CN114411312A - Knitted fabric and manufacturing method thereof - Google Patents

Abstract

The invention relates to a knitted fabric and a manufacturing method thereof. The knitted fabric comprises a main body knitting area and an anti-rolling knitting area connected with the main body knitting area; the knitted fabric is divided into a group of two dies, wherein the knitting mode of the anti-rolling knitting area is as follows: the first mould carries out looping knitting and tucking knitting in sequence; and a second die for performing tuck knitting and loop knitting in sequence. The main part is woven the region and can be adopted conventional weaving mode to weave and form, constitute knitted fabric's main part, prevent rolling up and weave the region and adopt specific mode to weave, constitute or through tailorring the marginal zone that constitutes knitted fabric, weave regional specific weaving mode through preventing rolling up, effectively reduce the fold and the turn-up on surface fabric surface, improve the roughness of surface fabric, can not cause the liquid ammonia machine to move and slow down, the speed that liquid ammonia was handled can compare original improvement more than one time, and the production efficiency is improved, and, also need not cut out the turn-up surface fabric after the liquid ammonia arrangement, avoid the material extravagant.

Description

Knitted fabric and manufacturing method thereof

Technical Field

The invention relates to the technical field of textiles, in particular to a knitted fabric and a manufacturing method thereof.

Background

Liquid ammonia finishing is a technological process for treating fabric by using liquid ammonia, so that the internal stress in the fiber is completely eliminated, and the gloss and the service performance are improved. The liquid ammonia finishing has mercerizing significance, but is different from the traditional caustic soda mercerizing, reduces the sliding friction force among cellulose, increases the strength, elasticity and hand feeling, improves the dimensional stability, completely does not have the ablation and the unevenness and the performance of the fiber caused by the caustic soda mercerizing, has unique style, and is a recognized important means for the high-grade treatment of the cellulose fiber.

The liquid ammonia finishing can give full play to the inherent performance of the cotton fabric to the greatest extent, does not influence the softness, the water absorption and the moisture absorption of the cotton fabric, and simultaneously realizes excellent non-ironing performance. The ammonia molecule as a polar, small molecule, low viscosity, medium dielectric constant non-aqueous fiber swelling agent can permeate into the interior of fiber fibril in a very short time, so that the hydrogen bonds in the fiber molecular bundle are broken up, and the cellulose fiber presents a certain plasticity. When the ammonia molecules entering the fiber are removed, the fiber naturally retracts, and the molecules are rearranged, so that the inherent and acquired internal stresses of the fiber are eliminated, the natural twisting of the fiber disappears, the cross section is more elliptical, and the uniform reflectivity and the toughness of light are increased. After the liquid ammonia treatment, the fabric has the characteristics of soft hand feeling, smoothness, no damage to strength, wear resistance, no need of ironing and small shrinkage rate.

The knitted fabric has the crimping property, and the crimped cloth can be spread through roller rotation in the after-treatment process. However, the liquid ammonia machine is because structure itself, and the cloth inlet does not have the roller, and knitted fabric turn-up gets into the machine and can cause the liquid ammonia machine functioning speed slow, and production efficiency is low to the surface fabric of turn-up department can't use, through liquid ammonia processing back, the surface fabric of turn-up department need be cut off, need lose the knitted surface fabric more than 6 cun at least, cause the waste.

Disclosure of Invention

Therefore, the knitted fabric and the manufacturing method thereof are needed to solve the problems that the running speed of a liquid ammonia machine is low and the production efficiency is low due to the fact that the curled edge of the knitted fabric enters the liquid ammonia machine, and the fabric at the curled edge cannot be used, so that waste is caused.

One of the purposes of the invention is to provide a knitted fabric, and the scheme is as follows:

a knitted fabric comprises a main body knitting area and an anti-rolling knitting area connected with the main body knitting area;

the knitted fabric is divided into a group of two dies, wherein the knitting mode of the anti-rolling knitting area is as follows:

the first mould carries out looping knitting and tucking knitting in sequence;

and a second die for performing tuck knitting and loop knitting in sequence.

In one embodiment, the knitting mode of the main body knitting area is as follows:

a first mould, which carries out loop knitting in the whole process;

and a second die for knitting in a loop in the whole process.

In one embodiment, the knitted fabric is a cylindrical fabric, the anti-rolling knitted area extends along the axial direction of the knitted fabric, and two ends of the anti-rolling knitted area are respectively connected with the main body knitted area.

In one embodiment, the width of the anti-curl woven region is 3 inches to 8 inches.

In one embodiment, the knitted fabric is a sheet fabric, and the anti-roll woven region is located at the edge position of the knitted fabric.

In one embodiment, the width of the anti-curl woven region is 1 inch to 3 inches.

The invention also aims to provide a manufacturing method of the knitted fabric, which adopts the following scheme:

a method for manufacturing a knitted fabric comprises the following steps:

weaving a fabric to be finished, wherein the fabric to be finished comprises a main body weaving area and an anti-rolling weaving area connected with the main body weaving area; the weaving mode is a mode of one group of two dies, wherein the weaving mode of the anti-rolling weaving area is as follows:

the first mould carries out looping knitting and tucking knitting in sequence;

and a second die for performing tuck knitting and loop knitting in sequence.

In one embodiment, the fabric to be finished is a cylindrical fabric, the anti-rolling weaving area extends along the axial direction of the fabric to be finished, and two ends of the anti-rolling weaving area are respectively connected with the main body weaving area.

In one embodiment, the knitted fabric is knitted by using a circular knitting machine, the circular knitting machine is provided with a first track, a second track, a third track and a fourth track which are sequentially arranged, the first track and the second track are used for knitting the main body knitting area, and the third track and the fourth track are used for knitting the anti-rolling knitting area;

in a first die, the third runway is subjected to looping knitting, and the fourth runway is subjected to tuck knitting;

in the second die, the third track is subjected to tuck knitting, and the fourth track is subjected to stitch knitting.

In one embodiment, in the first die, the first track is knitted in a loop, and the second track is knitted in a loop;

and in a second die, the first runway is subjected to loop knitting, and the second runway is subjected to loop knitting.

In one embodiment, after the fabric to be finished is obtained by weaving, the manufacturing method further comprises the following steps:

and performing scutching treatment in the anti-rolling weaving area along the axial direction of the fabric to be finished, cutting a cut to obtain the scutched fabric, wherein the two ends of the scutched fabric are the anti-rolling weaving areas, and the middle part of the scutched fabric is the main body weaving area.

In one embodiment, after the open width treatment, the width of the anti-curl woven region at both ends of the open width fabric is 1 to 3 inches, respectively.

In one embodiment, after the open width fabric is obtained by the open width manufacturing method, the manufacturing method further comprises the following steps:

and performing liquid ammonia finishing on the open width fabric.

Compared with the prior art, the knitted fabric and the manufacturing method thereof have the following beneficial effects:

the knitted fabric and the manufacturing method thereof weave the fabric to be finished, which comprises the main body knitting area and the anti-rolling knitting area, wherein the main body knitting area can be knitted by adopting a conventional knitting mode to form the main part of the knitted fabric, the anti-rolling knitting area is knitted by adopting a specific mode to form or cut the edge area of the knitted fabric, and the specific knitting mode of the anti-rolling knitting area effectively reduces the wrinkles and the curled edges on the surface of the fabric and improves the flatness of the fabric.

The conventional liquid ammonia machine is slow in running speed and low in production efficiency due to the fact that the curled edge of the knitted fabric enters the liquid ammonia machine, and the fabric at the curled edge cannot be used, so that waste is caused. The knitted fabric obtained by the manufacturing method can not be curled, so that the operation of the liquid ammonia machine can not be slowed down, the liquid ammonia treatment speed can be increased by more than one time compared with the original speed, and the production efficiency is improved. And moreover, the knitted fabric does not need to be cut off after liquid ammonia finishing, so that material waste is avoided.

Drawings

FIG. 1 is a schematic structural view of a knitted fabric of an embodiment;

FIG. 2 is a schematic view of the knitted fabric shown in FIG. 1 after being opened;

fig. 3 is a schematic view of the knitting manner of the knitted fabric by the circular knitting machine.

Description of reference numerals:

100. knitting a fabric; 110. a main body knitting area; 120. an anti-wrap woven region.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, a knitted fabric 100 according to an embodiment of the present invention includes a main body knitting region 110 and a anti-curl knitting region 120 connected to the main body knitting region 110.

The knitted fabric 100 is a two-mold one-group knitted fabric, wherein the knitting mode of the anti-curl knitting area 120 is as follows:

and the first die is used for sequentially performing loop knitting and tuck knitting.

And a second die for performing tuck knitting and loop knitting in sequence.

The knitted fabric 100 comprises a fabric to be finished, which comprises a main body knitting area 110 and an anti-rolling knitting area 120, wherein the main body knitting area 110 can be knitted by adopting a conventional knitting mode to form a main part of the knitted fabric 100, the anti-rolling knitting area 120 is knitted by adopting a specific mode to form or cut an edge area of the knitted fabric 100, and wrinkles and curled edges on the surface of the fabric are effectively reduced and the flatness of the fabric is improved by adopting the specific knitting mode of the anti-rolling knitting area 120.

The conventional knitting fabric turned edge enters the liquid ammonia machine, so that the operation speed of the liquid ammonia machine is low, the production efficiency is low, the fabric at the turned edge cannot be used, and after the liquid ammonia treatment, the fabric at the turned edge needs to be cut off, so that the waste is caused. The knitted fabric 100 is not curled, so that the operation of the liquid ammonia machine is not slowed, the liquid ammonia treatment speed can be increased by more than one time compared with the original speed, and the production efficiency is improved. In addition, the knitted fabric 100 does not need to be cut off after liquid ammonia finishing, and material waste is avoided.

As shown in fig. 1, in one example, the knitted fabric 100 is a cylindrical fabric. The knitted fabric 100 of this example can be knitted by a circular knitting machine. In which the anti-curl woven region 120 extends in the axial direction of the cylindrical knitted fabric 100, and both ends of the anti-curl woven region 120 are respectively connected to the main body woven region 110.

The circular knitting machine is used to knit the knitted fabric 100, and the conventional knitted fabric only needs two tracks. With the multi-track special of the circular knitting machine, two tracks of the circular knitting machine can be used for the main body knitting area 110 and the redundant tracks can be used for knitting the anti-curl knitting area 120 when knitting the cylindrical knitted fabric 100.

In this example, the width of the anti-curl woven region 120 may be, but is not limited to, 3 inches to 8 inches. In some specific examples, the width of the anti-curl woven region 120 is 3 inches, 4 inches, 5 inches, 6 inches, 7 inches, and the like.

The anti-curl woven area can form a single-bead ground weave, a plain weave or the like according to the different needle arrangement modes on the circular knitting machine. For example, the third runway and the fourth runway are arranged according to DE to form a single-bead ground structure, and the needles are arranged according to EEDD to form a plain weave structure. The number of needle-arranging times is 2 times of the transverse fabric density (WPI) of the fabric. If WPI is 25, the width of the row needle is 50 needles. And if the width of the anti-curl knitting area is set to be 2 inches, whether the measurement is satisfied after the needle arrangement is carried out, if the measurement is not satisfied, the needle arrangement is supplemented, and if the measurement is beyond the width, the needle arrangement is reduced to enable the needle arrangement to reach 2 inches.

As shown in fig. 2, the tubular knitted fabric 100 is subsequently formed into a sheet by opening the anti-curl woven region 120 to cut the anti-curl woven region 120. The middle region of the sheet-shaped fabric is the main body knitting region 110, the anti-curl knitting regions 120 are located at both ends of the main body knitting region 110, and the anti-curl knitting regions 120 are located at the edge of the knitted fabric 100. The edge position of the fabric (the anti-rolling weaving area 120) adopts a specific weaving mode, so that the condition of edge rolling can be prevented.

In one example, the width of the anti-curl woven region 120 at both side edges is 1 to 3 inches, respectively, in the open-width sheet-like fabric. In some specific examples, the width of the anti-curl woven region 120 of both side edges is 1 inch, 1.5 inches, 2 inches, 2.5 inches, etc. After the open-width, the width of the anti-curl woven region 120 of the both side edges of the knitted fabric 100 may be the same or different.

In the present invention, the knitting pattern of the main body knitting region 110 is not limited, and the anti-curl knitting region may be provided in all knitted fabrics in which curling occurs. By way of example, the main body knitting area 110 is knitted in the following manner:

a first mould, which carries out loop knitting in the whole process;

and a second die for knitting in a loop in the whole process.

For example, as shown in fig. 3, knitting with a circular knitting machine having four tracks may be performed in the following manner:

in the first die, a first runway is subjected to looping knitting, a second runway is subjected to looping knitting, a third runway is subjected to looping knitting, and a fourth runway is subjected to tuck knitting;

in the second die, the first track is knitted in a looping manner, the second track is knitted in a looping manner, the third track is knitted in a tucking manner, and the fourth track is knitted in a looping manner.

Further, the present invention also provides a method for manufacturing a knitted fabric 100, comprising the steps of:

as shown in fig. 1, a fabric to be finished is woven, and the fabric to be finished comprises a main body weaving area 110 and an anti-rolling weaving area 120 connected with the main body weaving area 110;

the knitting mode is a set of two dies, wherein the knitting mode of the anti-rolling knitting area 120 is as follows:

the first mould carries out looping knitting and tucking knitting in sequence;

and a second die for performing tuck knitting and loop knitting in sequence.

The manufacturing method of the knitted fabric 100 is to weave the fabric to be finished, which comprises the main body weaving area 110 and the anti-rolling weaving area 120, wherein the main body weaving area 110 can be woven in a conventional weaving mode to form the main part of the knitted fabric 100, the anti-rolling weaving area 120 is woven in a specific mode to form or cut the edge area of the knitted fabric 100, and the specific weaving mode of the anti-rolling weaving area 120 is used for effectively reducing wrinkles and curling edges on the surface of the fabric and improving the flatness of the fabric.

The conventional knitting fabric turned edge enters the liquid ammonia machine, so that the operation speed of the liquid ammonia machine is low, the production efficiency is low, the fabric at the turned edge cannot be used, and after the liquid ammonia treatment, the fabric at the turned edge needs to be cut off, so that the waste is caused. The knitted fabric 100 obtained by the manufacturing method cannot be curled, so that the operation of the liquid ammonia machine cannot be slowed down, the liquid ammonia treatment speed can be increased by more than one time compared with the original speed, and the production efficiency is improved. In addition, the knitted fabric 100 does not need to be cut off after liquid ammonia finishing, and material waste is avoided.

As shown in fig. 1, in one example, the knitted fabric 100 is a cylindrical fabric. The knitted fabric 100 of this example can be knitted by a circular knitting machine. Wherein the anti-curl woven region 120 extends in the axial direction of the cylindrical fabric, and both ends of the anti-curl woven region 120 are connected to the main body woven region 110, respectively.

In this example, the width of the anti-curl woven region 120 may be, but is not limited to, 3 inches to 8 inches. In some specific examples, the width of the anti-curl woven region 120 is 3 inches, 4 inches, 5 inches, 6 inches, 7 inches, and the like.

As shown in fig. 2, the tubular knitted fabric 100 is subsequently formed into a sheet by opening the anti-curl woven region 120 to cut the anti-curl woven region 120. The middle region of the sheet-shaped fabric is the main body knitting region 110, the anti-curl knitting regions 120 are located at both ends of the main body knitting region 110, and the anti-curl knitting regions 120 are located at the edge of the knitted fabric 100. The edge position of the fabric (the anti-rolling weaving area 120) adopts a specific weaving mode, so that the condition of edge rolling can be prevented.

In one example, the width of the anti-curl woven region 120 at both side edges is 1 to 3 inches, respectively, in the open-width sheet-like fabric. In some specific examples, the width of the anti-curl woven region 120 of both side edges is 1 inch, 1.5 inches, 2 inches, 2.5 inches, etc. After the open-width, the width of the anti-curl woven region 120 of the both side edges of the knitted fabric 100 may be the same or different.

The circular knitting machine is used to knit the knitted fabric 100, and the conventional knitted fabric only needs two tracks. With the multi-track special of the circular knitting machine, two tracks of the circular knitting machine can be used for the main body knitting area 110 and the redundant tracks can be used for knitting the anti-curl knitting area 120 when knitting the cylindrical knitted fabric 100.

In one example, the circular knitting machine has a first running track, a second running track, a third running track and a fourth running track arranged in this order, the first running track and the second running track are used for knitting the main body knitting area 110, and the third running track and the fourth running track are used for knitting the anti-rolling knitting area 120.

As shown in fig. 3, the anti-curl woven region 120 is woven in the following manner:

in the first die, the third track is knitted in a looping manner, and the fourth track is knitted in a tucking manner;

in the second mould, the third track is knitted by tucking, and the fourth track is knitted by looping.

The anti-curl woven area can form a single-bead ground weave, a plain weave or the like according to the different needle arrangement modes on the circular knitting machine. For example, the third runway and the fourth runway are arranged according to DE to form a single-bead ground structure, and the needles are arranged according to EEDD to form a plain weave structure. The number of needle-arranging times is 2 times of the transverse fabric density (WPI) of the fabric. If WPI is 25, the width of the row needle is 50 needles. And if the width of the anti-curl knitting area is set to be 2 inches, whether the measurement is satisfied after the needle arrangement is carried out, if the measurement is not satisfied, the needle arrangement is supplemented, and if the measurement is beyond the width, the needle arrangement is reduced to enable the needle arrangement to reach 2 inches.

In the present invention, the knitting pattern of the main body knitting region 110 is not limited, and the anti-curl knitting region may be provided in all knitted fabrics in which curling occurs. By way of example, the main body knitting area 110 is knitted in the following manner:

in the first die, a first runway is subjected to loop knitting, and a second runway is subjected to loop knitting;

in the second die, the first track is knitted in a looping manner, and the second track is knitted in a looping manner.

In one example, the method for manufacturing the knitted fabric 100 further includes the following steps after the fabric to be finished is obtained by weaving:

and (3) scutching along the axial direction of the fabric to be finished in the anti-rolling weaving area 120, cutting a cut to obtain the scutched fabric, wherein the two ends of the scutched fabric are the anti-rolling weaving areas 120, and the middle part of the scutched fabric is the main body weaving area 110.

In one example, the method for manufacturing knitted fabric 100 further includes the following steps after the open width is obtained by the open width:

and performing liquid ammonia finishing on the open width fabric.

The liquid ammonia finishing is a technological process for treating the fabric by using liquid ammonia, thoroughly eliminating internal stress in fibers and improving the gloss and the wearability of the fabric.

Liquid ammonia arrangement can adopt the liquid ammonia machine to carry out.

Further, the invention also provides a knitted fabric 100 obtained by adopting any one of the liquid ammonia finishing methods.

Above-mentioned knitted fabric 100, through the liquid ammonia arrangement and can not take place the condition of turn-up, consequently can not cause the liquid ammonia machine to move and slow down, the speed that the liquid ammonia was handled can compare the more than one time that originally improves, improves production efficiency. And the curled edge fabric does not need to be cut off after the liquid ammonia is finished, so that the material waste is avoided.

The following examples are provided to further illustrate the present invention, but the present invention is not limited to the following examples, and it should be understood that the scope of the present invention is summarized by the appended claims, and a person skilled in the art should realize that certain changes made to the embodiments of the present invention, in light of the inventive concept, are intended to be covered by the spirit and scope of the claims of the present invention.

Example 1

The embodiment provides a knitted fabric and a manufacturing method thereof.

The manufacturing method of this example is as follows:

and step 1, weaving. And weaving the fabric to be finished by using a circular knitting machine. The circular knitting machine is provided with a first runway, a second runway, a third runway and a fourth runway which are sequentially arranged. The weaving mode is that two moulds are combined.

The weaving mode of the fabric to be finished is as follows:

in the first die, a first runway is subjected to looping knitting, a second runway is subjected to looping knitting, a third runway is subjected to looping knitting, and a fourth runway is subjected to tuck knitting;

in the second die, the first track is knitted in a looping manner, the second track is knitted in a looping manner, the third track is knitted in a tucking manner, and the fourth track is knitted in a looping manner.

And circularly weaving according to the above mode.

The fabric to be finished is woven by a circular knitting machine and is cylindrical. Knitted fabric 100 includes a main body knit region 110 and a wrap resistant knit region 120 connected to main body knit region 110. The first and second tracks of the circular knitting machine are used to knit the main body knit region 110, and the third and fourth tracks are used to knit the anti-curl knit region 120. Wherein the anti-curl woven region 120 extends in the axial direction of the cylindrical fabric, and both ends of the anti-curl woven region 120 are connected to the main body woven region 110, respectively. The width of the anti-curl woven region 120 is 5 inches.

And 2, scutching. And (3) scutching the cylindrical fabric to be finished woven in the step (1), cutting the fabric to be finished in the anti-rolling weaving area 120 in the axial direction of the fabric to be finished in a double-blade scutching mode, and cutting off the fabric with the width of 1 inch to obtain the scutched fabric. The open width fabric is a sheet fabric, both ends of the open width fabric are anti-curl woven regions 120, the width of each anti-curl woven region is 2 inches, and the middle of each anti-curl woven region is a main body woven region 110.

And step 3, liquid ammonia finishing. And (3) feeding the open width fabric obtained in the step (2) into a liquid ammonia machine for liquid ammonia finishing.

According to the knitted fabric and the manufacturing method thereof, the fabric to be finished comprising the main body knitting area and the anti-rolling knitting area is knitted, wherein the main body knitting area can be formed by knitting in a conventional knitting mode to form the main part of the knitted fabric, the anti-rolling knitting area is knitted in a specific mode to form or form the edge area of the knitted fabric by cutting, wrinkles and curled edges on the surface of the fabric are effectively reduced through the specific knitting mode of the anti-rolling knitting area, the flatness of the fabric is improved, the phenomenon that a liquid ammonia machine runs slowly is avoided, the liquid ammonia processing speed can be improved by more than one time compared with the original speed, and the production efficiency is improved. And moreover, the knitted fabric does not need to be cut off after liquid ammonia finishing, so that material waste is avoided.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (11)

1. A knitted fabric is characterized by comprising a main body knitting area and an anti-rolling knitting area connected with the main body knitting area;

the knitted fabric is divided into a group of two dies, wherein the knitting mode of the anti-rolling knitting area is as follows:

the first mould carries out looping knitting and tucking knitting in sequence;

and a second die for performing tuck knitting and loop knitting in sequence.

2. The knitted fabric according to claim 1, wherein the knitted fabric is a cylindrical fabric, the anti-curl woven region extends in an axial direction of the knitted fabric, and both ends of the anti-curl woven region are respectively connected to the main body woven region.

3. A knitted fabric according to claim 2, wherein the width of the anti-curl woven region is from 3 inches to 8 inches.

4. The knitted fabric of claim 1, wherein the knitted fabric is a sheet-like fabric, and the anti-curl woven region is located at an edge position of the knitted fabric.

5. The knitted fabric of claim 4, wherein the width of the anti-curl woven region is 1 to 3 inches.

6. A method for manufacturing a knitted fabric is characterized by comprising the following steps:

weaving a fabric to be finished, wherein the fabric to be finished comprises a main body weaving area and an anti-rolling weaving area connected with the main body weaving area; the weaving mode is a mode of one group of two dies, wherein the weaving mode of the anti-rolling weaving area is as follows:

the first mould carries out looping knitting and tucking knitting in sequence;

and a second die for performing tuck knitting and loop knitting in sequence.

7. The method of producing a knitted fabric according to claim 6, wherein the fabric to be finished is a cylindrical fabric, the anti-curl woven region extends in an axial direction of the fabric to be finished, and both ends of the anti-curl woven region are connected to the main body woven region, respectively.

8. The method of manufacturing a knitted fabric according to claim 7, wherein the knitted fabric is knitted by a circular knitting machine having a first running course, a second running course, a third running course and a fourth running course arranged in this order, the first running course and the second running course being used for knitting the main body knitting area, the third running course and the fourth running course being used for knitting the anti-curl knitting area;

in a first die, the third runway is subjected to looping knitting, and the fourth runway is subjected to tuck knitting;

in the second die, the third track is subjected to tuck knitting, and the fourth track is subjected to stitch knitting.

9. The method of manufacturing a knitted fabric according to claim 8, wherein in the first die, the first course is subjected to loop knitting, and the second course is subjected to loop knitting;

and in a second die, the first runway is subjected to loop knitting, and the second runway is subjected to loop knitting.

10. The method for manufacturing a knitted fabric according to any one of claims 7 to 9, further comprising the following steps after the fabric to be finished is obtained by knitting:

and performing scutching treatment in the anti-rolling weaving area along the axial direction of the fabric to be finished, cutting a cut to obtain the scutched fabric, wherein the two ends of the scutched fabric are the anti-rolling weaving areas, and the middle part of the scutched fabric is the main body weaving area.

11. The method of manufacturing a knitted fabric according to claim 10, wherein the width of the anti-curl woven region at both ends of the open width fabric after the open width treatment is 1 to 3 inches, respectively.

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