CN113882079B - Mesh cloth for replacing shoe tongue or shoe heel - Google Patents

Mesh cloth for replacing shoe tongue or shoe heel Download PDF

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Publication number
CN113882079B
CN113882079B CN202011365910.1A CN202011365910A CN113882079B CN 113882079 B CN113882079 B CN 113882079B CN 202011365910 A CN202011365910 A CN 202011365910A CN 113882079 B CN113882079 B CN 113882079B
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guide bar
follows
shoe
laying
needle bed
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CN113882079A (en
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苏成喻
柯文新
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FUJIAN JINJIANG HUAYU WEAVING CO LTD
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FUJIAN JINJIANG HUAYU WEAVING CO LTD
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    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04BKNITTING
    • D04B21/00Warp knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
    • D04B21/10Open-work fabrics
    • D04B21/12Open-work fabrics characterised by thread material
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F1/00General methods for the manufacture of artificial filaments or the like
    • D01F1/02Addition of substances to the spinning solution or to the melt
    • D01F1/10Other agents for modifying properties
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F1/00General methods for the manufacture of artificial filaments or the like
    • D01F1/02Addition of substances to the spinning solution or to the melt
    • D01F1/10Other agents for modifying properties
    • D01F1/103Agents inhibiting growth of microorganisms
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F6/00Monocomponent artificial filaments or the like of synthetic polymers; Manufacture thereof
    • D01F6/88Monocomponent artificial filaments or the like of synthetic polymers; Manufacture thereof from mixtures of polycondensation products as major constituent with other polymers or low-molecular-weight compounds
    • D01F6/92Monocomponent artificial filaments or the like of synthetic polymers; Manufacture thereof from mixtures of polycondensation products as major constituent with other polymers or low-molecular-weight compounds of polyesters
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2331/00Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
    • D10B2331/04Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyesters, e.g. polyethylene terephthalate [PET]
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2331/00Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
    • D10B2331/10Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyurethanes
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2401/00Physical properties
    • D10B2401/13Physical properties anti-allergenic or anti-bacterial

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Knitting Of Fabric (AREA)

Abstract

The invention relates to a mesh cloth for replacing a shoe tongue or a shoe heel, which is knitted by adopting seven guide bars, wherein the guide bars JB1.1 and JB1.2 carry out yarn laying and looping knitting on front and back needle beds, and the guide bars GB1 and GB2 carry out yarn laying and looping knitting on the front needle bed to form a surface layer; and the guide bar GB4 carries out yarn laying and looping on the front needle bed and the back needle bed to form a middle layer, the guide bar GB5 and the guide bar GB6 carry out yarn laying and looping on the back needle bed to weave a bottom layer, and seven guide bars are matched to weave a warp knitting fabric. According to the jacquard comb, the thickness of the fabric can be changed by adopting the elastic material through the density lifting machine jacquard comb of the fabric, so that materials with different thicknesses are formed.

Description

Mesh cloth for replacing shoe tongue or shoe heel
Technical Field
The invention relates to the technical field of mesh cloth, in particular to mesh cloth for replacing a shoe tongue or a shoe heel.
Background
Chinese patent application number 201720903924.1 relates to a high elasticity warp knitting net cloth, including warp knitting thread and warp knitting slash, the warp knitting thread is vertical direction and arranges, and all around being equipped with 8 word nodes on every warp knitting thread, is provided with an O type node between two adjacent 8 byte points, and the cross section of two corresponding warp knitting slashes all around being equipped with a central node, and it has the polyester fiber line to alternate between two adjacent O type nodes, and the polyester fiber line all passes corresponding central node, and it has a high elasticity elastic line to all alternate between the central node that is vertical direction distribution. This high elasticity warp knitting screen cloth through changing the shape of connected node between traditional net twine and the line, with the reasonable structure that adds net twine of high elasticity elastic wire and polyester fiber line for the screen cloth structure is inseparabler more, has increased its elastic capacity, makes it bear great pulling force, compares current screen cloth comparison, and this screen cloth is more difficult to be dragged and damages.
Chinese patent application No. 201720667269.4 relates to a wire drawing point-like structure warp-knitted polyester spacer mesh cloth, which comprises an upper surface layer, a lower surface layer and a spacer yarn layer; the upper surface layer and the lower surface layer are connected together through the spacing yarn layer, and the spacing yarn layer forms interweaving points on the upper surface layer and the lower surface layer; the interweaving points are uniformly distributed in a point shape on the upper surface layer and the lower surface layer. The utility model has the advantages that: the upper surface layer, the lower surface layer and the spacing yarn layer are matched, and the upper surface layer and the lower surface layer form interlacing points which are uniformly distributed in a point-like manner, so that stress is uniform after each wire drawing and air inflation, and the surface effect of a product is smooth.
Chinese patent application number 201611092094.5 relates to a memory cotton 3D mattress, and belongs to the field of bedding. The invention comprises a memory cotton layer, a 3D mesh fabric layer and a supporting layer; the memory cotton layer is arranged on the 3D mesh fabric layer, the 3D mesh fabric layer is arranged on the supporting layer, and the memory cotton layer, the 3D mesh fabric layer and the supporting layer are fixedly connected in an adhesive mode; the supporting layer is formed by arranging a plurality of elastic plastic thin tubes, and the elastic plastic thin tubes are thermoplastic elastomer (TPE) thin tubes. The invention has good rebound resilience, is not easy to dent and deform, has strong air permeability of the 3D mesh layer, and is not easy to breed mites and bacteria. Meanwhile, the memory foam material is adopted, so that the comfort level is greatly improved, and the sleep quality can be improved to the maximum extent.
The Chinese patent application number 201620857677.1 relates to a hollow mesh cloth, the mesh cloth adopts an upper layer structure and a lower layer structure, weft threads of the mesh cloth of the upper layer and the lower layer adopt the same material, warp threads adopt materials with different shrinkage rates, the weft threads weave the warp threads of the upper layer and the lower layer together at certain intervals before the upper layer and the lower layer, and due to the different shrinkage rates of the warp threads of the upper layer and the lower layer, after the mesh cloth is cooled, the mesh cloth of one layer can bulge outwards, and a channel which is parallel to each other is formed between the two mesh cloths; the utility model discloses the one side is more level and smooth, and the another side is a neat wave structure, and wherein bulge's inside directly is formed with banding cavity passageway, need not secondary operation, has certain support nature and elasticity, and the travelling comfort is good to it is ventilative good to have, simple process, durable's characteristics.
Chinese patent application No. 201610837558.4 relates to a preparation method of hydrophilic mesh cloth or fabric for oil-water separation, which comprises the steps of firstly carrying out alkali-assisted roughening treatment on the pretreated mesh cloth or fabric; then, the coarsened mesh cloth or fabric is functionally modified by PVA hydrogel processed by hydrophilic functional nano materials through dipping, padding, spraying or other mixed modes; after drying treatment, the crosslinked PVA hydrogel is solidified and coated on the mesh skeleton and the surface of the mesh or fabric, and hydrophilic mesh or fabric with hydrophilic and oleophobic properties and capable of being used for oil-water separation is formed. The hydrophilic-oleophobic oil-water separation net prepared by the invention can quickly realize the separation of oil-water mixtures, is particularly suitable for a large amount of oil-water mixtures with light oil as a main oil source and low oil content, and realizes the quick separation of oil and water.
Chinese patent application No. 201410567055.0 relates to a silica gel mesh cloth, which is twisted into a polyester fiber mesh structure by utilizing the high strength and high temperature resistance of polyester fibers, the twisted polyester fiber mesh is used as a reinforcing layer material of the silica gel mesh cloth, and a layer of silica gel is uniformly coated on the outer layer of the polyester fiber mesh cloth; the structure is reasonable and simple, the production and the manufacture are easy, the cost is low, the use is convenient, the use temperature range is wide, and the long-term use can be realized at about 200 ℃; the mesh cloth also has low surface energy, is easy to clean, has high strength and can be used repeatedly. Can be widely applied to the technical field of food auxiliary processing equipment, such as products of baking pads and the like.
Chinese patent application No. 201520778401.X relates to a multilayer elastic mesh, which comprises a jacquard surface layer and a viscose fiber cloth layer, wherein the jacquard surface layer is bonded on the viscose fiber cloth layer through viscose; elastic yarns are arranged between the jacquard surface layer and the viscose fiber cloth layer, the jacquard surface layer is a fabric woven by weft knitting jacquard, and the viscose fiber cloth layer is a fabric with meshes and formed by viscose fiber warp knitting; the jacquard surface layer is two or more than two layers. The fabric with meshes woven by viscose fiber warp knitting of the utility model is wrinkled in the unstretched state and is not easy to loosen; the elastic yarn is added, so that the fabric has better extensibility in a stretching state, the elastic yarn can be utilized to stretch and retract, the fabric has good comfort, and meanwhile, the elastic yarn is arranged between the upper layer and the lower layer, so that the connection strength of the upper layer and the lower layer is improved.
Chinese patent application number 201220320157.9 relates to the cloth field, provides the good novel ventilative screen cloth of air permeability, including ventilative screen cloth body, ventilative screen cloth body includes the ventilative stratum reticulare of the upper strata, the tensile deformation silk layer of lower floor that form by rayon and dacron interweave, be equipped with the full drawn yarn layer between ventilative stratum reticulare of the upper strata and the tensile deformation silk layer of lower floor.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provide a mesh cloth for replacing a tongue or a heel of a shoe.
The purpose of the invention is realized by the following technical scheme:
a mesh cloth for replacing a shoe tongue or a shoe heel is knitted by adopting seven guide bars, wherein the guide bars JB1.1 and JB1.2 are knitted by lapping and looping on a front needle bed and a back needle bed, and the guide bars GB1 and GB2 are knitted by lapping and looping on the front needle bed to form a surface layer; and the guide bar GB4 carries out yarn laying and looping on the front needle bed and the back needle bed to form a middle layer, the guide bar GB5 and the guide bar GB6 carry out yarn laying and looping on the back needle bed to weave a bottom layer, and seven guide bars are matched to weave a warp knitting fabric. According to the jacquard comb, the thickness of the fabric can be changed by adopting the elastic material through the density lifting machine jacquard comb of the fabric, so that materials with different thicknesses are formed.
(1) The laying stitch of the guide bar GB1 is as follows: 1-0-1-1/1-2-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(2) The lapping stitch of the guide bar GB2 is as follows: 1-2-1-1/1-0-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(3) The yarn laying weave of the guide bar JB1.1 is as follows: 1-0-1-0/1-2-1-2//;
the yarn laying weave of the guide bar JB1.2 is as follows: 1-0-1-0/1-2-1-2//;
the threading mode of the guide bar JB1.1 and the guide bar JB1.2 is as follows: fully penetrating;
(4) The lapping stitch of the guide bar GB4 is as follows: 1-0-1-2/2-3-2-1//;
the threading mode of the guide bar GB4 is as follows: fully penetrating;
(5) The laying stitch of the guide bar GB5 is as follows: 1-1-1-2/1-1-1-0//;
the threading mode of the guide bar GB5 is as follows: fully penetrating;
(6) The lapping stitch of the guide bar GB6 is as follows: 1-1-1-0/1-1-1-2//;
the threading mode of the guide bar GB6 is as follows: fully penetrating;
the weaving raw materials used by each guide bar are as follows:
the weaving raw materials used by the guide bar GB1 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB2 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar JB1.1 are as follows: 140D spandex filaments;
the weaving raw materials used by the guide bar JB1.2 are: 140D spandex filaments;
the weaving raw materials used by the guide bar GB4 are as follows: 30D polyester monofilament;
the weaving raw materials used by the guide bar GB5 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB6 are as follows: 100D polyester low stretch yarn;
a preparation method of polyester low stretch yarn comprises the following specific steps:
dispersing graphite-phase carbon nitride in a sodium hydroxide solution, then adding a copper chloride solution for microwave ultrasonic mixing, filtering and drying a precipitate, and then calcining to obtain copper oxide-doped graphite-phase carbon nitride; then adding the doped copper oxide graphite phase carbon nitride into a barium chloride solution for microwave ultrasonic mixing, filtering and drying the precipitate, and then drying to obtain a barium sulfate copper oxide graphite phase carbon nitride three-dimensional material; dispersing the three-dimensional material of barium sulfate copper oxide graphite phase carbon nitride in an ethanol solvent, and then adding aminopropyl triethoxysilane for reaction at the reaction temperature of 65-80 ℃ for 1.5-2 hours; after the reaction is finished, centrifugal separation is carried out, and the solid is dried in vacuum to prepare the aminated graphite phase carbon nitride composite material; grinding the amino graphite phase carbon nitride composite material and pentaerythritol to obtain a mixture, adding PBT particles and PET chips, and carrying out melt spinning to obtain polyester yarns;
the mass ratio of the graphite-phase carbon nitride to the sodium hydroxide is 1:7-1;
the mass ratio of the graphite phase carbon nitride to the copper chloride is 2:1;
the molar ratio of the doped copper oxide graphite phase carbon nitride to the barium chloride is 3:1-5:1;
the concentration of the barium sulfate copper oxide graphite phase carbon nitride three-dimensional material in ethanol is 3-30 kg/m 3
1.
The mass fraction of the aminated graphite phase carbon nitride composite material in the polyester low stretch yarn is 1-5%.
The mass fraction of the pentaerythritol in the polyester low stretch yarn is 1-5%.
The mass fraction of the PBT particles in the polyester low stretch yarn is 10-20%.
Dispersing graphite-phase carbon nitride in a sodium hydroxide solution, then adding a copper chloride solution for microwave ultrasonic mixing, wherein the graphite-phase carbon nitride firstly adsorbs a layer of copper oxide in the interior and on the surface of the graphite-phase carbon nitride by utilizing a planar two-dimensional lamellar structure similar to graphene; then the same barium sulfate is adsorbed, the antibacterial property can be more durable by utilizing the protection effect of the barium sulfate on the copper oxide, so that a good antibacterial function is obtained, and the double antibacterial function is also achieved by adding the graphene which is the graphite phase carbon nitride carrier; meanwhile, barium sulfate can increase the brightness of terylene, and the three-dimensional material of barium sulfate copper oxide graphite phase carbon nitride is subjected to amination treatment and is ground with pentaerythritol, so that the technical problem of poor dispersibility caused by directly adding particles is mainly solved, the compatibility of the particles is improved, and the durable antibacterial property is finally provided.
Compared with the prior art, the invention has the following positive effects:
through integrated into one piece's screen cloth, efficiency improves greatly, and realizes local thickness change through weaving technology, can be for partly thicker, partly thinner effect.
Detailed Description
The following provides an embodiment of the present invention in the form of a mesh for use in place of a tongue or heel of a shoe.
Example 1
A mesh cloth for replacing a shoe tongue or a shoe heel is woven by adopting seven guide bars, wherein the guide bars JB1.1 and JB1.2 are knitted by lapping and looping in a front needle bed and a rear needle bed, and the guide bars GB1 and GB2 are knitted by lapping and looping in the front needle bed to form a surface layer; and the guide bar GB4 carries out yarn laying and looping on a front needle bed and a back needle bed to form a middle layer, the guide bar GB5 and the guide bar GB6 carry out yarn laying and looping and knitting on the back needle bed to form a bottom layer, and seven guide bars are matched and knitted to form the warp knitting fabric. According to the jacquard comb, the thickness of the fabric can be changed by adopting the elastic material through the density lifting machine jacquard comb of the fabric, so that materials with different thicknesses are formed.
(1) The laying stitch of the guide bar GB1 is as follows: 1-0-1-1/1-2-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(2) The laying stitch of the guide bar GB2 is as follows: 1-2-1-1/1-0-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(3) The yarn laying weave of the guide bar JB1.1 is as follows: 1-0-1-0/1-2-1-2//;
the yarn laying weave of the guide bar JB1.2 is as follows: 1-0-1-0/1-2-1-2//;
the threading mode of the guide bar JB1.1 and the guide bar JB1.2 is as follows: fully penetrating;
(4) The laying stitch of the guide bar GB4 is as follows: 1-0-1-2/2-3-2-1//;
the threading mode of the guide bar GB4 is as follows: fully penetrating;
(5) The laying stitch of the guide bar GB5 is as follows: 1-1-1-2/1-1-1-0//;
the threading mode of the guide bar GB5 is as follows: fully penetrating;
(6) The lapping stitch of the guide bar GB6 is as follows: 1-1-1-0/1-1-1-2//;
the threading mode of the guide bar GB6 is as follows: fully penetrating;
the weaving raw materials used by each guide bar are as follows:
the weaving raw materials used by the guide bar GB1 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB2 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar JB1.1 are: 140D spandex filaments;
the weaving raw materials used by the guide bar JB1.2 are: 140D spandex filaments;
the weaving raw materials used by the guide bar GB4 are as follows: 30D polyester monofilament;
the weaving raw materials used by the guide bar GB5 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB6 are as follows: 100D polyester low stretch yarn;
a preparation method of polyester low stretch yarn comprises the following specific steps:
dispersing graphite-phase carbon nitride in a sodium hydroxide solution, then adding a copper chloride solution for microwave ultrasonic mixing, filtering and drying a precipitate, and then calcining to obtain copper oxide-doped graphite-phase carbon nitride; then adding the doped copper oxide graphite phase carbon nitride into a barium chloride solution for microwave ultrasonic mixing, filtering and drying the precipitate, and then drying to obtain a barium sulfate copper oxide graphite phase carbon nitride three-dimensional material; dispersing the three-dimensional material of barium sulfate copper oxide graphite phase carbon nitride in an ethanol solvent, and then adding aminopropyltriethoxysilane for reaction, wherein the reaction temperature is 65-80 ℃, and the reaction time is 1.5-2 hours; after the reaction is finished, centrifugal separation is carried out, and the solid is dried in vacuum to prepare the aminated graphite phase carbon nitride composite material; grinding the amino graphite phase carbon nitride composite material and pentaerythritol to obtain a mixture, adding PBT particles and PET chips, and carrying out melt spinning to obtain polyester yarns;
the mass ratio of the graphite phase carbon nitride to the sodium hydroxide is 1:7;
the mass ratio of the graphite phase carbon nitride to the copper chloride is 2:1;
the molar ratio of the doped copper oxide graphite phase carbon nitride to the barium chloride is 3:1;
the concentration of the three-dimensional material of barium sulfate, copper oxide and graphite phase carbon nitride in ethanol is 5kg/m 3 1.
The mass fraction of the aminated graphite-phase carbon nitride composite material in the polyester low stretch yarn is 1%.
The mass fraction of the pentaerythritol in the polyester low stretch yarn is 1 percent.
The mass fraction of the PBT particles in the polyester low stretch yarn is 10 percent.
The terylene low stretch yarn has the antibacterial performance that the antibacterial rate of escherichia coli is 97.0%, the antibacterial rate of staphylococcus aureus is 97.2%, and the antibacterial rate of streptococcus albus is 97.1%.
Example 2
A mesh cloth for replacing a shoe tongue or a shoe heel is knitted by adopting seven guide bars, wherein the guide bar JB1.1 and the guide bar JB1.2 are knitted by lapping and looping on a front needle bed and a back needle bed, and the guide bar GB1 and the guide bar GB2 are knitted by lapping and looping on the front needle bed to form a surface layer; and the guide bar GB4 carries out yarn laying and looping on the front needle bed and the back needle bed to form a middle layer, the guide bar GB5 and the guide bar GB6 carry out yarn laying and looping on the back needle bed to weave a bottom layer, and seven guide bars are matched to weave a warp knitting fabric. According to the jacquard comb, the thickness of the fabric can be changed by adopting the elastic material through the density lifting machine jacquard comb of the fabric, so that materials with different thicknesses are formed.
(1) The laying stitch of the guide bar GB1 is as follows: 1-0-1-1/1-2-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(2) The laying stitch of the guide bar GB2 is as follows: 1-2-1-1/1-0-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(3) The yarn laying weave of the guide bar JB1.1 is as follows: 1-0-1-0/1-2-1-2//;
the yarn laying weave of the guide bar JB1.2 is as follows: 1-0-1-0/1-2-1-2//;
the threading mode of the guide bar JB1.1 and the guide bar JB1.2 is as follows: fully penetrating;
(4) The laying stitch of the guide bar GB4 is as follows: 1-0-1-2/2-3-2-1//;
the threading mode of the guide bar GB4 is as follows: fully penetrating;
(5) The laying stitch of the guide bar GB5 is as follows: 1-1-1-2/1-1-1-0//;
the threading mode of the guide bar GB5 is as follows: fully penetrating;
(6) The laying stitch of the guide bar GB6 is as follows: 1-1-1-0/1-1-1-2//;
the threading mode of the guide bar GB6 is as follows: fully penetrating;
the weaving raw materials used by each guide bar are as follows:
the weaving raw materials used by the guide bar GB1 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB2 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar JB1.1 are: 140D spandex filaments;
the weaving raw materials used by the guide bar JB1.2 are: 140D spandex filaments;
the weaving raw materials used by the guide bar GB4 are as follows: 30D polyester monofilament;
the weaving raw materials used by the guide bar GB5 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB6 are as follows: 100D polyester low stretch yarn;
a preparation method of polyester low stretch yarn comprises the following specific steps:
dispersing graphite-phase carbon nitride in a sodium hydroxide solution, then adding a copper chloride solution for microwave ultrasonic mixing, filtering and drying a precipitate, and then calcining to obtain copper oxide-doped graphite-phase carbon nitride; then adding the doped copper oxide graphite phase carbon nitride into a barium chloride solution for microwave ultrasonic mixing, filtering and drying the precipitate, and then drying to obtain a barium sulfate copper oxide graphite phase carbon nitride three-dimensional material; dispersing the three-dimensional material of barium sulfate copper oxide graphite phase carbon nitride in an ethanol solvent, and then adding aminopropyl triethoxysilane for reaction at the reaction temperature of 65-80 ℃ for 1.5-2 hours; after the reaction is finished, centrifugal separation is carried out, and the solid is dried in vacuum to prepare the aminated graphite phase carbon nitride composite material; grinding the amino graphite phase carbon nitride composite material and pentaerythritol to obtain a mixture, adding PBT particles and PET chips, and carrying out melt spinning to obtain polyester yarns;
the mass ratio of the graphite phase carbon nitride to the sodium hydroxide is 1:8;
the mass ratio of the graphite phase carbon nitride to the copper chloride is 2:1;
the molar ratio of the doped copper oxide graphite phase carbon nitride to the barium chloride is 4:1;
the concentration of the barium sulfate copper oxide graphite phase carbon nitride three-dimensional material in ethanol is 9kg/m 3 1.
The mass fraction of the aminated graphite-phase carbon nitride composite material in the polyester low stretch yarn is 3%.
The mass fraction of the pentaerythritol in the polyester low stretch yarn is 3 percent.
The mass fraction of the PBT particles in the polyester low stretch yarn is 15 percent.
The terylene low stretch yarn has the antibacterial performance that the antibacterial rate of escherichia coli is 97.5%, the antibacterial rate of staphylococcus aureus is 97.8%, and the antibacterial rate of streptococcus albus is 97.9%.
Example 3
A mesh cloth for replacing a shoe tongue or a shoe heel is knitted by adopting seven guide bars, wherein the guide bar JB1.1 and the guide bar JB1.2 are knitted by lapping and looping on a front needle bed and a back needle bed, and the guide bar GB1 and the guide bar GB2 are knitted by lapping and looping on the front needle bed to form a surface layer; and the guide bar GB4 carries out yarn laying and looping on a front needle bed and a back needle bed to form a middle layer, the guide bar GB5 and the guide bar GB6 carry out yarn laying and looping and knitting on the back needle bed to form a bottom layer, and seven guide bars are matched and knitted to form the warp knitting fabric. According to the jacquard comb, the thickness of the fabric can be changed by adopting the elastic material through the density lifting machine jacquard comb of the fabric, so that materials with different thicknesses are formed.
(1) The lapping stitch of the guide bar GB1 is as follows: 1-0-1-1/1-2-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(2) The laying stitch of the guide bar GB2 is as follows: 1-2-1-1/1-0-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(3) The yarn laying weave of the guide bar JB1.1 is as follows: 1-0-1-0/1-2-1-2//;
the yarn laying weave of the guide bar JB1.2 is as follows: 1-0-1-0/1-2-1-2//;
the threading mode of the guide bar JB1.1 and the guide bar JB1.2 is as follows: fully penetrating;
(4) The laying stitch of the guide bar GB4 is as follows: 1-0-1-2/2-3-2-1//;
the threading mode of the guide bar GB4 is as follows: fully penetrating;
(5) The lapping stitch of the guide bar GB5 is as follows: 1-1-1-2/1-1-1-0//;
the threading mode of the guide bar GB5 is as follows: fully penetrating;
(6) The laying stitch of the guide bar GB6 is as follows: 1-1-1-0/1-1-1-2//;
the threading mode of the guide bar GB6 is as follows: fully penetrating;
the weaving raw materials used by each guide bar are as follows:
the weaving raw materials used by the guide bar GB1 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB2 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar JB1.1 are: 140D spandex filaments;
the weaving raw materials used by the guide bar JB1.2 are: 140D spandex filaments;
the weaving raw materials used by the guide bar GB4 are as follows: 30D polyester monofilament;
the weaving raw materials used by the guide bar GB5 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB6 are as follows: 100D polyester low stretch yarn;
a preparation method of polyester low stretch yarn comprises the following specific steps:
dispersing graphite-phase carbon nitride in a sodium hydroxide solution, then adding a copper chloride solution for microwave ultrasonic mixing, filtering and drying a precipitate, and then calcining to obtain copper oxide-doped graphite-phase carbon nitride; then adding the doped copper oxide graphite phase carbon nitride into a barium chloride solution for microwave ultrasonic mixing, filtering and drying the precipitate, and then drying to obtain a barium sulfate copper oxide graphite phase carbon nitride three-dimensional material; dispersing the three-dimensional material of barium sulfate copper oxide graphite phase carbon nitride in an ethanol solvent, and then adding aminopropyltriethoxysilane for reaction, wherein the reaction temperature is 65-80 ℃, and the reaction time is 1.5-2 hours; after the reaction is finished, centrifugal separation is carried out, and the solid is dried in vacuum to prepare the aminated graphite phase carbon nitride composite material; grinding the amino graphite phase carbon nitride composite material and pentaerythritol to obtain a mixture, adding PBT particles and PET chips, and carrying out melt spinning to obtain polyester yarns;
the mass ratio of the graphite phase carbon nitride to the sodium hydroxide is 1;
the mass ratio of the graphite phase carbon nitride to the copper chloride is 2:1;
the molar ratio of the doped copper oxide graphite phase carbon nitride to the barium chloride is 5:1;
the concentration of the three-dimensional material of barium sulfate, copper oxide and graphite phase carbon nitride in ethanol is 15kg/m 3
1.
The mass fraction of the aminated graphite-phase carbon nitride composite material in the polyester low stretch yarn is 5%.
The mass fraction of the pentaerythritol in the polyester low stretch yarn is 5 percent.
The mass fraction of the PBT particles in the polyester low stretch yarn is 20 percent.
The terylene low stretch yarn has the antibacterial performance that the bacteriostasis rate of escherichia coli is 98.9 percent, the bacteriostasis rate of staphylococcus aureus is 98.5 percent, and the bacteriostasis rate of streptococcus albus is 98.7 percent.
Example 4
A mesh cloth for replacing a shoe tongue or a shoe heel is knitted by adopting seven guide bars, wherein the guide bar JB1.1 and the guide bar JB1.2 are knitted by lapping and looping on a front needle bed and a back needle bed, and the guide bar GB1 and the guide bar GB2 are knitted by lapping and looping on the front needle bed to form a surface layer; and the guide bar GB4 carries out yarn laying and looping on the front needle bed and the back needle bed to form a middle layer, the guide bar GB5 and the guide bar GB6 carry out yarn laying and looping on the back needle bed to weave a bottom layer, and seven guide bars are matched to weave a warp knitting fabric. According to the jacquard comb, the thickness of the fabric can be changed by adopting the elastic material through the density lifting machine jacquard comb of the fabric, so that materials with different thicknesses are formed.
(1) The laying stitch of the guide bar GB1 is as follows: 1-0-1-1/1-2-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(2) The laying stitch of the guide bar GB2 is as follows: 1-2-1-1/1-0-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(3) The yarn laying weave of the guide bar JB1.1 is as follows: 1-0-1-0/1-2-1-2//;
the yarn laying weave of the guide bar JB1.2 is as follows: 1-0-1-0/1-2-1-2//;
the threading mode of the guide bar JB1.1 and the guide bar JB1.2 is as follows: fully penetrating;
(4) The laying stitch of the guide bar GB4 is as follows: 1-0-1-2/2-3-2-1//;
the threading mode of the guide bar GB4 is as follows: fully penetrating;
(5) The laying stitch of the guide bar GB5 is as follows: 1-1-1-2/1-1-1-0//;
the threading mode of the guide bar GB5 is as follows: fully penetrating;
(6) The laying stitch of the guide bar GB6 is as follows: 1-1-1-0/1-1-1-2//;
the threading mode of the guide bar GB6 is as follows: fully penetrating;
the weaving raw materials used by each guide bar are as follows:
the weaving raw materials used by the guide bar GB1 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB2 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar JB1.1 are: 140D spandex filaments;
the weaving raw materials used by the guide bar JB1.2 are: 140D spandex filaments;
the weaving raw materials used by the guide bar GB4 are as follows: 30D polyester monofilament;
the weaving raw materials used by the guide bar GB5 are as follows: 100D polyester low stretch yarn;
the weaving raw materials used by the guide bar GB6 are as follows: 100D polyester low stretch yarn;
a preparation method of polyester low stretch yarn comprises the following specific steps:
dispersing graphite-phase carbon nitride in a sodium hydroxide solution, then adding a copper chloride solution for microwave ultrasonic mixing, filtering and drying a precipitate, and then calcining to obtain copper oxide-doped graphite-phase carbon nitride; dispersing the doped copper oxide graphite phase carbon nitride in an ethanol solvent, and then adding aminopropyltriethoxysilane for reaction at the reaction temperature of 65-80 ℃ for 1.5-2 hours; after the reaction is finished, centrifugal separation is carried out, and the solid is dried in vacuum to prepare the aminated graphite phase carbon nitride composite material; grinding the amino graphite phase carbon nitride composite material and pentaerythritol to obtain a mixture, adding PBT particles and PET chips, and carrying out melt spinning to obtain polyester yarns;
the mass ratio of the graphite phase carbon nitride to the sodium hydroxide is 1:8;
the mass ratio of the graphite phase carbon nitride to the copper chloride is 2:1;
the concentration of the copper oxide-doped graphite-phase carbon nitride in ethanol is 9kg/m 3
Aminopropyltriethoxysilane with 1.
The mass fraction of the aminated graphite-phase carbon nitride composite material in the polyester low stretch yarn is 3%.
The mass fraction of the pentaerythritol in the polyester low stretch yarn is 3 percent.
The mass fraction of the PBT particles in the polyester low stretch yarn is 15 percent.
The terylene low stretch yarn has the antibacterial performance that the antibacterial rate of escherichia coli is 86.5 percent, the antibacterial rate of staphylococcus aureus is 87.8 percent, and the antibacterial rate of streptococcus albus is 88.9 percent; the coating effect of barium sulfate is lacked, the antibacterial property is reduced by more than 10%, and the obvious antibacterial effect is not good enough to see the lasting antibacterial effect of barium sulfate coating.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the concept of the present invention, and these modifications and decorations should also be regarded as being within the protection scope of the present invention.

Claims (8)

1. The mesh cloth replacing a shoe tongue or a shoe heel is characterized in that seven guide bars are adopted for weaving, the guide bar JB1.1 and the guide bar JB1.2 carry out yarn laying and looping weaving on a front needle bed and a rear needle bed, and the guide bar GB1 and the guide bar GB2 carry out yarn laying and looping and weaving on the front needle bed to form a surface layer; the guide bar GB4 is used for carrying out yarn laying and looping on a front needle bed and a rear needle bed to form a middle layer, the guide bar GB5 and the guide bar GB6 are used for carrying out yarn laying and looping on the rear needle bed to form a bottom layer, and seven guide bars are matched and knitted to form a warp knitting fabric;
(1) The laying stitch of the guide bar GB1 is as follows: 1-0-1-1/1-2-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(2) The laying stitch of the guide bar GB2 is as follows: 1-2-1-1/1-0-1-1//;
the threading mode of the guide bar GB1 is as follows: fully penetrating;
(3) The yarn laying weave of the guide bar JB1.1 is as follows: 1-0-1-0/1-2-1-2//;
the yarn laying weave of the guide bar JB1.2 is as follows: 1-0-1-0/1-2-1-2//;
the threading mode of the guide bar JB1.1 and the guide bar JB1.2 is as follows: fully penetrating;
(4) The laying stitch of the guide bar GB4 is as follows: 1-0-1-2/2-3-2-1//;
the threading mode of the guide bar GB4 is as follows: fully penetrating;
(5) The laying stitch of the guide bar GB5 is as follows: 1-1-1-2/1-1-1-0//;
the threading mode of the guide bar GB5 is as follows: fully penetrating;
(6) The lapping stitch of the guide bar GB6 is as follows: 1-1-1-0/1-1-1-2//;
the threading mode of the guide bar GB6 is as follows: and (5) fully penetrating.
2. The mesh cloth for replacing a shoe tongue or a shoe heel according to claim 1, wherein the guide bar GB1 uses the knitting raw materials as follows: 100D polyester low stretch yarn.
3. The mesh cloth for replacing a tongue or a heel of a shoe as claimed in claim 1, wherein the guide bar GB2 uses knitting raw materials as follows: 100D polyester low stretch yarn.
4. The mesh cloth for replacing a tongue or a heel of a shoe as claimed in claim 1, wherein the guide bar JB1.1 uses the knitting raw materials: 140D spandex filament.
5. The mesh for replacing a tongue or a heel of a shoe as claimed in claim 1, wherein the guide bar JB1.2 uses the knitting raw materials: 140D spandex filament.
6. The mesh cloth for replacing a tongue or a heel of a shoe as claimed in claim 1, wherein the guide bar GB4 uses knitting raw materials of: 30D polyester monofilament.
7. The mesh cloth for replacing a tongue or a heel of a shoe as claimed in claim 1, wherein the guide bar GB5 uses knitting raw materials of: 100D polyester low stretch yarn.
8. The mesh for replacing a tongue or a heel of a shoe as claimed in claim 1, wherein the guide bar GB6 uses the knitting raw materials: 100D polyester low stretch yarn.
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Citations (3)

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Publication number Priority date Publication date Assignee Title
CN108385265A (en) * 2018-04-08 2018-08-10 福建瑞虹贾卡实业有限公司 A kind of warp knit elastic force jacquard weave space fabric and preparation method thereof with quilting effect
CN108589013A (en) * 2018-07-10 2018-09-28 信泰(福建)科技有限公司 A kind of bodkin colour developing jacquard weave Jacquard screen cloth and preparation method thereof
CN108950851A (en) * 2018-07-09 2018-12-07 福建省晋江市华宇织造有限公司 A kind of production method of creel type warp-knitted spacer screen cloth

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108691088B (en) * 2018-06-12 2019-11-12 江南大学 The method for weaving of three color jacquard fabric of warp JIA card

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108385265A (en) * 2018-04-08 2018-08-10 福建瑞虹贾卡实业有限公司 A kind of warp knit elastic force jacquard weave space fabric and preparation method thereof with quilting effect
CN108950851A (en) * 2018-07-09 2018-12-07 福建省晋江市华宇织造有限公司 A kind of production method of creel type warp-knitted spacer screen cloth
CN108589013A (en) * 2018-07-10 2018-09-28 信泰(福建)科技有限公司 A kind of bodkin colour developing jacquard weave Jacquard screen cloth and preparation method thereof

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