CN115369565A

CN115369565A - Wear-resistant fly-knitted jacquard mesh for vamp and wear-resistant vamp material

Info

Publication number: CN115369565A
Application number: CN202210904569.5A
Authority: CN
Inventors: 方婷婷; 张园芳; 董彪; 户全鹏
Original assignee: Jihua 3515 Leather and Leather Shoe Co Ltd
Current assignee: Jihua 3515 Leather and Leather Shoe Co Ltd
Priority date: 2022-07-29
Filing date: 2022-07-29
Publication date: 2022-11-22

Abstract

The invention discloses a wear-resistant fly-weaving jacquard mesh for vamps and a wear-resistant vamp material. The woven vamp is made of wear-resistant fly-woven jacquard mesh cloth, and the wear-resistant fly-woven jacquard mesh cloth is compounded with the polyester mesh cloth to form the wear-resistant vamp material. The invention uses thin yarn to weave to form the winding points of the array, and the outermost layer of the winding points is wound by wear-resistant yarn, so the wear-resistant yarn can be completely exposed and can provide the wear-resistant property for the material. In the contact of the material and the foreign object, the mutual friction is certainly the outermost layer of the material which is firstly contacted, and the friction between the foreign object and the outermost layer of the material is firstly generated.

Description

Wear-resistant fly-knitted jacquard mesh for vamp and wear-resistant vamp material

Technical Field

The invention belongs to the field of 3.3.3 other high-performance composite materials under the 3.3 high-performance composite material industry in the 3 new material industry of the strategic new industry catalogue, and particularly relates to a wear-resistant fly-woven jacquard mesh fabric for vamps and a wear-resistant vamp material.

Background

With the continuous development of science and technology, the mature process and the advanced technology of the shoe and boot materials can be changed with time. People pursue higher functionality and comfort of the shoes, and the continuous research on comfort and functionality is very important in the shoe industry, no matter the shoe industry is a material manufacturer or a finished shoe manufacturer, and the emphasis on improving the technology and the advanced technology is taken as the scientific research.

TPU (Thermoplastic polyurethanes) is named as Thermoplastic polyurethane elastomer rubber, and is a high molecular material formed by jointly reacting diisocyanate molecules such as diphenylmethane diisocyanate (MDI) or Toluene Diisocyanate (TDI), etc., with macromolecular polyol and low-molecular polyol (chain extender) and polymerizing. Has excellent characteristics of high tension, high tensile force, toughness and aging resistance, and is a mature environment-friendly material. At present, TPU is widely applied to the aspects of medical sanitation, electronic and electric appliances, industry, sports and the like, has the characteristics of high strength, good toughness, wear resistance, cold resistance, oil resistance, water resistance, aging resistance, weather resistance and the like which cannot be compared with other plastic materials, and simultaneously has a plurality of excellent functions of high waterproofness and moisture permeability, wind resistance, cold resistance, antibiosis, mildew resistance, warm keeping, ultraviolet resistance, energy release and the like.

The application number 201510616274.8 is a Chinese patent, and discloses a high-elasticity high-wear-resistance TPU composite fabric, wherein an acrylate monomer is used for carrying out graft modification on fumed silica, then high-hardness TPU particles are added for fully mixing, then granulation is carried out, a double-layer co-extrusion process is adopted for preparing a TPU composite film with a surface layer and a bottom layer, and the glued base fabric and the TPU composite film are attached on line on a calender to form the high-elasticity high-wear-resistance TPU composite fabric. The TPU composite wear-resistant material is compounded on the surface of the base cloth to form a wear-resistant layer, but for abrasion, the TPU composite wear-resistant material usually abrades individual protruded parts instead of the whole surface, which is waste for the wear-resistant material.

Disclosure of Invention

In order to adapt to the characteristic of wear resistance and solve the problem of waste of wear-resistant materials in the prior art, the invention provides a wear-resistant fly-knitted jacquard mesh for a vamp and a wear-resistant vamp material.

The technical scheme of the invention is realized in the following mode:

the wear-resistant fly-weaving jacquard mesh for the vamp is formed by blending different spun yarns, the different spun yarns of the fly-weaving jacquard mesh form array winding points, and the outermost layer of the winding points is wear-resistant yarns.

The cross-shaped grid is woven by the upper oblique yarns and the lower oblique yarns, one polyester yarn is wound around from the lower part of the lower oblique yarns, passes through the upper part of the cross point and then is wound around from the lower part of the upper oblique yarns, the other polyester yarn is wound around from the lower part of the upper oblique yarns, passes through the upper part of the cross point and then is wound around from the lower part of the lower oblique yarns, the cross points of other points are sequentially repeated, and a circle of wear-resistant yarn is wound at each cross point in the transverse direction, so that the wear-resistant yarn is positioned on the outer side of the polyester yarn.

The wear-resistant yarn is wound around the cross point from bottom to top and then is repeatedly wound around the next cross point in sequence, or the wear-resistant yarn is wound around the cross point from top to bottom and then is repeatedly wound around the next cross point in sequence.

The number of turns of the winding wear-resistant yarn is one turn or two or three.

The upper inclined yarns and the lower inclined yarns are made of terylene, and the wear-resistant yarns are made of TPU.

Including a vamp with wear-resisting vamp material who flies to knit jacquard mesh, wear-resisting vamp material includes inlayer and skin, the inlayer is the dacron yarn longitude and latitude and weaves the screen cloth, the skin flies to knit jacquard mesh for the vamp with wear-resisting, the inlayer passes through sticky complex with the skin.

Compared with the prior art, the invention has the following advantages: the invention uses the thin yarn to weave and form the winding points of the array, and the outermost layer of the winding points is wound by the wear-resistant yarn, so the wear-resistant yarn can be completely exposed and can provide the wear-resistant property for the material. In the contact of the material and the foreign object, the mutual friction is certainly the outermost layer of the material which is firstly contacted, and the friction between the foreign object and the outermost layer of the material is firstly generated.

Drawings

FIG. 1 is a schematic view of the woven structure of the present invention.

Fig. 2 is a cross-sectional view of a first winding point at E in fig. 1.

Fig. 3 is a cross-sectional view of a second winding point at E in fig. 1.

Fig. 4 is a schematic front view of the present invention.

Fig. 5 is a schematic diagram of a warp and weft knitted mesh fabric made of polyester yarns.

Fig. 6 is a schematic structural view of a wear-resistant upper material.

Wherein 1 is an underlisting yarn; 2 is an upper bias yarn; 3 is a polyester yarn; 4 is another polyester yarn; 5 is abrasion resistant yarn.

Detailed Description

The invention will now be further described with reference to the following examples and drawings:

as shown in the figure, the wear-resistant fly-weaving jacquard mesh for the vamp is a fly-weaving jacquard mesh formed by blending different spun yarns, the different spun yarns of the fly-weaving jacquard mesh form regular array winding points, and the outermost layer of the winding points is wear-resistant yarns 5. The winding points of the array are formed by weaving different spun yarns, the outermost layer at the winding points is wound by the wear-resistant yarns, and the winding can form salient points which can provide the wear-resistant property to the material. In the contact of the material and the foreign object, mutual friction is certainly the first contact of the salient points on the outermost layer of the material, and the friction of the salient points on the outermost layer of the material and the foreign object occurs firstly. The spun yarn is a relatively thin yarn re-spun from the roving and is used for weaving or spinning. Roving is bulkier than spun yarn.

Chinese patent application No. CN202111555751.6 discloses a fly-knitted jacquard mesh for shoe uppers, which is woven by yarns, the woven yarns form glue dispensing positions of an array, and the yarns at the glue dispensing positions are woven to be of a structure, so that the yarns are favorably and firmly bonded by viscose. However, the screen cloth forms an array dispensing part, dispensing is only convenient at the point, so that firm adhesion of yarns is facilitated, dispensing is performed at the point, a winding point of the screen cloth is not exposed and protrudes out of the point, meanwhile, the patent uses roving and spun yarn for weaving, but the roving is fluffy, the spun yarn is surrounded by the roving, and the spun yarn cannot be exposed at the outermost side, so that abrasion resistance cannot be brought to the screen cloth. And furthermore does not provide any technical teaching to the wear arrangement of the present application.

The fine fineness of the spun yarn greatly reduces the rigidity of the yarn, the spun yarn is made into a fabric with extremely soft hand feeling, the fine fiber can also increase the layered structure of the yarn, the specific surface area and the capillary effect are increased, the reflected light inside the fiber is more finely distributed on the surface, and the spun yarn has elegant luster like silk and good moisture absorption and dispersion. The spun yarn is used for making clothes, and the clothes are comfortable, beautiful, warm-keeping and breathable, have better drapability and fullness, are obviously improved in the aspects of hydrophobicity and antifouling property, and can be designed into different tissue structures by utilizing the characteristics of large specific surface area and softness so as to absorb more sunlight heat energy or more quickly dissipate body temperature to play the roles of being warm in winter and cool in summer.

As shown in fig. 1, a criss-cross mesh is woven by upper bias yarns 2 and lower bias yarns 1, one polyester yarn 3 is passed under the lower bias yarns 1, passes over the crossing points, and then passes under the upper bias yarns 2, another polyester yarn 4 is passed under the upper bias yarns 2, passes over the crossing points, and then passes under the lower bias yarns 1, the other crossing points are repeated in sequence, and at least one turn of wear-resistant yarn 5 is wound at each crossing point in the transverse direction, so that the wear-resistant yarn 5 is positioned outside the polyester yarns.

Or the upper oblique yarns 2 and the lower oblique yarns 1 are woven into a criss-cross grid, one polyester yarn 3 is wound around the lower part of the lower oblique yarns 1, passes through the upper part of the cross point and then is wound around the lower part of the lower oblique yarns 1, the other polyester yarn 4 is wound around the lower part of the upper oblique yarns 2, passes through the upper part of the cross point and then is wound around the lower part of the upper oblique yarns 2, the cross points of other points are repeated in sequence, and at least one circle of wear-resistant yarn 5 is wound at each cross point in the transverse direction, so that the wear-resistant yarn 5 is positioned on the outer side of the polyester yarn.

Through the winding mode, the fine yarns are wound, the yarns are overlapped, the abrasion-resistant yarns can be positioned on the outermost side of the material, and the winding forms salient points which can provide the abrasion-resistant property for the material. In the contact of the material and the foreign object, the mutual friction is certainly the contact with the salient points on the outermost layer of the material firstly, the friction between the foreign object and the salient points on the outermost layer of the material firstly occurs, and the salient points are formed through the winding form of the invention, so that the wear resistance of the material can be effectively given.

The abrasion resistant yarn 5 is wound around the crossing point from the top down and then repeatedly wound the next crossing point in sequence as shown in fig. 2, or the abrasion resistant yarn 5 is wound around the crossing point from the bottom up and then repeatedly wound the next crossing point in sequence as shown in fig. 3. The winding shape shown in the drawings is not necessarily so, and may be an irregular shape. No matter what winding method, the upper oblique yarn 2, the lower oblique yarn 1, the one polyester yarn 3 and the other polyester yarn 4 are wound inside when the wear-resistant yarn 5 is wound, namely the wear-resistant yarn 5 is wound around the upper oblique yarn 2, the lower oblique yarn 1, the one polyester yarn 3 and the other polyester yarn 4 for one circle. The number of windings of the abrasion resistant yarn 5 may be one or two or three. With the increase of the winding number, the more the salient point friction area of the wear-resistant material exposed at the outermost side is, and the better the wear resistance is. Under the condition that the pressure on the material is not changed, the contact area is increased, the pressure on the material is smaller, and the relative abrasion of the material is more difficult.

The upper oblique yarns 2 and the lower oblique yarns 1 are made of terylene, cotton fiber, acrylic fiber, polyvinyl chloride fiber, vinylon or spandex. The terylene has the advantages of easily obtained raw materials and excellent performance, and the terylene has the biggest characteristics of stable quality, good strength and abrasion resistance, stiff and smooth fabric manufactured by the terylene, difficult deformation and strong heat resistance of the terylene; the terylene has better chemical stability and can not react with weak acid, weak base and oxidant at normal temperature. The wear-resistant yarn 5 is made of TPU, cotton fiber or vinylon. The TPU has the excellent characteristics of high tension, toughness and aging resistance, is a mature environment-friendly material, is widely applied to the aspects of medical sanitation, electronic and electrical appliances, industry, sports and the like, has the incomparable characteristics of high strength, good toughness, wear resistance, cold resistance, oil resistance, water resistance, aging resistance, weather resistance and the like of other plastic materials, and simultaneously has a plurality of excellent functions of high waterproofness and moisture permeability, wind resistance, cold resistance, antibiosis, mildew resistance, warm keeping, ultraviolet resistance, energy release and the like. TPUs are essentially linear in their molecules with no or little chemical crosslinking. The linear polyurethane has physical crosslinking formed by a plurality of hydrogen bonds among molecular chains, and the hydrogen bonds have a strengthening effect on the form of the linear polyurethane, so that a plurality of excellent performances such as high modulus, high strength, excellent wear resistance, chemical resistance, hydrolysis resistance, high low temperature resistance and high mold resistance are endowed.

As shown in fig. 6, the wear-resistant fly-knitted jacquard mesh fabric for the upper is processed into a wear-resistant upper material, the wear-resistant upper material comprises an inner layer and an outer layer, the inner layer is made of warp-weft knitted polyester yarn mesh fabric, the outer layer is made of wear-resistant fly-knitted jacquard mesh fabric for the upper, and the inner layer and the outer layer are compounded by gluing. As shown in fig. 2 and 3, the inner layer can be compounded with the a surface or the B surface of the first winding mode of the outer layer or compounded with the C surface or the D surface of the second winding mode, and no matter whether the inner layer is compounded with any surface of the outer layer, the fine yarn is used for winding, and the winding mode of the invention can lead the wear-resistant yarn 5 to be exposed to the outermost layer, thereby being capable of giving the wear-resistant property to the material. But the A surface of the first winding mode of the inner layer and the outer layer is preferably compounded, and the B surface which is not compounded is exposed to the outside, or the C surface of the second winding mode of the inner layer and the outer layer is preferably compounded, and the D surface which is not compounded is exposed to the outside. Spun yarn fabrics are soft, breathable and moisture permeable, and therefore have significant advantages in terms of touch and physiological comfort, but spun yarn fabrics have poor wrinkle resistance (due to the soft fibers and poor elastic recovery after creasing). The terylene fabric has higher strength and elasticity recovery capability, so the terylene fabric is firm and durable, has crease resistance and is easy to iron, and has the biggest advantage of good crease resistance and shape retention. In order to overcome the defect of poor crease resistance of the spun yarn fabric, a composite process is adopted, so that the defect of poor crease resistance of the spun yarn fabric is greatly improved.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the overall concept of the present invention, and these should also be construed as the protection scope of the present invention.

Claims

1. The wear-resistant fly-weaving jacquard mesh for the vamp is formed by blending different spun yarns, and is characterized in that the different spun yarns of the fly-weaving jacquard mesh form arrayed winding points, and the outermost layer of the winding points is wear-resistant yarns (5).

2. The wear-resistant fly-knitted jacquard mesh fabric for the shoe upper according to claim 1, wherein a criss-cross grid is knitted by the upper oblique yarns (2) and the lower oblique yarns (1), one polyester yarn (3) is passed under the lower oblique yarns (1), passed over the crossing points, and then passed under the upper oblique yarns (2), and the other polyester yarn (4) is passed under the upper oblique yarns (2), passed over the crossing points, and then passed under the lower oblique yarns (1), and the other crossing points are repeated in sequence, and at least one turn of wear-resistant yarn (5) is wound at each crossing point in the transverse direction, so that the wear-resistant yarn (5) is positioned on the outer side of the polyester yarn.

3. A wear-resistant jacquard mesh for footwear uppers, according to claim 2, characterized in that said wear-resistant yarns (5) are wound from top to bottom around the crossing points and then repeatedly wound the next crossing points in sequence, or said wear-resistant yarns (5) are wound from bottom to top around the crossing points and then repeatedly wound the next crossing points in sequence.

4. A wear-resistant fly-knitted jacquard mesh for shoe uppers, according to claim 3, characterized in that said wear-resistant yarn (5) is wound for one or two or three turns.

5. The wear-resistant fly-knitted jacquard mesh fabric for the shoe upper according to claim 4, wherein the upper oblique yarns (2) and the lower oblique yarns (1) are made of terylene, and the wear-resistant yarns (5) are made of TPU.

6. The wear-resistant upper material comprises the wear-resistant fly-knitted jacquard mesh fabric for the upper according to any one of claims 1 to 5, and is characterized in that the wear-resistant upper material comprises an inner layer and an outer layer, the inner layer is made of terylene yarns, mesh fabrics are woven by warps and wefts, the outer layer is made of the wear-resistant fly-knitted jacquard mesh fabric for the upper, and the inner layer and the outer layer are compounded by gluing.