CN115928305B - Sweat management weft knitted shaped mask and weaving method thereof - Google Patents

Abstract

The application relates to a sweat management weft knitting forming mask and a weaving method thereof, and relates to the field of knitting. The mask comprises an eye sun-screening area, wherein a forehead sweat management area is arranged above the eye sun-screening area, a forehead attaching area is arranged above the forehead sweat management area, fixed transition areas are arranged on two sides of the forehead attaching area, two groups of fixed transition areas are connected with the fixed areas, a face ventilation area is arranged below the eye sun-screening area, a mandibular tightening area is arranged below the face ventilation area, a back neck tightening area is arranged behind the mandibular tightening area, a front neck wet heat transfer area is arranged below the mandibular tightening area, a back neck wet heat transfer area is arranged behind the front neck wet heat transfer area, a neck attaching area is further arranged between the front neck wet heat transfer area and the back neck wet heat transfer area, an ear front wet heat transfer area is arranged on two sides of the eye sun-screening area, and an ear front tightening area is arranged on one side of the eye sun-screening area, which is far away from the eye sun-screening area. Solves the problems of low sweat discharging efficiency, poor comfort and insufficient sweat management capability of the prior mask.

Description

Sweat management weft knitting forming mask and weaving method thereof

Technical Field

The application relates to the technical field of knitting, in particular to a sweat management weft knitting forming mask and a weaving method thereof.

Background

With the popularity of healthy and comfortable clothing wearing concepts, people have higher requirements on the types, functions and comfort of summer clothing. Because of high temperature and high humidity in summer, the organism needs to utilize perspiration to dissipate heat to maintain normal body temperature. Sweat can cause interactions between the skin and clothing or accessories to produce a sticky feel on wear. And the comprehensive functions of cool feeling, comfort, ventilation, sun protection and the like are considered when the garment is worn in summer. Therefore, research on summer clothing has important significance for sweat conduction and multifunctional comprehensive design.

Currently, most summer masks in the market are knitted fabric products. The structural characteristics of the knitting structure are utilized to realize the multifunctional main way of the knitted fabric, and are also the research focus of scientific researchers at home and abroad. In the market, aiming at the endlessness of the product layer of the multifunctional mask in summer, generally, the sweat-discharging and sweat-guiding parts of the human head are mainly concentrated near the forehead, the cheek side ears and the neck, and hands are inevitably free from being raised to wipe sweat in the process of movement. Sweat beads cause itching of skin, sweat flows down along the skin to wet the coat to cause discomfort, and eczema and other problems can be caused when serious.

The utility model patent CN211458959U discloses a novel sweat-discharging headgear, which comprises a fitting surface, a shielding surface and a connecting surface to form a U-shaped sweat guiding groove, wherein the sweat guiding groove is inclined backwards, and a sweat discharging channel is arranged at the rear brain. The user wears the headgear, does not need to wipe sweat manually when the sports sweat amount is large, sweat directly enters the sweat guiding groove and is discharged outwards through the sweat discharging channel of the rear brain, the use is more convenient, meanwhile, the headgear does not accumulate sweat, and the user does not need to twist sweat manually. However, the sweat guide groove is communicated with the hindbrain, the sweat flow passage is long, the sweat discharging efficiency is low, and the wearing comfort is affected to a certain extent.

The invention patent application publication number CN112167746A provides a sun-proof mask, which has the advantages that a unique suspension mode is adopted, ventilation and ventilation can be realized while sun-proof is realized, and the purposes of convenient use and strong functionality are achieved. However, these products cannot meet the requirements of different areas of the face for different functions, and the sweat management ability can be further improved, so that a sweat management mask needs to be designed, and different areas have different functions by using a positioning and forming technology, and the sweat management mask is integrally woven and has high production efficiency.

Disclosure of Invention

The application aims to provide a sweat management weft knitting forming mask and a weaving method thereof, which are used for solving the problems of low sweat discharging efficiency, poor comfort and insufficient sweat management capability of the traditional mask.

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

In one aspect, a sweat management weft knitting forming mask is provided, the sweat management weft knitting forming mask is woven by a seamless circular knitting machine, the sweat management weft knitting forming mask comprises an eye sun-proof area, a forehead sweat management area is arranged above the eye sun-proof area, a forehead attaching area is arranged above the forehead sweat management area, fixed transition areas are arranged on two sides of the forehead attaching area, and two groups of fixed transition areas are connected with the fixed areas;

A face ventilation area is arranged below the eye sun-screening area, a mandible tightening area is arranged below the face ventilation area, a rear neck tightening area is arranged behind the mandible tightening area, a front neck wet heat conduction and dissipation area is arranged below the mandible tightening area, a rear neck wet heat conduction and dissipation area is arranged behind the front neck wet heat conduction and dissipation area, and a neck fitting area is arranged between the front neck wet heat conduction and dissipation area and the rear neck wet heat conduction and dissipation area;

The eye sun-proof area is provided with an ear front wet guiding area at two sides, and an ear front tightening area is arranged at one side of the ear front wet guiding area far away from the eye sun-proof area.

In one possible implementation, the frontal top attachment zone, the mandibular tightening zone, and the nape tightening zone are all 1+3 pseudo-rib tissue.

In one possible implementation, the fixed transition zone is a 2+2 pseudo rib tissue, the fixed zone is an elastic band, and the elastic band is stitched to the fixed transition zone.

In one possible implementation, the forehead sweat management region is a three-dimensional diamond concave-convex structure, and the pre-aural wet zone is a three-dimensional triangular concave-convex structure.

In one possible implementation, the pre-aural tightening zone and the neck fitting zone are both 2+2 pseudo-rib textures.

In one possible implementation, the eye sun protection area is a plaiting plain weave, and the eye sun protection area further has an eye opening area thereon.

In one possible implementation, the facial ventilation area is hexagonal micro-mesh tissue.

In one possible implementation, the front neck and back neck heat transfer areas are all combination plating micro-mesh structures.

In another aspect, there is provided a method of weaving a sweat management weft-knitted forming mask for weaving a sweat management weft-knitted forming mask as described in any one of the preceding, the method being woven using a seamless circular knitting machine, the method comprising:

s1, drawing a functional partition diagram of a sweat management weft knitting forming mask, wherein the functional partition comprises a forehead attaching region, a fixed transition region, a forehead sweat management region, an ear front moisture guiding region, a front ear tightening region, an eye sun-proof region, a face ventilation region, a mandible tightening region, a neck attaching region, a back neck tightening region, a front neck moisture guiding and radiating region, a back neck moisture guiding and radiating region and a cutting region;

S2, designing corresponding tissue structures for each functional partition, wherein the cutting areas are twill tissues;

s3, plating knitting is carried out on a seamless circular knitting machine according to the stitch structure, and a weft knitting full-formed tubular fabric is obtained;

S4, cutting the cutting area of the weft-knitted full-formed tubular fabric, simultaneously performing edge wrapping treatment on the cut edge, and sewing the fixed area on the fixed transition area of the weft-knitted full-formed tubular fabric to obtain the sweat-managing weft-knitted forming mask.

In one possible implementation, the seamless circular knitting machine uses a functional yarn with fineness of 20D-75D, F and number of 12F-36F as an inner yarn and a semi-dull or full-dull polyester with fineness of 50D-100D, F and number of 144F-576F as a surface yarn.

The technical scheme provided by the application has the beneficial effects that at least:

On one hand, the sweat management weft knitting forming mask provided by the application is formed by positioning, forming and weaving by using a seamless circular knitting machine, different tissues can be integrated without large-area cutting and sewing, the functions are diversified, the environment is protected, and the production efficiency is high;

On the other hand, the sweat management weft knitting forming mask combines ergonomics, and different tissue structures are designed according to the requirements of different parts of the head of a human body, so that the wearing functionality and the comfort of the mask are improved;

On the other hand, the weaving method of the sweat management weft knitting forming mask provided by the application reasonably uses yarn raw materials, utilizes the characteristic of different performances of two surfaces of the plating structure fabric, enables sweat to be conducted from the surface with less fiber number in the yarn to the surface with more fiber number in the yarn according to the differential capillary effect, simultaneously prevents the sweat from reversely penetrating after being conducted, keeps wearing dry and comfortable, and utilizes the density, the tightness and the air permeability of different tissues, so that the tissues can be reasonably distributed, the sweat discharging efficiency is high, and the sweat management capability is strong.

Drawings

The accompanying drawings are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate the application and together with the embodiments of the application, serve to explain the application. In the drawings:

FIG. 1 illustrates a schematic diagram of a sweat management weft-knitted forming mask provided in accordance with an exemplary embodiment of the present application;

FIG. 2 illustrates a functional zonal expansion schematic of a sweat management weft-knitted forming mask provided by an exemplary embodiment of the present application;

FIG. 3 illustrates a flow chart of a method of weaving a sweat management weft-knitted forming mask provided by an exemplary embodiment of the application;

FIG. 4 illustrates a schematic view of an arrangement of sweat management weft-knitted forming masks on the same bobbin provided by an exemplary embodiment of the present application;

FIG. 5 illustrates an intentional map of the various functional zones of a sweat management weft-knitted forming mask provided by an exemplary embodiment of the present application;

FIG. 6 illustrates a schematic diagram of a three-dimensional relief tissue contraction of a sweat management weft knit forming mask provided by an exemplary embodiment of the present application as a stereoscopic effect;

FIG. 7 illustrates a schematic diagram of the three-dimensional relief organization of a sweat management weft knit forming mask provided by an exemplary embodiment of the present application;

FIG. 8 illustrates a schematic view of sweat conduction of a three-dimensional relief organization of a sweat management weft-knitted forming mask provided by an exemplary embodiment of the present application;

FIG. 9 illustrates a schematic diagram of a two-layer differential single fiber density yarn moisture transfer process for a sweat management weft knit forming mask provided by an exemplary embodiment of the present application;

In the figure, a forehead attaching area, a fixed transition area, a fixed area, a forehead sweat management area, a front ear moisture guiding area, a front ear tightening area, a 7 eye sun-proof area, a 71 eye opening area, a 8 face ventilation area, a 9 mandibular tightening area, a 10 neck attaching area, a 11 back neck tightening area, a 12 front neck moisture guiding and radiating area, a 13 back neck moisture guiding and radiating area, and a 14 cutting area are shown as the figures.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The application will be further described with reference to the drawings and examples.

Fig. 1 shows a schematic structure of a sweat management weft knitting forming mask according to an exemplary embodiment of the present application, where the sweat management weft knitting forming mask is woven by a seamless circular knitting machine, the sweat management weft knitting forming mask includes an eye sun protection area 7 (corresponding to eyes of a human body), a forehead sweat management area 4 (corresponding to a forehead of the human body) is arranged above the eye sun protection area 7, a forehead attaching area 1 (corresponding to a forehead of the human body) is arranged above the forehead sweat management area 4, two groups of fixed transition areas 2 symmetrically distributed on two sides of the forehead attaching area 1 are arranged, and the two groups of fixed transition areas 2 are connected with a fixed area 3. In one example, the fixing area 3 is an elastic band, and two ends of the elastic band are respectively sewed with the two groups of fixing transition areas 2, so that the mask is fixed after being worn.

Referring to fig. 1, a face ventilation area 8 (corresponding to the mouth and nose of a human body) is arranged below the eye sun-screening area 7, a mandibular tightening area 9 (corresponding to the mandible of the human body) is arranged below the face ventilation area 8, a back neck tightening area 11 (corresponding to the top of the back neck of the human body) is arranged behind the mandibular tightening area 9, a front neck moisture-guiding and heat-dissipating area 12 (corresponding to the front neck of the human body) is arranged below the mandibular tightening area 9, a back neck moisture-guiding and heat-dissipating area 13 (corresponding to the back neck of the human body) is arranged behind the front neck moisture-guiding and heat-dissipating area 12, and two sets of neck attaching areas 10 (corresponding to the two side necks of the human body respectively) are arranged between the front neck moisture-guiding and heat-dissipating area 12 and the back neck moisture-guiding and heat-dissipating area 13.

Referring to fig. 1, two sets of front ear wet areas 5 (corresponding to the positions of the human body near the ears) are symmetrically distributed on two sides of the eye sun-protection area 7, a front ear tightening area 6 is disposed on one side of the front ear wet area 5 away from the eye sun-protection area 7, and the front ear tightening area 6 is cut when being taken off, and the front ear wet area 5 is more attached after being sewn.

Preferably, the frontal top attachment zone 1, the mandibular tightening zone 9 and the nape tightening zone 11 are all 1+3 pseudo-rib tissue. The fabric is provided with tightening and protruding with different effects locally by adjusting the needle number intervals of the looping and floating threads, so that the fabric is more attached to the opposite human body part.

Further, the fixed transition area 2 is a 2+2 false rib structure, the fixed area 3 is an elastic band, and the fixed area is sewn on the fixed transition area 2 above the ear after being taken down, so that the fixation is more stable and the wearing is comfortable.

Preferably, the forehead sweat management region 4 is a three-dimensional diamond concave-convex structure, and the front ear wet guiding region 5 is a three-dimensional triangle concave-convex structure. Referring to fig. 6 and 7, ① is a three-dimensional triangular concave-convex structure, ② is a three-dimensional diamond concave-convex structure, and because part of the loops are continuous in a plurality of longitudinal rows and are not looped, the loops which are not padded are tightened after being taken off, so that part of the loops are tightened to form a concave effect and contact with skin. The design part tightens up the coil with different total line numbers and transverse line numbers, and arranges according to the rhombus, form three-dimensional rhombus concave-convex organization structure and three-dimensional triangle concave-convex organization structure.

It should be noted that, referring to fig. 8, n is skin, o is a planar fabric without a three-dimensional structure, q is a fabric with a three-dimensional concave-convex structure, and p is an air gap. Among the above-mentioned three-dimensional concave-convex structure, the concave part is high with skin laminating degree, produces sweat and is conducted in laminating department, and concave-convex structure can effectively block sweat along facial removal for sweat can in time be conducted in the fabric outside and reduce the greasy sense that sweat gathering produced and the itching sense that sweat flow produced.

Optionally, the pre-aural tightening zone 6 and the neck-fitting zone 10 are each 2+2 pseudo-rib tissue.

Furthermore, the eye sun-proof area 7 is a plating plain weave, is light, thin and breathable, and has excellent moisture-conducting performance. The eye sun protection zone 7 is also provided with an eye opening zone 71.

Furthermore, the face ventilation area 8 is a hexagonal micro-mesh structure, part of the loops are only formed by the ground yarns, the face yarns are not formed by the loops, and the structure has the characteristics of attractive appearance, light weight and ventilation.

Preferably, the front neck and back neck heat transfer areas 12 and 13 are all of a combination plating micro-mesh structure.

In summary, the sweat management weft knitting forming mask provided by the application is formed by positioning, forming and weaving by using a seamless circular knitting machine, can realize integration of different tissues without large-area cutting and sewing, has various functions, is environment-friendly and high in production efficiency, combines ergonomics, and designs different tissue structures according to the needs of different parts of the head of a human body, so that the wearing functionality and comfort of the mask are improved.

Fig. 3 shows a schematic flow chart of a weaving method of a sweat management weft-knitted forming mask for weaving a sweat management weft-knitted forming mask according to any of the above embodiments according to an exemplary embodiment of the present application, which method is woven using a seamless circular knitting machine. In one example, the method uses a san Dongni seamless underwear circular machine (SM 8-TOP 2) for weaving.

The method comprises the following steps:

step S1, drawing a functional partition diagram of the sweat management weft knitting forming mask, wherein the functional partition comprises a forehead attaching region 1, a fixed transition region 2, a forehead sweat management region 4, an ear front wet guiding region 5, an ear front tightening region 6, an eye sun-proof region 7, a face ventilation region 8, a mandibular tightening region 9, a neck attaching region 10, a back neck tightening region 11, a front neck wet guiding heat dissipating region 12, a back neck wet guiding heat dissipating region 13 and a clipping region 14.

Specifically, referring to fig. 1 and 2, functional partition diagrams of the sweat management weft knitting forming mask are drawn on the photo software, and a module design diagram stored in SDI format after completion of drawing.

Step S2, designing corresponding tissue structures for all the functional partitions, wherein the cutting areas 14 are twill tissues.

Specifically, referring to fig. 5, in the drawings, I is a 1+1 pseudo rib, II is a 2+2 pseudo rib, III is a 1+3 pseudo rib, IV is a plating plain weave, V is a hexagonal micro-mesh weave, VI is a combination plating micro-mesh weave, VII is a twill weave, VIII is a three-dimensional triangular concave-convex structure, and IX is a three-dimensional diamond concave-convex structure. Filling the required pattern of the organization structure in the pattern drawing drawn on the PHOTON software, and determining the knitting action of the knitting needle according to the different colors of the pattern drawing. In the plating structure, yellow represents ground yarn and surface yarn are all looped, red represents ground yarn is looped, surface yarn is not looped, and black represents surface yarn is not looped. The pattern of the structure is drawn by Pen tool and saved as PAT pattern. All the organizational structure art drawings are drawn out by the method and saved as PAT format. And opening a template design diagram in an SDI format in PHOTON software, filling corresponding organizations, filling an organization structure PAT diagram with corresponding performance according to the functional areas divided by the template design diagram, storing a module design diagram in a DIS format containing an organization structure after filling, and storing a module design diagram in a DIS format containing an organization structure.

Alternatively, referring to fig. 4, the sweat control weft knitting mask is formed by splicing two pieces up and down and arranging the two pieces on the same bobbin, so that the material consumption is saved.

And S3, plating knitting is carried out on the seamless circular knitting machine according to the stitch structure, and the weft knitting full-formed tubular fabric is obtained.

The method comprises the steps of importing Digraph plus software into a DIS module design drawing containing a tissue structure to generate an SOK file, storing a program into a U disk in a CO format, and finally inputting the program into a seamless circular knitting machine for plating and knitting to obtain the weft-knitted full-formed tubular fabric.

And S4, cutting the cutting area 14 of the weft-knitted full-formed tubular fabric, simultaneously performing edge wrapping treatment on the cut edge, and sewing the fixed area 3 on the fixed transition area 2 of the weft-knitted full-formed tubular fabric to obtain the sweat-managing weft-knitted forming mask.

Specifically, after getting off the machine, the mask is cut out by a small amount in order to fit the face more closely. Referring to fig. 2, the frontal attachment area 1 and the pre-aural tightening area 6 are cut, and the simple stitching process is performed after the machine is turned off.

In the embodiment of the application, the seamless circular knitting machine adopts the functional yarn with the fineness of 20D-75D, F and the fineness of 12F-36F as the inner yarn, and the semi-dull or full-dull polyester with the fineness of 50D-100D, F and the fineness of 144F-576F as the surface yarn. The single-fiber fineness multiple difference of the ground yarn and the face yarn is 6-14 times, and two kinds of polyester filaments with different specifications, namely 50D/14F polyester filaments A and 84D/384F polyester filaments B, are selected as raw materials.

It can be appreciated that fig. 9 shows a schematic diagram of a moisture conducting process of a two-layer differential single fiber density yarn of a sweat management weft-knitted forming mask according to an exemplary embodiment of the present application, where the yarn is an aggregate of fibers arranged side by side, and the individual fibers form capillaries after the individual fibers are arranged. These capillaries provide space for adsorption and conduction of liquids based on the wicking effect. The source of motive force required for fabric wicking is the additional pressure created by the capillaries when they are in contact with liquid, whereas when the double layer yarns form a fabric and the single fiber density of the outer layer yarns is less than that of the inner layer yarns, the additional pressure on the surface layer of the fabric will be greater than that on the inner layer, and water will move from the inner layer to the surface layer in contact with the fabric, which is a differential capillary effect. The expression is shown in the following formula one:

Equation one:

Wherein,

Δp is the additional pressure difference, pa;

p ₁、P₂ is the additional pressure, pa, of channel 1 and channel 2, respectively;

gamma is the surface tension of the liquid, N.m ^-1;

θ is the fiber contact angle, °;

r is the capillary equivalent radius of the fiber, m.

In the embodiment of the application, the seamless circular knitting machine is adopted to integrally form and weave yarns, different parts can have different knitting structures without sewing, and the form of specific parts, such as bulges, hollows or different tightness and extensibility, can be adjusted according to the characteristics of the structure.

In the embodiment of the application, the fitting area (namely the forehead fitting area 1 and the neck fitting area 10) of the sweat management weft knitting forming mask is formed by tightening the forming design and local cutting and sewing, so that complicated and inefficient procedures of integral cutting and sewing are avoided, and more comfortable wearing effect and better multifunctional advantages of the mask can be achieved.

In the embodiment of the application, all functional subareas of the sweat management weft knitting forming mask are plated with yarn structures, the coil and geometric characteristics of the plated yarn structures are basically the same as those of ground structures, and when two different yarns are used, the two sides of the fabric have different characteristics, so that the functions of the yarns with the two different characteristics can be exerted to the greatest extent.

In summary, the sweat management weft knitting forming mask is formed by positioning, forming and weaving by using a seamless circular knitting machine, different tissues can be integrated without large-area cutting and sewing, the sweat management weft knitting forming mask is diversified in function, environment-friendly and high in production efficiency, different tissue structures are designed according to the needs of different parts of the head of a human body by combining ergonomics, so that the wearing functionality and comfort of the mask are improved, the weaving method of the sweat management weft knitting forming mask provided by the application reasonably uses yarn raw materials, utilizes the characteristic of different performances of two sides of a plating structure fabric, enables sweat to be conducted from the side with less fibers in the yarn to the side with more fibers in the yarn according to the differential capillary effect, is not reverse-penetrated after sweat conduction, keeps dry and comfortable to wear, and enables the tissues to be reasonably distributed by using the density, the tightness and the air permeability of different tissues, and is high in sweat discharging efficiency and strong in sweat management capability.

The foregoing is merely a preferred embodiment of the present application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present application, which are intended to be comprehended within the scope of the present application.

Claims (5)

1. The sweat management weft knitting forming mask is characterized by being woven by a seamless circular knitting machine, comprising an eye sun-proof area, wherein a forehead sweat management area is arranged above the eye sun-proof area, a forehead attaching area is arranged above the forehead sweat management area, two sides of the forehead attaching area are provided with fixed transition areas, and two groups of fixed transition areas are connected with the fixed areas;

A face ventilation area is arranged below the eye sun-screening area, a mandible tightening area is arranged below the face ventilation area, a rear neck tightening area is arranged behind the mandible tightening area, a front neck wet heat conduction and dissipation area is arranged below the mandible tightening area, a rear neck wet heat conduction and dissipation area is arranged behind the front neck wet heat conduction and dissipation area, and a neck fitting area is arranged between the front neck wet heat conduction and dissipation area and the rear neck wet heat conduction and dissipation area;

The two sides of the eye sun-proof area are provided with front ear wet guiding areas, and one side of the front ear wet guiding areas, which is far away from the eye sun-proof area, is provided with front ear tightening areas;

the frontal top attaching region, the mandibular tightening region and the nape tightening region are all 1+3 false rib tissues;

The fixed transition area is a 2+2 false rib structure, the fixed area is an elastic band, and the elastic band is stitched with the fixed transition area;

The forehead sweat management area is a three-dimensional diamond concave-convex tissue, and the front ear wet guiding area is a three-dimensional triangle concave-convex tissue;

The pre-aural tightening area and the neck fitting area are all 2+2 false rib tissues;

The eye sun-proof area is plated plain weave, and the eye sun-proof area is also provided with an eye opening area.

2. The sweat management weft knit forming mask of claim 1, wherein the facial ventilation zone is hexagonal micro-mesh tissue.

3. The sweat management weft knit forming mask of claim 1, wherein the front neck and back neck moisture transfer and heat dissipation areas are all combination plated micro-mesh tissue.

4. A method of weaving a sweat management weft-knitted forming mask according to any one of claims 1 to 3, the method comprising weaving with a seamless circular knitting machine:

s1, drawing a functional partition diagram of a sweat management weft knitting forming mask, wherein the functional partition comprises a forehead attaching region, a fixed transition region, a forehead sweat management region, an ear front moisture guiding region, a front ear tightening region, an eye sun-proof region, a face ventilation region, a mandible tightening region, a neck attaching region, a back neck tightening region, a front neck moisture guiding and radiating region, a back neck moisture guiding and radiating region and a cutting region;

S2, designing corresponding tissue structures for each functional partition, wherein the cutting areas are twill tissues;

s3, plating knitting is carried out on a seamless circular knitting machine according to the stitch structure, and a weft knitting full-formed tubular fabric is obtained;

S4, cutting the cutting area of the weft-knitted full-formed tubular fabric, simultaneously performing edge wrapping treatment on the cut edge, and sewing the fixed area on the fixed transition area of the weft-knitted full-formed tubular fabric to obtain the sweat-managing weft-knitted forming mask.

5. The weaving method of sweat control weft knitting forming mask according to claim 4, wherein the seamless circular knitting machine adopts functional yarns with fineness of 20D-75D, F and number of 12F-36F as inner yarns and semi-dull or full-dull polyester with fineness of 50D-100D, F and number of 144F-576F as surface yarns.