view of a second embodiment of the present invention;

FIG. 3 is a reverse drawing of the second embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of the coil of the present invention;

FIG. 5 is a view showing the effect of the fabric process simulation and a view showing the structure of the fabric process coil;

FIG. 6 is a simulation diagram of a jacquard velvet connecting layer coil structure according to the present invention.

Wherein: a face mesh layer-1, a raised connecting layer-2, a bottom layer-3, a first yarn-4 and a second yarn-5.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the present invention will be further described with reference to the following embodiments:

[ raised pile technical mesh cloth in holes according to the embodiment of the invention ]

Referring to fig. 1, 2, 3, 4, 5 and 6, the invention provides a hole-in-mesh pile-lifting technical mesh cloth, which comprises a mesh cloth body knitted by a double-needle-bed high-speed warp knitting machine, the pile-lifting textile mesh cloth in the warp knitting geometric mesh holes is divided into a face mesh layer 1, a pile-lifting connecting layer 2 and a bottom layer 3 according to fabrics, the pile-lifting connecting layer 2 comprises first yarns 4 and second yarns 5, the first yarns 4 are arranged above the second yarns 5, the face mesh layer 1 is arranged above the bottom layer 3, the pile-lifting connecting layer 2 is arranged between the face mesh layer 1 and the bottom layer 3, the first yarns 4 are made of transparent monofilaments, the second yarns 5 are made of low-elasticity yarns, the face mesh layer 1 can design meshes which can be arbitrarily met according to design requirements, and can be warp knitted into geometric mesh holes in a large, small and gradually-changed size manner, the facial mesh layer 1 can also be made of any materials according to needs to enrich the diversity of colors and mesh effects of the mesh, and the bottom layer 3 can be designed with a mesh weave, a plain weave, a gradient weave and other process weaves which are perforated in the air according to design requirements or other yarns to enrich the colors and the bottom mesh effects.

[ application of the cloth in-hole napping process according to an embodiment of the present invention ]

The application of the technical mesh cloth with the holes for lifting the velvet in the holes is applied to the knitted vamps, the knitted clothes and the knitted bedding.

[ method for manufacturing cloth by using in-hole napping process according to the embodiment of the present invention ]

The manufacturing method of the face mesh layer 1 comprises the following steps:

GB 1: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB1 yarn is threaded through a machine in a one-thread-one-empty mode, the GB1 running weft insertion organization is 0-0/2-2//, and the GB1 polyester yarn content accounts for about 2.761%.

GB 2: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB2 yarn is threaded 2 times in a machine station, the GB2 yarn is changed by satin weave 1-0/(2-3/3-2) × 2/4-5/(3-2/2-3) × 2//, and the GB2 polyester yarn content accounts for about 16.989%.

GB 3: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB3 yarn is threaded by a machine station in a 2-thread 2-space mode, the GB3 yarn is changed by satin weave 4-5/(3-2/2-3) × 2/1-0/(2-3/3-2) × 2//, and the GB3 polyester yarn content accounts for about 16.989%.

The manufacturing method of the raised connecting layer comprises the following steps: the pile lifting is connected with 2 guide bars and 2 guide bars.

GB 4: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB4 yarn is fully threaded on a machine, the GB4 variable chain stitch 1-1/1-0/0-0/0-1//, and the GB4 color master batch yarn content accounts for about 36.527%.

GB 5: the warping chemical fiber yarn comprises a plurality of pan heads and a plurality of yarns of each pan head, the GB5 yarn is fully threaded on a machine, the GB5 variable chaining organization is 1-0/0-0/0-1/1-1//, and the content of the GB5 monofilament yarn accounts for about 5.921%.

The manufacturing method of the bottom layer comprises the following steps: the ground yarn 2 is a guide bar.

GB 6: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB6 yarn is fully threaded on a machine, GB6 runs through a velvet tissue 2-2/1-0/1-1/2-3//, and the GB6 terylene content accounts for about 10.406%.

GB 7: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB7 yarn is fully threaded on a machine, GB7 runs through a velvet tissue 1-1/2-3/2-2/1-0//, and the GB4 terylene content accounts for about 10.406%.

Example one

A manufacturing method of a fabric mesh for raising pile in warp knitting geometric mesh holes comprises the following steps of:

GB 1: the warp P-FDY150D/96F semi-finished yarn has 6 pan heads and 238 yarns per pan head, the GB1 yarn is threaded through a machine in a one-through one-empty mode, the let-off quantity of a gear is 650 mm/wax, the GB1 weft insertion organization is 0-0/2-2//, and the GB1 polyester yarn content accounts for about 2.761%.

GB 2: the warping P-FDYP-FDY300D/96F semi-smooth yarn has 6 pan heads and 238 yarns, GB2 yarn is threaded in a machine station in a 2-thread 2-empty mode, the gear let-off amount is 2000 mm/wax gram, GB2 changes through satin tissue 1-0/(2-3/3-2) 2/4-5/(3-2/2-3) 2//, and the GB2 polyester yarn content accounts for about 16.989%.

GB 3: the warping P-FDYP-FDY300D/96F semi-smooth yarn has 6 pan heads and 238 yarns, GB3 yarn is threaded in a machine station in a 2-thread 2-empty mode, the gear let-off amount is 2000 mm/wax gram, GB3 changes through satin tissue 4-5/(3-2/2-3) 2/1-0/(2-3/3-2) 2//, and the GB3 polyester yarn content accounts for about 16.989%.

Pile lifting and connecting 2 guide bars:

GB 4: warping yarn P-DTY150D/72F (83D/36F/2) low-elasticity no-twist yarn (color master batch) 6 pan heads and 476 yarns, wherein the gear feed amount of GB4 yarn is 4300 mm/wax in a full-penetration mode (4 purple yarns, 4 red yarns, 4 summer jade yarns, 4 citric acid yellow yarns, 4 lake green yarns, 4 deep sea blue yarns and 4 light purple yarns) by threading the GB4 yarn on a machine table, the GB4 step change chain weave 1-1/1-0/0-0/0-1//, and the GB4 color master batch yarn content accounts for about 36.527%.

GB 5: the warp beaming P-DT30D/1F monofilament yarn has 6 pan heads, 476 yarns, GB5 yarn is fully threaded on a machine, the gear let-off capacity is 3500 mm/wax, GB5 is changed in a chain structure 1-0/0-0/0-1/1-1//, and the content of GB5 monofilament yarn is about 5.921%.

Bottom yarn 2 guide bars:

GB 6: 6 pan heads of P-FDY75D/36F semi-finished yarn are warped, each pan head has 476 yarns, GB6 yarn is fully threaded on a machine, the let-off quantity of a gear is 2450 mm/wax, GB6 is run through a velvet tissue 2-2/1-0/1-1/2-3//, and the GB6 terylene content accounts for about 10.406%.

GB 7: 6 pan heads of P-FDY75D/36F semi-finished yarn are warped, each pan head has 476 yarns, GB7 yarn is fully threaded on a machine, the let-off quantity of a gear is 2450 mm/wax, GB7 is walked through a velvet tissue 1-1/2-3/2-2/1-0//, and the GB4 terylene content accounts for about 10.406%.

Wherein, the face mesh layer 1 can design any mesh meeting the warp knitting mesh cloth according to the design requirement, the geometrical meshes can be warp-knitted in a large, small and size gradual change mode, the face mesh layer 1 can be made of any material according to the requirement to enrich the diversity of the colors and the mesh effects, the bottom layer 3 can be designed with the warp-knitted process textures such as a hollow mesh weave, a plain weave, a gradual change weave and the like according to the design requirement, or other yarns to enrich the colour and bottom mesh effect, the GB4 bar is a pile-lifting yarn, the color of the wool is the effect of determining the color of the wool, the color of the yarn can be changed randomly according to requirements, the effect and the color can be enriched by using colored yarns and also using section dyeing and other network yarns, the GB5 guide bar is an important combing process for ensuring the effect of lifting the wool, the tension of the GB5 guide bar is noticed, and the length of the wool and the wool feeling effect of the wool are determined to a certain degree.

Example two

The manufacturing method of the wave jacquard velvet fabric screen cloth in the warp knitting hole comprises the following steps:

GB 1: the warp P-FDY150D/96F semi-finished yarn has 6 pan heads and 238 yarns per pan head, the GB1 yarn is threaded through a machine in a one-through one-empty mode, the let-off quantity of a gear is 750 mm/wax, the GB1 weft insertion organization is 0-0/2-2//, and the GB1 polyester yarn content accounts for about 3.287%.

GB 2: the warping P-FDYP-FDY300D/96F semi-smooth yarn has 6 pan heads and 238 yarns, GB2 yarn is threaded in a machine table in a 2-thread 2-empty mode, the gear let-off amount is 2150 mm/wax, GB2 changes warp satin weave 1-0/2-3/(3-2/2-3) 2/4-5/3-2//, and the GB2 polyester yarn content accounts for about 18.847%.

GB 3: the warping P-FDYP-FDY300D/96F semi-smooth yarn has 6 pan heads and 238 yarns, GB3 yarn is threaded in a machine table in a 2-thread 2-empty mode, the gear let-off amount is 2150 mm/wax, GB3 is changed by satin weave 4-5/3-2/(2-3/3-2) 2/1-0/2-3//, and the GB3 polyester yarn content accounts for about 18.847%.

Jacquard velvet connecting layer 2 guide bars:

GB 4: warping yarn P-DTY150D/72F (83D/36F/2) low-elasticity non-twisting yarn (color master batch) 6 pan heads and 476 yarn each pan head, threading GB4 yarn on a machine table in a full-threading mode (4 purple yarns, 4 red yarns, 4 nephrite, 4 citric acid yellow yarns, 4 lake green yarns, 4 deep sea blue yarns and 4 light purple yarns), gear let-off amount 3700 mm/wax, GB4 changing through satin tissue 1-1/1-0/1-1/0-1/1-1/1-0/1-1/1-3/3-4/4-4/5-6/7-7/7-8/8-8/7-6/6-6/6-5/5-5/5-4/4- 4/4-3/3-3/3-2/2-2/3-4/4-4/4-5/5-5/5-6/6-6/6-7/7-7/7-8/8-8/9-10/10-10/11-12/12-12/13-14/14-14/14-15/15-15/15-14/14-14/14-15/14-14/14-13/13-13/12-11/11-11/10-9/9-9/8-7/7-7/7-6/6-6/6-5/5-5/5-4/4-4/4-3/3-3/3-2/2-2/3-4/4-4/4-5/5-5/5-6/6-6/6-7/7-7/7-8/7-7/6-5/5-5/4-3/3-3/2-1//, and the content of GB4 masterbatch yarn is about 32.435%.

GB 5: warping P-DT30D/1F monofilament yarn 6 pan heads each 476 yarns, threading GB5 yarn on a machine in a full-threading mode, gear let-off 3700 mm/wax, GB5 change satin weave

1-0/1-1/0-1/1-1/1-0/1-1/1-2/2-2/3-4/4-4/5-6/6-6/7-8/8-8/7-6/6-6/6-5/5-5/5-4/4-4/4-3/3-3/3-2/2-2/3-4/4-4/4-5/5-5/5-6/6-6/6-7/7-7/7-8/8-8/9-10/10-10/11-12/12-12/13-14/14-14/14-15/15-15/15-14/14-14/14-15/15-15/14-13/13-13/12-11/11-11/10-9/9-9/8-7/7-7/7-6/6-6/6-5/5-5/5-4/4-4/4-3/3-3/3-2/2-2/3-4/4-4/4-5/5-5/5-6/6-6/6-7/7-7/7-8/8-8/6-5/5-5/4-3/3-3/2-1/1-1//, the content of GB5 monofilament yarn amounting to around 8.613%.

Bottom yarn 2 guide bars:

GB 6: 6 pan heads of P-FDY75D/36F semi-finished yarn are warped, each pan head has 476 yarns, GB6 yarn is fully penetrated in the threading of a machine, the gear let-off quantity is 1950 mm/wax, GB6 passes through a plain weave 2-2/1-0/1-1/1-2//, and the GB6 terylene content accounts for about 8.547%.

GB 7: 6 pan heads of P-FDY75D/36F semi-finished yarn are warped, each pan head has 476 yarns, GB7 yarn is fully threaded on a machine, the let-off amount of a gear is 2150 mm/wax, GB7 is walked through a velvet tissue 1-1/2-3/2-2/1-0//, and the GB4 polyester content accounts for about 9.424%.

The jacquard velvet connecting layer 2 is characterized in that various rich patterns or local hollowed-out jacquard velvet effects are required to be provided for the guide bars, for example, yarns are run by matching GB4GB5 in the example, the process method of the embodiment can be specifically referred to achieve the effect of locally hollowed-out jacquard velvet or other patterns, so that the jacquard velvet also has a certain pattern and line effect, the bottom yarn 2 of the guide bars can be used for designing woven mesh tissues such as a hollow woven mesh tissue, a plain weave tissue, a gradient weave and the like according to design requirements, or other yarns are used for enriching the color and the bottom mesh effect, the GB4 guide bar is the yarn for lifting velvet, the color of the yarn is determined by the color of pile, the color of the yarn can be arbitrarily changed according to requirements, the colored yarn can also be used, section dyeing and other network yarns can be enriched in effect and color, the face mesh layer 1 can be used for designing meshes which can arbitrarily accord with the woven mesh cloth according with design requirements, and can be, The geometrical meshes are warp-knitted in a small and size gradual change mode, and the face mesh layer 1 can be made of any material according to needs to enrich the diversity of colors and mesh effects.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a carry fine hair technology screen cloth in hole, includes the screen cloth body of weaving by the tricot machine, its characterized in that: the fabric mesh for lifting the velvet in the warp knitting geometric mesh holes is divided into a face mesh layer (1), a velvet lifting connecting layer (2) and a bottom layer (3) according to the fabric.

2. The hole-in-pile technical mesh cloth according to claim 1, characterized in that: carry fine hair articulamentum (2) including first yarn (4) and second yarn (5), second yarn (5) top is located in first yarn (4), bottom (3) top is located in facial mesh layer (1), carry fine hair articulamentum (2) and locate between facial mesh layer (1) and bottom (3).

3. The hole-in-pile technical mesh cloth according to claim 2, characterized in that: the first yarns (4) are made of transparent monofilaments, and the second yarns (5) are made of low-elasticity yarns.

4. A method for manufacturing a hole-in-hole velvet technological mesh cloth according to claim 3, characterized in that the method for manufacturing the face mesh layer (1) is as follows:

GB 1: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB1 yarn is threaded through a machine in a one-thread-one-empty mode, the GB1 running weft insertion organization is 0-0/2-2//, and the GB1 polyester yarn content accounts for about 2.761%.

GB 2: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB2 yarn is threaded 2 times in a machine station, the GB2 yarn is changed by satin weave 1-0/(2-3/3-2) × 2/4-5/(3-2/2-3) × 2//, and the GB2 polyester yarn content accounts for about 16.989%.

GB 3: the warping chemical fiber yarn has a plurality of pan heads and a plurality of yarns, the GB3 yarn is threaded by a machine station in a 2-thread 2-space mode, the GB3 yarn is changed by satin weave 4-5/(3-2/2-3) × 2/1-0/(2-3/3-2) × 2//, and the GB3 polyester yarn content accounts for about 16.989%.

5. A method for manufacturing a hole-in-pile technical mesh cloth according to claim 4, wherein the method for manufacturing the pile-lifting connecting layer (2) is as follows: the pile lifting connecting layer (2) is connected with 2 guide bars.

GB 4: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB4 yarn is fully threaded on a machine, the GB4 variable chain stitch 1-1/1-0/0-0/0-1//, and the GB4 color master batch yarn content accounts for about 36.527%.

GB 5: the warping chemical fiber yarn comprises a plurality of pan heads and a plurality of yarns of each pan head, the GB5 yarn is fully threaded on a machine, the GB5 variable chaining organization is 1-0/0-0/0-1/1-1//, and the content of the GB5 monofilament yarn accounts for about 5.921%.

6. A method for manufacturing a hole velvet technological mesh cloth according to claim 5, characterized in that the bottom layer (3) is manufactured as follows: the bottom layer (3) is connected with 2 guide bars.

GB 6: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB6 yarn is fully threaded on a machine, GB6 runs through a velvet tissue 2-2/1-0/1-1/2-3//, and the GB6 terylene content accounts for about 10.406%.

GB 7: the warping chemical fiber yarn has a plurality of pan heads, each pan head has a plurality of yarns, the GB7 yarn is fully threaded on a machine, GB7 runs through a velvet tissue 1-1/2-3/2-2/1-0//, and the GB4 terylene content accounts for about 10.406%.

7. The hole-in-hole velvet technological mesh cloth according to any one of claims 1-6, which is characterized in that: the face mesh layer (1) designs meshes which can meet the requirements of warp knitting netting at will according to the design requirements, including but not limited to warp knitting geometric meshes in a mode of gradually changing the size, the small size and the size.

8. The hole-in-hole velvet technological mesh cloth according to any one of claims 1-6, which is characterized in that: the face mesh layer (1) is made of any material according to needs to enrich the diversity of colors and mesh effects.

9. The hole-in-hole velvet technological mesh cloth according to any one of claims 1-6, which is characterized in that: the bottom layer (3) is designed into a mesh weave which is empty and penetrated according to design requirements, and the weave comprises but is not limited to a plain weave and a gradient weave.

10. Use of a technical mesh according to any one of claims 1-6 on shoe uppers, textiles, bedding.

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