CN216838432U - Phase-change temperature-adjusting warp knitting creel jacquard shoe type - Google Patents

Abstract

The application discloses a phase-change temperature-regulating warp knitting creel jacquard shoe type which comprises a shoe type, wherein at least one monofilament yarn and at least one multifilament yarn are knitted into a blank cloth on a double-needle bed warp knitting creel single jacquard machine, the blank cloth is dyed by a high-temperature overflow dyeing machine to form a semi-finished product, a phase-change temperature-regulating warp knitting creel jacquard shoe type is formed by baking after a phase-change constant-temperature material is laid by heat setting padding or printing coating, the shoe type is divided into a forming area S, a breathable area A, a breathable area B and a wear-resistant area R, the structure and the knitting mode of the phase-change temperature-regulating warp knitting creel jacquard shoe type are optimized, the negative yarn feeding of the creel jacquard is different from the positive yarn feeding of a coil head jacquard, and the concave-convex stereoscopic impression of the shoe type is strong; the back surface of the shoe type process is used as the front surface of a shoe material, the single yarns and the multifilaments are interwoven, different jacquard process designs are carried out on the shoe material in different areas, thick tissues and mesh tissues are converted on the front surface of the process, and the shoe material has the functions of firmness, wear resistance, air permeability and moisture permeability and has particularly excellent anti-pilling performance.

Description

Phase-change temperature-adjusting warp knitting creel jacquard shoe type

Technical Field

The application relates to the technical field of spinning, in particular to a phase-change temperature-adjusting warp knitting creel jacquard shoe type.

Background

Along with the market demands and the improvement of living standard, the requirements of people on the texture and the comfort of the textile fabric are higher and higher, so that the processing requirements on the textile fabric are higher and higher. In recent years, textile technology is continuously developed towards functional wearing, functional elements have the functions of temperature regulation (heat and cold knowledge, bidirectional temperature regulation and supercooling overheating management), health care (antibiosis, deodorization, skin care, moisture preservation, refreshing, sleep aiding, fragrance and mosquito repelling), safety (compression resistance, cosmic ray resistance, corrosion resistance, static resistance, flame retardance and the like), environmental protection (no pollution to the environment) and intelligent and information interaction (human, clothes and external interaction). Phase change energy storage and microcapsule technology are developing as one of functional elements, but the warp knitting creel jacquard shoe type structure and knitting mode in the prior art enable the shoe type to have a common concave-convex stereoscopic impression, the shoe material has common wear resistance and air and moisture permeability effects in the shoe type preparation process, and the anti-pilling performance is common. Warp knitting creel jacquard shoe types often have difficulty in maintaining the relative stability and comfort of the foot temperature, giving the shoe types a function of knowing cold and heat.

Disclosure of Invention

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

The application aims to overcome the defects and provide a jacquard shoe type of the phase-change temperature-regulating warp knitting creel.

In order to achieve the purpose, the technical solution of the application is as follows:

a phase-change temperature-regulating warp-knitting creel jacquard shoe type is characterized in that at least one monofilament yarn and at least one multifilament yarn are woven into a blank cloth on a double-needle bed warp-knitting creel single jacquard machine, the blank cloth is dyed by a high-temperature overflow dyeing machine to form a semi-finished product, a phase-change temperature-regulating warp-knitting creel jacquard shoe type is baked after a phase-change constant-temperature material is laid on a heat setting padding or printing coating, and the shoe type is divided into a forming area S, a ventilation area A, a ventilation area B and a wear-resisting area R.

Preferably, the monofilament yarn is one or two of polyester monofilament or nylon monofilament, the multifilament yarn is one or two of polyester multifilament or nylon multifilament, and the dyeing mode of the high-temperature overflow dyeing machine is any one of single dyeing or double dyeing.

Preferably, the phase-change thermostatic material is coated on the surface of the fabric through an adhesive to form a firm film layer.

Preferably, the face yarn guide bar is a multifilament to participate in weaving, and the yarn laying number is as follows: 1-0-0-0/0-1-1-1//, knitting with chain stitch structure on the front side of the process, and not knitting on the back side of the process.

Preferably, the shoe type is woven by adopting a multifilament to weave a technical front face of the shoe type, a technical back face of the shoe type is woven by interweaving monofilaments and the multifilaments, a creel jacquard yarn multi-signal system is adopted, the technical front face is woven by 1-0/2-3 lapping codes and 2-1/1-2 lapping codes in a staggered mode, thick tissues and mesh tissues are converted on the technical front face, and the technical back face is selectively woven by the 2-2/1-2 lapping codes, the 1-1/2-2 lapping codes and the 2-2/1-1 lapping codes to weave on a knitting needle position to achieve thick connection, linear connection, point connection and non-connection delaminating design of front and back needle bed fabrics.

Preferably, the back surface of the forming area S process is connected with the creel jacquard yarns in a staggered dot-like embellished mode, and the front surface of the process is designed to be a thin mesh structure.

Preferably, the air permeable area A is divided into a firm connection area, an air permeable and moisture permeable area and a semi-permeable area, the firm connection area yarn frame jacquard yarn is knitted through 1-0-2-2/2-3-1-2// lapping yarn digital, the technical reverse side multifilament is knitted through 2-2/1-2// lapping yarn digital lack lapping chain discontinuous staggered thread-like points to connect the front side and the back side of the fabric, the technical front side multifilament is knitted through 1-0/2-3// lapping yarn digital to form a thick solid structure, the air permeable area yarn frame jacquard yarn is knitted through 2-1-2-2/1-2-1-1// lapping yarn digital, the multifilament is knitted through 2-1/1-2// lapping chain structure to form a mesh structure on the technical front side, the front and the back of the digital fabric are not connected due to 2-2/1-1// yarn laying, the jacquard yarn of the yarn frame in the semi-permeable area is woven by 1-0-1-1/2-3-2-2// yarn laying digital, the multifilament of the front of the process is woven by 1-0/2-3// yarn laying digital to form a thick structure, and the front and the back of the digital fabric are not connected due to 1-1/2-2// yarn laying.

Preferably, the air permeable area B is divided into a semi-permeable area and an air permeable and moisture permeable area, the yarn frame jacquard yarn in the semi-permeable area is woven by 1-0-1-1/2-3-2-2// lapping yarn digital, the multifilament at the front of the process is woven by 1-0/2-3// lapping yarn digital to form a thick texture, the front and the back of the digital fabric are not connected because of 1-1/2-2// lapping, the jacquard yarn at the air permeable and moisture permeable area is knitted through 2-1-2-2/1-2-1-1// lapping, the multifilament is knitted to form a mesh structure because of 2-1/1-2// chaining structure on the front of the process, no connection is formed on the front side and the back side of the digital fabric due to 2-2/1-1// lapping yarns on the reverse side of the process.

Preferably, the technical reverse side of the wear-resistant area R is interweaved by monofilaments and multifilaments of a creel jacquard, the creel jacquard multifilaments are knitted through 1-0-2-2/2-3-1-2// lapping yarn number, all knitting needles on the technical reverse side participate in knitting through 2-2/1-2// lapping yarn number, one course is knitted by the monofilaments alone due to the fact that the multifilaments lack the padding, one course is knitted by the monofilaments and the multifilaments with double coils, a concave-convex granular stereoscopic effect and thick connection of the front side and the back side are formed, and the technical front side multifilaments are knitted by 1-0/2-3// lapping yarn number to form thick weave on all the knitting needles.

Through adopting foretell technical scheme, the beneficial effect of this application is:

according to the method, the structure and the weaving mode of the phase-change temperature-adjusting warp-knitting creel jacquard shoe type are optimized, the creel jacquard negative yarn feeding is different from the pan head jacquard positive yarn feeding, and the shoe type is strong in concave-convex stereoscopic impression; the back surface of the shoe type process is used as the front surface of a shoe material, the single yarns and the multifilaments are interwoven, different jacquard process designs are carried out on the shoe material in different areas, thick tissues and mesh tissues are converted on the front surface of the process, the shoe material has the functions of firmness, wear resistance, air permeability and moisture permeability, and meanwhile, the anti-pilling performance is particularly excellent; and phase-change constant-temperature treatment is carried out, energy is stored and released in the solid-liquid conversion process of the phase-change material, the relative stability and comfort of the temperature of feet are kept, and the shoe type cold and heat knowing function is given.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and not to limit the application.

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

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only one or several embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to such drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a phase-change temperature-adjusting warp-knitting creel jacquard shoe type according to the present application.

Fig. 2 is a schematic structural view of the back of a jacquard shoe type of a phase-change temperature-regulating warp-knitted creel according to the present application.

FIG. 3 is a schematic view of the digital knitting of 1-0-1-1/2-3-2// inlay in a phase change thermoregulation warp knitting frame Jacquard shoe type of the present application.

FIG. 4 is a schematic view of a 2-1-2-2/1-2-1-1// inlay digital knitting in a phase change thermoregulation warp knitting frame Jacquard shoe type of the present application.

FIG. 5 is a schematic view of a phase change thermoregulation warp knitting frame Jacquard shoe type 1-0-2-2/2-3-1-2// inlay yarn digital knitting according to the present application.

Fig. 6 is a diagram of enthalpy of a material of a shoe upper in a phase-change temperature-adjusting warp-knitted creel jammer type of the present application.

Description of the main reference numerals: 1. a forming area S; 2. a wear resistant region R; 3. a ventilation zone A; 4. and a ventilation zone B.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail with reference to the following detailed description. It should be understood that the detailed description and specific examples, while indicating the present application, are given by way of illustration only.

In addition, in the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present application.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; either directly or indirectly through intervening media, either internally or in any other relationship. However, the direct connection means that the two bodies are not connected through a transition structure, but are connected through a connection structure to form a whole. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description of the specification, references to the description of "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like are intended to mean that a particular feature, structure, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of a phase-change temperature-regulating warp-knitted creel jacquard shoe type of the present application; fig. 2 is a schematic structural view of the back of a jacquard shoe type of a phase-change temperature-regulating warp-knitted creel according to the present application.

The embodiment provides a phase-change temperature-regulating warp-knitting creel jacquard shoe type, the shoe type is formed by knitting at least one monofilament yarn and at least one multifilament yarn on a double-needle bed warp-knitting creel single jacquard machine to form a blank cloth, dyeing the blank cloth by a high-temperature overflow dyeing machine to form a semi-finished product, then baking the semi-finished product after laying a phase-change constant-temperature material by heat setting padding or printing coating to form the phase-change temperature-regulating warp-knitting creel jacquard shoe type, and the shoe type is divided into a forming area S (1), a breathable area A (3), a breathable area B (4) and a wear-resistant area R (2). Wherein, double needle bar warp knitting creel single merchant card machine, the model: RDPJ6/1-T-EL E24 width of 138 inches.

According to the requirements of consumers on the appearance of shoe materials and the temperature, humidity and durability of different areas of feet, the vamp can be roughly divided into three large areas, namely a forming area S (1), ventilation areas A and B and a wear-resisting area R (2), as shown in figure 1. The forming zone S (1) essentially knits the cut areas produced in the semiformed vamp; the breathable zones A and B are positioned in the main area of the vamp and need to meet the performance requirements of softness, elasticity, air and moisture permeability and the like; the wear-resistant region R (2) comprises areas such as a toe cap, a back upper, a welt and the like, and has higher requirements on firmness and stiffness.

The monofilament yarn is one or two of polyester monofilament or nylon monofilament, the multifilament yarn is one or two of polyester multifilament or nylon multifilament, and the dyeing mode of the high-temperature overflow dyeing machine is one of single dyeing or double dyeing. The knitting yarns are selected from a polyester DTY (elastic polyester yarn) 75D/36F semi-optical low-elasticity light net, a polyester DTY (elastic polyester yarn) 150D/144F semi-optical low-elasticity micro-net without torsion, a polyester DTY (elastic polyester yarn) 150D/48F semi-optical low-elasticity light net, and polyester monofilaments are selected from 0.10MM polyester monofilaments and have light.

The phase-change constant-temperature material is coated on the surface of the fabric through an adhesive to form a firm film layer. The adhesive is acrylic acid/butadiene polymerized emulsion, and can also be vinyl acetate resin, chlorinated rubber and the like.

The surface yarn guide bar is woven by multifilament participation, and the yarn laying number is as follows: 1-0-0-0/0-1-1-1//, knitting with chaining structure on the front side of the process, and knitting without participation on the back side of the process.

The shoe type adopts a technical front face of a multifilament knitting shoe type, a technical back face of a monofilament and multifilament interweaving knitting shoe type, a creel jacquard yarn multifilament dual-signal system is woven on the technical front face through 1-0/2-3 yarn laying numbers and 2-1/1-2 yarn laying numbers in a staggered mode, thick tissues and mesh tissues are converted on the technical front face, yarn laying numbers 2-2/1-2, 1-1/2-2 yarn laying numbers and 2-2/1-1 yarn laying numbers are selectively woven on needle positions for yarn laying knitting on the technical back face, and thick connection, linear connection, point connection and non-connection delaminating design of front and back needle bed fabrics are achieved.

The back surface of the forming area S (1) is provided with creels and jacquard yarns which are connected in a staggered dot-like way, and the front surface of the forming area S is designed into a thin mesh structure. The forming area S (1) is a cutting area, and the point-shaped and thin weave design is designed to reduce the yarn consumption of the negative yarn feeding of the creel yarns as much as possible and reduce the weaving cost of shoe materials to the maximum extent.

The air permeable area A (3) is divided into a firm connection area, an air permeable and moisture permeable area and a semi-permeable area, the yarn frame jacquard yarn of the firm connection area is knitted by 1-0-2-2/2-3-1-2// lapping yarn digital, the multifilament of the reverse side of the process is knitted by 2-2/1-2// lapping yarn digital lack lapping chain discontinuous staggered thread-shaped dots to connect the front side and the back side of the fabric, the multifilament of the front side of the process is knitted by 1-0/2-3// lapping yarn digital to form a thick solid structure, the yarn frame jacquard yarn of the air permeable area is knitted by 2-moisture permeable-1-2-2/1-2-1// lapping yarn digital structure, and the multifilament is knitted by 2-1/1-2// chaining structure to form a mesh structure on the front side of the process, the front and the back of the digital fabric are not connected due to 2-2/1-1// yarn laying, the jacquard yarn of the yarn frame in the semi-permeable area is woven by 1-0-1-1/2-3-2-2// yarn laying digital yarn laying, the multifilament yarn on the front of the process is woven by 1-0/2-3// yarn laying digital yarn laying to form a thick structure, and the front and the back of the digital fabric are not connected due to 1-1/2-2// yarn laying.

Referring to fig. 3 and 4, fig. 3 is a schematic view of the digital knitting of 1-0-1-1/2-3-2// inlay yarn in a phase change temperature regulating warp knitting frame jacquard shoe type according to the present application; FIG. 4 is a schematic view of a 2-1-2-2/1-2-1-1// inlay digital knitting in a phase change thermoregulation warp knitting frame Jacquard shoe type of the present application.

The air permeable area B (4) is divided into a semi-permeable area and an air permeable and moisture permeable area, a yarn frame jacquard yarn in the semi-permeable area is knitted by 1-0-1-1/2-3-2-2// lapping yarn number, and jacquard needle offset information is as follows: (front needle bed; back needle bed), as shown in fig. 3, the craft front face (front needle bed) multifilament is knitted by 1-0/2-3// lapping digital to form a thick structure, the craft back face (back needle bed) is not connected by 1-1/2-2// lapping digital fabric front and back, the breathable and moisture permeable creel jacquard yarn is knitted by 2-1-2-2/1-2-1-1// lapping digital, and the jacquard needle offset information is as follows: (front needle bed; back needle bed), as shown in FIG. 4, the multifilament is knitted with 2-1/1-2// pillar stitch structure to form a mesh stitch on the technical front side, and is not connected with 2-2/1-1// front and back sides of the lapping digital fabric on the technical back side. The semi-permeable area and the air and moisture permeable mesh area with delaminated front and back sides are formed in the air permeable area B (4) through a weaving process design different from the air permeable area A (3), so that better air and moisture permeable efficiency is achieved.

Referring to fig. 5, fig. 5 is a schematic view of the digital knitting of 1-0-2-2/2-3-1-2// inlay in a phase change temperature adjusting warp knitting frame jacquard shoe type according to the present application.

The technical reverse of the wear-resistant area R (2) is that monofilaments are interwoven with creel jacquard multifilaments, the creel jacquard multifilaments are knitted by 1-0-2-2/2-3-1-2// lapping yarn number, and jacquard needle offset information is as follows: (front needle bed; back needle bed), as shown in fig. 5, all knitting needles participate in knitting through 2-2/1-2// yarn laying number on the reverse side of the process, one course is knitted independently for monofilament due to lack of the pad of the multifilament, and the other course is knitted by monofilament and multifilament double coils, so that the concavo-convex granular stereoscopic effect and the thick connection of the front side and the back side are formed, the anti-pilling performance and the firm firmness of the vamp material in areas such as a toe cap, a back upper, a welt and the like are improved, the air and moisture permeability effects are achieved, thick tissues are formed by 1-0/2-3// yarn laying number knitting of the multifilament on the front side of the process on all knitting needles, and the wear resistance and the firmness of the R (2) tissues of the whole wear-resistant area are improved.

Referring to fig. 6, fig. 6 is a diagram of enthalpy of upper material in a phase-change temperature-adjusting warp-knitted creel jammer type of the present application.

And testing the heat enthalpy value of the jacquard mesh of the phase-change temperature-regulating warp knitting creel, and obtaining that the heat enthalpy value of the jacquard mesh of the phase-change temperature-regulating warp knitting creel is 42.952J/g through the test.

It is to be understood that the embodiments disclosed herein are not limited to the particular constructions disclosed herein, but extend to equivalents thereof as would be understood by those ordinarily skilled in the relevant arts. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to be limiting.

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

Furthermore, the described features or characteristics may be combined in any other suitable manner in one or more embodiments. In the above description, certain specific details are provided, such as thicknesses, amounts, etc., to provide a thorough understanding of embodiments of the present application. One skilled in the relevant art will recognize, however, that the subject application can be practiced without one or more of the specific details, or with other structures, components, etc.

Claims (9)

1. The phase-change temperature-regulating warp-knitting frame jacquard shoe type is characterized in that at least one monofilament yarn and at least one multifilament yarn are woven into a blank cloth on a double-needle bed warp-knitting frame single jacquard machine, the blank cloth is dyed by a high-temperature overflow dyeing machine to form a semi-finished product, then a phase-change constant-temperature material is laid, and the semi-finished product is baked to form the phase-change temperature-regulating warp-knitting frame jacquard shoe type, wherein the shoe type is divided into a forming area S, a ventilation area A, a ventilation area B and a wear-resisting area R.

2. The phase change thermoregulation warp-knitted creel jacquard shoe type according to claim 1, wherein the monofilament yarn is one or two of polyester monofilament and nylon monofilament, the multifilament yarn is one or two of polyester multifilament and nylon multifilament, the dyeing mode of the high-temperature overflow dyeing machine is one of single dyeing and double dyeing, and the laying mode of the phase change constant temperature material is one of heat setting padding and printing coating.

3. The phase change thermoregulation warp knitted creel giardia shoe type of claim 2, wherein the phase change thermostatic material is coated on the fabric surface by an adhesive to form a firm film.

4. The phase change thermoregulation warp-knitted creel giardia shoe type of claim 1, characterized in that the face yarn guide bar is a multifilament yarn participating in the weaving, the padding number is: 1-0-0-0/0-1-1-1//, knitting with chain stitch structure on the front side of the process, and not knitting on the back side of the process.

5. The phase change thermoregulation warp-knitted creel jacquard shoe type according to claim 1, wherein the shoe type is knitted by multifilament, the technical front face of the shoe type is knitted by monofilament and multifilament interweaving, the technical back face of the shoe type is knitted by monofilament and multifilament interweaving, the creel jacquard yarn multifilament is run by a dual signal system, the technical front face is knitted by 1-0/2-3 lapping codes and 2-1/1-2 lapping codes in a staggered mode, thick tissues and mesh tissues are converted on the technical front face, and the technical back face is knitted by 2-2/1-2 lapping codes, 1-1/2-2 lapping codes and 2-2/1-1 lapping codes in a selective knitting needle position to form lapping yarns, so that thick connection, non-connection of threads, point connection and delamination designs of front and back fabrics are achieved.

6. The phase change thermoregulation warp-knitted creel giardiac shoe type of claim 1, characterized in that the forming zone S process back side creel giardiac yarns are connected in a staggered dotted embellishment, process front side is designed for a thin mesh structure.

7. The phase change thermoregulation warp-knitted creel giardia shoe type of claim 1, wherein the air permeable area a is divided into a firm connection area, an air permeable and moisture permeable area and a semi-permeable area, the firm connection area creel giardia yarn is knitted by 1-0-2-2/2-3-1-2// lapping yarn digital, the craft back side multifilament is knitted by 2-2/1-2// lapping yarn digital lack pad chain intermittent interlaced thread-like spot-stitching to connect the front and back sides of the fabric, the craft front side multifilament is knitted by 1-0/2-3// lapping yarn digital to form a thick texture, the air permeable and moisture permeable area creel giardia yarn is knitted by 2-1-2-2/1-2-1-1// lapping yarn digital, the multifilament is knitted by 2-1/1-2// chain stitch structure on the craft front side to form a thick texture Forming a mesh structure, wherein connection is not formed on the reverse side of the process due to 2-2/1-1// front and back sides of the lapping digital fabric, the jacquard yarn of the yarn frame in the semi-permeable area is knitted through 1-0-1-1/2-3-2-2// lapping digital, thick structure is formed by 1-0/2-3// lapping digital knitting of the multifilament on the front side of the process, and connection is not formed on the reverse side of the process due to 1-1/2-2// front and back sides of the lapping digital fabric.

8. The phase change thermoregulation warp-knitted creel giardia shoe type of claim 1, wherein the air permeable area B is divided into an air permeable area and an air permeable and moisture permeable area, the air permeable area creel giardia yarn is knitted by 1-0-1-1/2-3-2// lapping yarn numeral, the technical front side multifilament is knitted by 1-0/2-3// lapping yarn numeral to form a massive structure, no connection is formed on the technical back side due to 1-1/2-2// obverse and reverse sides of the lapping yarn numeral woven fabric, the air permeable and moisture permeable area creel giardia yarn is knitted by 2-1-2-2/1-2-1-1// lapping yarn numeral, the multifilament is knitted by 2-1/1-2// chain stitch structure to form a mesh structure on the technical front side, no connection is formed on the front side and the back side of the technical reverse side due to the 2-2/1-1// yarn-laying digital fabric.

9. The phase change thermoregulation warp-knitted creel giardiac shoe type of claim 1, wherein the wear resistant region R is a technical back side where monofilaments and creel giardiac multifilaments are interwoven, the creel giardiac multifilaments are digitally knitted by 1-0-2-2/2-3-1-2// lapping, all needles are knitted by 2-2/1-2// lapping, one course is knitted separately by monofilaments due to lack of the multifilaments, one course is knitted by monofilaments and multifilament double loops, a stereoscopic effect of concavo-convex particles and a thick and solid connection of front and back sides are formed, and the technical front side multifilaments are knitted by 1-0/2-3// lapping to form a thick and solid structure.

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