CN108754805B - Knitting method, knitting structure, knitted fabric and garment - Google Patents

Abstract

The invention relates to the technical field of knitting, and provides a knitting method, which comprises the following steps: the first special virtual lifting structure is woven to form a first row, the second special pattern is woven to form a second row, the second special virtual lifting structure is woven to form a third row, the third special virtual lifting structure is woven to form a fourth row, the special tuck structure is woven to form a fifth row, the special pattern is woven to form a sixth row, the special double lifting structure is woven to form a seventh row, and the special virtual lifting structure is woven to form an eighth row, wherein at least five rows of the first row to the eighth row are woven in any combination in the weaving process to form a weaving structure. The knitting structure obtained by knitting by the knitting method has the advantages of both knitting structure and weaving structure. The invention provides a woven structure and a woven fabric, which are obvious in transverse and longitudinal lines, smooth in surface, not easy to deform, fashionable and attractive. The invention also provides a garment which is attractive in appearance, comfortable to wear, free of restraint and soft in texture.

Description

Knitting method, knitting structure, knitted fabric and garment

Technical Field

The invention relates to the technical field of knitting, in particular to a knitting method, a knitting structure, a knitted fabric and clothing.

Background

At present, the existing knitting structure with knitting special pattern and the single knitting method have the problems of loosening, sagging and the like after long-term use.

In view of this, the present application is specifically proposed.

Disclosure of Invention

The invention provides a knitting method, which aims to improve the phenomenon that the existing special pattern is easy to loose and sag after long-term use.

The invention provides a knitting structure, which has the advantages of both knitting structure and knitting structure, namely, the knitting structure has better ductility, obvious transverse and longitudinal lines, smooth surface of a tissue product, difficult sagging phenomenon during hanging, stable transverse dimension and difficult deformation, and has the characteristics of fashion and beautiful appearance.

The invention provides a woven fabric, which has the same advantages as a woven structure.

The invention provides a garment which is attractive in appearance, comfortable to wear, free of restraint and soft in texture.

The invention is realized in the following way:

a knitting method comprising:

knitting a first special dummy tissue: the combination of the positive needle coil with the turning needle and the positive needle floating line and the combination of the positive needle coil with the turning needle and the negative needle floating line are adopted to weave the first row of the whole circulation, so as to form the loop effect of knitting tissues;

Knitting special turn-over tissue: the second row of the whole circulation is woven by adopting any combination of a reverse needle floating line, a four-plain stitch, a reverse needle floating line, a positive needle stitch with a turning needle, a reverse needle floating line and a reverse needle stitch with a turning needle, so as to form a weft yarn effect in a woven structure;

knitting a second special dummy tissue: the combination of the reverse needle floating thread and the positive needle loop without the turning needle is adopted to be combined with the combination of the reverse needle floating thread and the reverse needle loop with the turning needle, and the third row of the whole circulation is knitted, so that the loop effect of knitting tissues is formed;

knitting a third special dummy tissue: combining the combination of the reverse needle floating thread and the positive needle coil without the turning needle with the combination of the positive needle floating thread and the reverse needle coil with the turning needle, and knitting the fourth row of the whole cycle to form the warp effect in the woven structure;

knitting special tuck stitch: combining the positive needle floating with the turning needle, the negative needle winding with the turning needle, the negative needle floating with the turning needle and the stitch collecting structure, and knitting the fifth row of the whole cycle to form the stitch effect of the knitting structure;

knitting special turn-over tissue: the combination of the positive needle floating thread with the turning needle and the negative needle loop with the turning needle and the combination of the negative needle floating thread with the turning needle and the negative needle loop without the turning needle are adopted to weave the sixth row of the whole cycle, so as to form the weft effect in the woven tissue;

Knitting special double-handle structure: the combination of the reverse needle floating thread and the positive needle loop without the turning needle is adopted to be combined with the combination of the positive needle floating thread and the reverse needle loop with the turning needle, and the seventh row of the whole cycle is knitted, so that the loop effect of knitting tissues is formed;

knitting a fourth special dummy tissue: the reverse needle floating line, the reverse needle loop without the turning needle and the reverse needle floating line without the turning needle are adopted for combination, and the eighth row of the whole circulation is woven, so that the warp effect in the woven structure is formed;

during the knitting process, at least five of the first row to the eighth row are knitted in any combination to form a knitted structure.

The knitting structure is knitted by the knitting method, and comprises a first row, a second row, a third row, a fourth row, a fifth row, a sixth row, a seventh row and an eighth row which are sequentially arranged in the transverse direction, and comprises a first column, a second column, a third column, a fourth column, a fifth column, a sixth column, a seventh column, an eighth column, a ninth column, a tenth column, an eleventh column and a twelfth column which are sequentially arranged in the longitudinal direction;

the first row is provided with a first row of positive needle coils, two adjacent first row of positive needle coils are arranged at intervals in a row, and the first row of positive needle coils are respectively arranged in a first row, a third row, a fifth row, a seventh row, a ninth row and an eleventh row;

The second row is provided with second row positive needle coils and second row negative needle coils, every three second row positive needle coils and one second row negative needle coil are sequentially arranged to form a cycle, two adjacent second row positive needle coils are arranged at intervals by one row, and the second row positive needle coils adjacent to the second row negative needle coils are arranged next to the second row negative needle coils; the coils of the second row are sequentially arranged in a second column, a third column, a fourth column, a sixth column, an eighth column, a ninth column, a tenth column and a twelfth column;

the third row is provided with a third row of positive needle coils and a third row of negative needle coils, every three third row of positive needle coils and one third row of negative needle coils are sequentially arranged and are mutually separated by one column to form a cycle, and the third row of negative needle coils of the former cycle and the third row of positive needle coils of the latter cycle are arranged by one column; the coils of the third row are respectively arranged in the first column, the third column, the fifth column, the seventh column, the ninth column and the eleventh column, and the coils of the first row are respectively sleeved on the coils of the third row in sequence;

the fourth row is provided with fourth row anti-needle coils, and two adjacent fourth row anti-needle coils are arranged at intervals of five columns; the two fourth row of anti-needle coils are respectively arranged in the third column and the ninth column; the second row of the anti-needle coils are respectively sleeved on the fourth row of anti-needle coils in sequence; the second row of the needle-reversing coils are sleeved on a fourth row of the needle-reversing coils in the same column;

The fifth row is provided with fifth row positive needle coils, and two adjacent fifth row positive needle coils are arranged at intervals by one row; the coils of the fifth row are respectively arranged in the second column, the fourth column, the sixth column, the eighth column, the tenth column and the twelfth column; the second row of positive needle coils are sleeved on the fifth row of positive needle coils in the same column;

the sixth row is provided with a sixth row of positive needle coils and a sixth row of negative needle coils, the sixth row of positive needle coils are respectively arranged in the first column, the fifth column, the seventh column and the eleventh column, and the sixth row of negative needle coils are respectively arranged in the third column, the sixth column and the ninth column; the coils of the third row corresponding to the first column, the fifth column, the seventh column, the ninth column and the eleventh column are respectively sleeved on the coils of the sixth row and the same column; the sixth row of positive needle stitches are sleeved on the first row of positive needle stitches of the other adjacent and connected knitting structure sleeved on the same row;

the seventh row is provided with a seventh row of positive needle coils and a seventh row of negative needle coils, every three seventh row of positive needle coils and one seventh row of negative needle coils are sequentially arranged and are mutually separated by one column to form a cycle, and the seventh row of negative needle coils of the former cycle are closely arranged with the seventh row of positive needle coils of the latter cycle; the seventh row of the reverse needle coils are respectively sleeved on the third column and the ninth column, and the seventh row of the positive needle coils are respectively sleeved on the second column, the fourth column, the sixth column, the eighth column, the tenth column and the twelfth column; the fifth row of positive needle coils are sleeved on the seventh row of positive needle coils in the same column; the third row of positive needle coils corresponding to the third row are sleeved on the seventh row of negative needle coils in the same row, and the sixth row of negative needle coils corresponding to the ninth row are sleeved on the seventh row of negative needle coils in the same row; the seventh row of positive needle stitches are sleeved on the second row of positive needle stitches of the other adjacent and connected knitting structure in the same column, and the seventh row of negative needle stitches are sleeved on the first row of positive needle stitches of the other adjacent and connected knitting structure in the same column;

The eighth row is provided with an eighth row of anti-needle coils, and the eighth row of anti-needle coils are arranged in the sixth column; the sixth row of the corresponding needle-reversing coils are sleeved on the eighth row of the needle-reversing coils in the same column; the eighth row of the reverse needle stitches are sleeved on the second row of the positive needle stitches of the other knitting structure which are adjacent and connected in the same column.

The knitted fabric is circularly knitted by the knitting method.

A garment, the fabric for manufacturing the garment comprises the woven fabric.

The beneficial effects of the invention are as follows: according to the knitting method obtained through the design, the knitting structure with the knitting effect is knitted by using the knitting materials and the machine by adopting the knitting method, and the obtained knitting structure has the characteristics of good elasticity and ductility productivity of knitting products and appearance of the knitting products through any six rows of combination circular knitting in the first row to the eighth row. The woven structure is attractive in appearance, obvious in transverse and longitudinal lines, smooth in surface of the tissue product, stable in transverse dimension and not easy to deform, sagging phenomenon does not occur when the surface of the tissue product hangs, patterns are formed on the front side and the back side of the woven structure, and the produced tissue garment can be worn on the two sides, so that the variety of the tissue product is widened.

The knitting structure obtained by the design is obtained by adopting the knitting method provided by the invention, so that the knitting structure has the characteristics of good elasticity and ductility of knitting products and appearance of the knitting products, namely the knitting structure has the characteristics of good ductility, obvious transverse and longitudinal lines, smooth surface of tissue products, difficult sagging phenomenon during hanging, stable transverse dimension and difficult deformation, and is fashionable and attractive.

The knitted fabric obtained by the design is obtained by circularly knitting by the knitting method provided by the invention, so that the knitted fabric has the advantages of both the woven fabric and the knitted fabric, has obvious longitudinal lines, has smooth surface of a tissue product, generally does not have sagging phenomenon during hanging, has stable transverse dimension and is not easy to deform, and has excellent elasticity and ductility, and both the front side and the back side have aesthetic feeling. The fabric is attractive in appearance, comfortable to wear, close to the body, free of restraint, soft in texture, excellent in elasticity and extensibility, practical and producibility.

The fabric for manufacturing the garment, which is obtained through the design, comprises the woven fabric provided by the invention. Therefore, the garment is not easy to deform, comfortable and free of constraint, attractive in appearance and capable of being worn on two sides.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the front structure of a knitted structure produced by the knitting method according to example 1 of the present invention;

FIG. 2 is a schematic view showing the reverse structure of a knitted structure obtained by the knitting method according to example 1 of the present invention;

fig. 3 to 10 are schematic views of the stitch structures of the first row through eighth row, respectively, of the knitting method of embodiment 1 of the present invention;

FIG. 11 is an effect diagram of a woven structure obtained by weaving in example 1 of the present invention;

fig. 12 to 15 are schematic views of stitch structures of the fifth row to the eighth row, respectively, of the knitting method of embodiment 2 of the present invention;

FIG. 16 is an effect diagram of a woven structure obtained by weaving in example 2 of the present invention;

fig. 17 and 18 are schematic views of the stitch structures of the fourth row and the fifth row, respectively, of the knitting method of embodiment 3 of the present invention;

Fig. 19 is an effect diagram of a woven structure obtained by weaving in example 3 of the present invention;

FIG. 20 is a schematic view showing a part of the structure of a knitted fabric obtained by combining a plurality of knitted structures obtained by knitting in example 3 of the present invention;

fig. 21 to 26 are schematic views of stitch structures of the first row to the sixth row, respectively, of the knitting method of embodiment 4 of the present invention;

fig. 27 is an effect diagram of a woven structure obtained by weaving in invention example 4;

fig. 28 is a schematic view of a part of a woven fabric obtained by combining a plurality of woven structures obtained by weaving in embodiment 4 of the present invention.

Icon: 100-braiding structure; 01-first column; 02-second column; 03-third column; 04-fourth column; 05-fifth column; 06-sixth column; 07-seventh column; 08-eighth column; 09-ninth column; 10-tenth column; 11-eleventh column; 12-twelfth column; 21-first row; 22-second row; 23-third row; 24-fourth row; 25-fifth row; 26-sixth row; 27-seventh row; 28-eighth row; 211-first row of positive needle coils; 221-second row of positive needle coils; 222-second row of anti-needle loops; 231-third row of plus needle coils; 232-third row of anti-needle coils; 242-fourth row of reversing needle coils; 251-fifth row positive needle coil; 261-sixth row of plus needle coils; 262-sixth row of anti-needle coils; 271-seventh row of plus needle coils; 272-seventh row of anti-needle coils; 282-eighth row of anti-needle loops.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below. The specific conditions are not noted in the examples and are carried out according to conventional conditions or conditions recommended by the manufacturer. The reagents or apparatus used were conventional products commercially available without the manufacturer's attention.

The following provides a knitting method and a knitting structure according to an embodiment of the present invention.

In the drawings, the downward coils in the coil diagrams are all positive needle coils, and the upward coils are all negative needle coils.

A knitting method comprising the steps of:

s1, knitting a first special virtual jacquard tissue: the combination of the positive needle coil with the turning needle and the positive needle floating line and the combination of the positive needle coil with the turning needle and the negative needle floating line are adopted to weave the first row of the whole circulation, so as to form the loop effect of the knitting structure.

Knitting a first special dummy tissue: the knitting process adopts the combination of the positive needle coil with the turning needle and the positive needle floating line and the combination of the positive needle coil with the turning needle and the negative needle floating line, the two combinations can be combined in any number and knitting sequence, the computerized flat knitting machine operates for one stroke, the first row of the whole cycle is knitted, and the loop effect of knitting tissues is formed through the combination of the various knitting methods.

S2, knitting special turn-over tissues: the second row of the whole circulation is woven by adopting any combination of a reverse needle floating line, a four-plain stitch, a reverse needle floating line, a positive stitch with a turning needle, a reverse needle floating line and a reverse stitch with a turning needle, so as to form the weft effect in the woven tissue.

After the first row is knitted by the computerized flat knitting machine, special turn-over tissues are knitted on the basis of the first row. The knitting process adopts any combination of the computerized flat knitting machine running a stroke by adopting the back needle floating line, the four flat knitting loops, the back needle floating line, the positive needle loop with the turned needle, the back needle floating line and the back needle loop with the turned needle, and the second row of the whole circulation is knitted, and the second row obtained by knitting has the weft effect in the woven tissue through the combination of the knitting methods.

S3, knitting a second special virtual jacquard tissue: the combination of the reverse needle floating thread and the positive needle loop without the turning needle and the combination of the reverse needle floating thread and the reverse needle loop with the turning needle are adopted to weave the third row of the whole circulation, thereby forming the loop effect of the knitting tissue.

Specifically, a second special virtual lifting structure is woven on the basis of a second row after knitting, and a combination of a reverse needle floating line and a positive needle coil without a turning needle, a reverse needle floating line and a reverse needle coil with a turning needle are adopted to be combined arbitrarily, a computerized flat knitting machine runs for one stroke, and a third row of the whole cycle is knitted, so that a coil effect of the knitting structure is formed.

S4, knitting a third special virtual jacquard tissue: the combination of the reverse needle floating thread and the positive needle coil without the turning needle and the combination of the positive needle floating thread and the reverse needle coil with the turning needle are adopted to weave the fourth row of the whole circulation, so as to form the warp yarn effect in the woven structure.

Specifically, a third special virtual lifting structure is woven on the basis of a third row after knitting, a reverse needle floating line, a positive needle coil without a turning needle, a positive needle floating line and a reverse needle coil with a turning needle are combined, a computerized flat knitting machine runs for one stroke, and a fourth row of the whole cycle is woven, so that the warp yarn effect in the woven structure is formed.

S5, knitting special tuck stitch: the stitch effect of the knitting stitch is formed by combining the positive needle floating with the turning needle, the negative needle stitch with the turning needle, the negative needle floating with the turning needle and the stitch collecting stitch and knitting the fifth row of the whole cycle.

Specifically, knitting a special tuck stitch on the basis of the knitted fourth row, combining the positive needle floating thread with the turning needle, the negative needle loop with the turning needle, the negative needle floating thread with the turning needle and the tuck stitch, and knitting the fifth row of the whole cycle by running a stroke of a computerized flat knitting machine to form the loop effect of the knitting stitch.

S6, knitting special turn-over tissues: the combination of the positive needle float with the needle turning and the negative needle loop with the needle turning and the combination of the negative needle float with the needle turning and the negative needle loop without the needle turning are adopted to weave the sixth row of the whole cycle, so as to form the weft effect in the woven tissue.

Specifically, knitting a special turn-over stitch on the basis of the knitted fifth row, combining a combination of a positive needle float with a turned needle and a negative needle loop with a turned needle with a combination of a negative needle float with a turned needle and a negative needle loop without a turned needle, and running a stroke of a computerized flat knitting machine to knit the sixth row of the whole cycle to form a weft yarn effect in the woven stitch.

S7, knitting special double-handle tissues: the combination of the reverse needle floating thread and the positive needle loop without the turning needle is adopted to be combined with the combination of the positive needle floating thread and the reverse needle loop with the turning needle, and the seventh row of the whole circulation is knitted, so that the loop effect of the knitting tissue is formed.

Specifically, knitting a special double-lift stitch on the basis of the knitted sixth row, combining a combination of a reverse needle floating line and a positive needle stitch without a turning needle with a combination of a positive needle floating line and a reverse needle stitch with a turning needle, and running a stroke by a computerized flat knitting machine to knit a seventh row of the whole cycle to form a stitch effect of the knitting stitch.

S8, knitting a fourth special virtual jacquard tissue: the reverse needle floating line, the reverse needle loop without the turning needle and the reverse needle floating line without the turning needle are adopted for combination, and the eighth row of the whole circulation is woven, so that the warp yarn effect in the woven structure is formed.

Specifically, a fourth special virtual lifting structure is woven on the basis of the seventh row after the knitting, and the reverse needle floating line, the reverse needle loop without the turning needle and the reverse needle floating line without the turning needle are combined, and the computerized flat knitting machine runs for one stroke to knit the eighth row of the whole cycle, so that the warp yarn effect in the woven structure is formed.

During the knitting process, at least five rows of the first row to the eighth row are knitted in any combination to form a knitted structure. When the fabric is required to be woven into a complete fabric, the above steps are repeated to circularly weave, so that the fabric with a plurality of mutually connected woven structures can be obtained.

In the present invention, the color may be one color, two colors, or multiple colors; the knitting material can be used for various knitting yarns, such as cotton, hemp, wool, cashmere, silk, chemical fiber, various flower yarns and the like; the knitting machine is applicable to various imported computerized flat knitting machines and domestic computerized flat knitting machines, and is provided with a front needle bed and a rear needle bed; the needle type of the machine is applicable to E3G, E3.5.2G, E5G, E7G, E10G, E12G, E G, E7.2G, E16G, E18G and the like.

The knitting structure adopts the knitting method to utilize knitting materials and machines to knit the knitted product with the knitting effect, and the obtained knitting structure has the characteristics of good elasticity and ductility of the knitted product and the appearance of the woven product through the combination and circular knitting of any six rows from the first row to the eighth row. The woven structure is attractive in appearance, obvious in transverse and longitudinal lines, smooth in surface of the tissue product, stable in transverse dimension and not easy to deform, sagging phenomenon does not occur when the surface of the tissue product is flat and overhung, patterns are formed on the front side and the back side of the woven structure, the produced tissue garment can be worn on the two sides, the variety of the tissue product is widened, and yarns with special functions can be added to enable the tissue product to have various special functions.

A woven structure obtained by weaving by the above weaving method.

The knitting method and the knitting structure provided by the invention are specifically described below with reference to specific embodiments.

Example 1

The present embodiment provides a knitting structure by which a knitting machine is knitted by the knitting method.

As shown in fig. 1 to 3, the knitting method according to the present embodiment sequentially performs knitting in the order of S1 to S8, the first row 21 to the eighth row 28.

The first row 21 is knitted with a plurality of stitches, each of which is a first row of straight stitches 211, with a row of adjacent two first row of straight stitches 211 being spaced apart.

As shown in fig. 1, 2 and 4, the second row 22 is knitted with two stitches, a second row of forward stitches 221 and a second row of reverse stitches 222. Every three second-row positive needle coils 221 and one second-row negative needle coil 222 are sequentially arranged to form a cycle, two adjacent second-row positive needle coils are arranged at intervals in a row, and the second-row negative needle coils 222 adjacent to the second-row positive needle coils 221 are arranged next to the second-row positive needle coils 221.

As shown in fig. 1, 2 and 5, the third row 23 has a third row of plus needle coils 231 and a third row of minus needle coils 232, and every three third row of plus needle coils 231 and one third row of minus needle coils 232 are sequentially arranged and formed to be one cycle with a column spacing therebetween, and the third row of minus needle coils 232 of the former cycle are arranged to be one column spacing from the third row of plus needle coils 231 of the latter cycle.

As shown in fig. 1, 2 and 6, the fourth row 24 has fourth row anti-needle coils 242, and adjacent two fourth row anti-needle coils 242 are arranged at five columns.

As shown in fig. 1, 2 and 7, the fifth row 25 has fifth row positive needle coils 251, and two adjacent fifth row positive needle coils 251 are arranged in a row.

As shown in fig. 1, 2 and 8, the sixth row 26 has a sixth row of plus needle coils 261 and a sixth row of minus needle coils 262, each eleven columns are one cycle, the sixth row of plus needle coils 261, the minus needle, the sixth row of minus needle coils 262, the minus needle, the sixth row of plus needle coils 261, the sixth row of minus needle coils 262, the sixth row of plus needle coils 261, the minus needle, the sixth row of minus needle coils 262, the minus needle and the sixth row of plus needle coils 261 are sequentially arranged in one cycle, and adjacent two cycles are arranged at intervals of one column. Where no loops are provided in a row or column of hollow fingers of the present invention.

As shown in fig. 1, 2 and 9, the seventh row 27 has a seventh row of plus needle coils 271 and a seventh row of minus needle coils 272, each three of the seventh row of plus needle coils 271 and one of the seventh row of minus needle coils 272 are disposed in order and are formed to be one cycle with a column therebetween, and the seventh row of minus needle coils 272 of the former cycle are disposed immediately adjacent to the seventh row of plus needle coils 271 of the latter cycle.

As shown in fig. 1, 2 and 10, the eighth row 28 has eighth row of anti-needle coils 282, and adjacent two eighth row of anti-needle coils 282 are arranged with an interval of eleven columns.

The specific weave pattern of each row described above enables the resulting woven structure 100 to be formed as a single repeat unit for each 8 rows and 12 columns. Wherein the first row 21, the third row 23, the fifth row 25 and the seventh row 27 form a knitted deck. The second row 22, fourth row 24, sixth row 26, and eighth row 28 form a woven layer warp effect. One of the 12 columns, each of the three columns being spaced apart, forms a weft effect of the woven face and the other three columns being spaced apart form weft effects of different senses of the woven face.

It should be noted that, in other embodiments of the present invention, the knitting sequence may be to knit the first row 21 to the eighth row 28 in a disordered manner, or the number of rows for knitting one cycle may include only 5 rows, 6 rows, or 7 rows of the first row 21 to the eighth row 28.

Further, the first row 21, the third row 23, the fifth row 25 and the seventh row 27 form a knitted layer, and the lines used for knitting the knitted layer are the same color. So as to form uniform ground color and make the knitting structure obtained by knitting more beautiful.

Further, the second row 22, fourth row 24, sixth row 26, and eighth row 28 form a woven layer, and the color of the threads used by the woven layer is different from the color of the threads used by the woven layer. The woven layer surface and the knitted layer surface adopt different colors, so that the woven layer surface can clearly form woven warp and weft yarns, and the appearance effect is increased, clear and attractive.

In the invention, the knitting layer surface of the knitting machine and the selected thread of the knitting layer surface can also adopt the same color, and the same color can achieve the fuzzy and hazy aesthetic feeling. Fancy yarns such as looped yarns can also be used for knitting in order to enhance hazy aesthetics.

Further, the first row 21, the third row 23, the fifth row 25 and the seventh row 27 form a knitted layer, and the material of the thread used for knitting the knitted layer is the same. The knitting layer is knitted by knitting threads made of the same material to form a fixed bottom layer.

Further, the second row 22, the fourth row 24, the sixth row 26, and the eighth row 28 form a woven layer, and the material of the threads used for the woven layer is different from the material of the threads used for the woven layer. The woven layer and the knitted layer are made of different materials, so that special physical properties can be given to the knitted structure obtained by knitting. For example, the woven layer can be made of elastic knitting threads, so that the knitted structure obtained by knitting has elasticity.

As shown in fig. 1 and 2, the woven structure 100 woven by the above-mentioned weaving method according to the present embodiment includes a first row 21, a second row 22, a third row 23, a fourth row 24, a fifth row 25, a sixth row 26, a seventh row 27, and an eighth row 28, which are sequentially arranged, in the lateral direction, and the woven structure includes a first column 01, a second column 02, a third column 03, a fourth column 04, a fifth column 05, a sixth column 06, a seventh column 07, an eighth column 08, a ninth column 09, a tenth column 10, an eleventh column 11, and a twelfth column 12, which are sequentially arranged.

The first row 21 has first row plus needle coils 211, and two adjacent first row plus needle coils 211 are arranged at a distance of one column, and the first row plus needle coils 211 are respectively arranged in a first column 01, a third column 03, a fifth column 05, a seventh column 07, a ninth column 09 and an eleventh column 11.

The second row 22 has second row positive needle coils 221 and second row negative needle coils 222, each three second row positive needle coils 221 and one second row negative needle coil 222 are sequentially arranged to form a cycle, two adjacent second row positive needle coils 221 are arranged at intervals by one column, and the second row positive needle coils 221 adjacent to the second row negative needle coils 222 are arranged next to the second row negative needle coils 222; the coils of the second row 22 are arranged in the second column 02, the third column 03, the fourth column 04, the sixth column 06, the eighth column 08, the ninth column 09, the tenth column 10, and the twelfth column 12 in this order.

The third row 23 has a third row of plus needle coils 231 and a third row of minus needle coils 232, each three third row of plus needle coils 231 and one third row of minus needle coils 232 are sequentially arranged and are mutually separated by one column to form a cycle, and the third row of minus needle coils 232 of the former cycle are arranged by one column with the third row of plus needle coils 231 of the latter cycle; the coils of the third row 23 are respectively arranged in the first column 01, the third column 03, the fifth column 05, the seventh column 07, the ninth column 09 and the eleventh column 11, and the coils of the first row 21 are respectively sleeved on the coils of the third row 23 in sequence.

The fourth row 24 has fourth row anti-needle coils 242, and two adjacent fourth row anti-needle coils 242 are arranged at intervals of five columns; two fourth-row anti-needle coils 242 are provided in the third column 03 and the ninth column 09, respectively; the second row of anti-needle coils 222 are respectively sleeved on the fourth row of anti-needle coils 242 in sequence; the second row of anti-needle coils 222 is sleeved on the fourth row of anti-needle coils 242 in the same column.

The fifth row 25 has fifth row positive needle coils 251, and two adjacent fifth row positive needle coils 251 are arranged at intervals of one row; the coils of the fifth row 25 are provided in the second column 02, the fourth column 04, the sixth column 06, the eighth column 08, the tenth column 10, and the twelfth column 12, respectively; the second row of positive needle coils 221 are sleeved on the fifth row of positive needle coils 251 in the same column;

the sixth row 26 has a sixth row of plus needle coils 261 and a sixth row of minus needle coils 262, the sixth row of plus needle coils 261 being provided in the first column 01, the fifth column 05, the seventh column 07 and the eleventh column 11, respectively, and the sixth row of minus needle coils 262 being provided in the third column 03, the sixth column 06 and the ninth column 09, respectively; the coils of the third row 23 corresponding to the first column 01, the fifth column 05, the seventh column 07, the ninth column 09 and the eleventh column 11 are respectively sleeved on the coils of the sixth row 26 and the same column; the sixth row of jersey stitches 261 is nested on the first row of jersey stitches 211 of another knitted structure nested adjacent and connected in the same column.

The seventh row 27 has a seventh row of plus needle coils 271 and a seventh row of minus needle coils 272, each three seventh row of plus needle coils 271 and one seventh row of minus needle coils 272 being disposed in sequence and being formed in a cycle with a row spacing therebetween, the seventh row of minus needle coils 272 of the former cycle being disposed immediately adjacent to the seventh row of plus needle coils 271 of the latter cycle; the seventh row of the anti-needle coils 272 are sleeved on the third column 03 and the ninth column 09 respectively, and the seventh row of the positive needle coils 271 are sleeved on the second column 02, the fourth column 04, the sixth column 06, the eighth column 08, the tenth column 10 and the twelfth column 12 respectively; the fifth row of positive needle coils 251 are sleeved on the seventh row of positive needle coils 271 in the same column; the third row of positive needle coils 231 corresponding to the third column 03 are sleeved on the seventh row of negative needle coils 272 in the same column, and the sixth row of negative needle coils 262 corresponding to the ninth column 09 are sleeved on the seventh row of negative needle coils 272 in the same column; the seventh row of positive needle stitches 271 is sleeved on the second row of positive needle stitches 221 of another knitting structure adjacent and connected to the same column, and the seventh row of negative needle stitches 272 is sleeved on the first row of positive needle stitches 211 of another knitting structure adjacent and connected to the same column.

The eighth row 28 has an eighth row of anti-needle stitches 282, the eighth row of anti-needle stitches 282 being disposed in the sixth column 06; the sixth row of anti-needle coils 262 corresponding to the sixth column 06 are sleeved on the eighth row of anti-needle coils 282 in the same column; the eighth row of reverse stitches 282 is sleeved over the second row of forward stitches 221 of another knitted structure adjacent and joined in the same column.

The above-described knitted structure, wherein the first row 21, the third row 23, the fifth row 25 and the seventh row 27 form a knitted deck. The second row 22, fourth row 24, sixth row 26, and eighth row 28 form a woven layer warp effect. One of the 12 columns, each of the three columns being spaced apart, forms a weft effect of the woven face and the other three columns being spaced apart form weft effects of different senses of the woven face. The knitting structure has front and back sides, and the produced texture clothing can be worn on both sides, so that the variety of texture products is widened, and yarns with special functions (such as elastic threads) can be added, so that the texture clothing has various special functions (elasticity).

Specifically, the knit structure has opposite front and back faces, with the front face oriented up and the back face oriented down, with the knitting yarn at the empty needles of the first row 21 being located above the sixth row of positive needle stitches 261. Knitting lines corresponding to the first column 01, the fifth column 05, the seventh column 07 and the eleventh column 11 at the empty needle of the second row 22 are located above the first row of right needle stitches 211, and knitting lines corresponding to the third column 03 and the fifth column 05 at the empty needle of the second row 22 are located below the first row of right needle stitches 211. The corresponding knitting line at the empty needles of the third row 23 is located above the stitches of the second row 22. Knitting lines corresponding to the second column 02, the fifth column 05, the seventh column 07, the ninth column 09, the tenth column 10, and the twelfth column 12 at the fourth row 24 empty needle are located above the same column of stitches, and knitting lines corresponding to the first column 01, the eighth column 08, and the eleventh column 11 at the fourth row 24 empty needle are located below the same column of stitches. Knitting lines corresponding to the first column 01, the third column 03, the fifth column 05 and the ninth column 09 at the empty needle of the fifth row 25 are positioned above the same-column stitches, and knitting lines corresponding to the eleventh column 11 at the empty needle of the fifth row 25 are positioned below the same-column stitches. Knitting lines corresponding to the second, fourth, eighth, tenth, and twelfth columns 02, 04, 08, 10, 12 at the empty needles of the sixth row 26 are located over the same column of stitches. Knitting lines corresponding to the first column 01, the fifth column 05, the seventh column 07 and the eleventh column 11 at the empty needle of the seventh row 27 are located above the same column of stitches. Knitting lines corresponding to the second column 02, the third column 03, the fifth column 05, the seventh column 07, the ninth column 09 and the eleventh column 11 at the empty needle position of the eighth row 28 are positioned on the same-column loops; knitting lines corresponding to the first column 01, the fourth column 04, the eighth column 08, the tenth column 10, and the twelfth column 12 at the empty needle of the eighth row 28 are located under the same column of stitches. The effect of the woven fabric is shown in fig. 11.

Example 2

The present embodiment provides a knitting structure by which a knitting machine is knitted by the knitting method.

The knitting structure obtained by knitting with the knitting method provided in this embodiment has 8 rows and 12 columns, and the knitting method provided in this embodiment is the same as the knitting method of the first four rows of the knitting method provided in embodiment 1, and the knitting method of rows 5 to 8 is different from embodiment 1 in that the column knitting order is adjusted.

Fifth line: knitting special tuck stitch: the special tuck stitch is knitted on the basis of the fourth row after knitting, and the positive needle floating stitch with the turning needle, the negative needle loop with the turning needle and the negative needle floating stitch with the turning needle are combined, the computerized flat knitting machine operates for one stroke, the fifth row of the whole cycle is knitted, the whole operation stroke is moved one column leftwards or one column rightwards relative to the knitting of the fifth row of the embodiment 1, and the loop effect schematic diagram of the fifth row is shown in fig. 12.

Sixth line: knitting special turn-over tissue: the special pattern knitting structure is knitted on the basis of the knitted fifth row, the combination of the positive needle floating line with the turning needle and the negative needle loop with the turning needle and the combination of the negative needle floating line with the turning needle and the negative needle loop without the turning needle are adopted, the computerized flat knitting machine operates for one stroke, the sixth row of the whole cycle is knitted, the weft yarn effect in the woven structure is formed, the embodiment is knitted relative to the sixth row of the embodiment 1, the whole operation stroke is moved leftwards by one column or rightwards by 11 columns, and the loop effect schematic diagram of the sixth row is shown in fig. 13.

Seventh row: knitting special double-handle structure: the special double-lifting stitch is knitted on the basis of the sixth row after knitting, and the combination of the reverse needle floating thread and the positive needle stitch without the turning needle is adopted to be combined with the combination of the positive needle floating thread and the reverse needle stitch with the turning needle, the computerized flat knitting machine runs for one stroke, and the seventh row of the whole circulation is knitted, so that the stitch effect of the knitting stitch is formed. In this example, the entire running stroke is shifted one column to the left or 5 columns to the right with respect to the seventh row knitting of example 1, and the stitch effect of the seventh row is schematically shown in fig. 14.

Eighth line: knitting a fourth special dummy tissue: and knitting a fourth special virtual lifting structure on the basis of the seventh line after knitting, combining the reverse needle floating line, the reverse needle loop without the turning needle and the reverse needle floating line without the turning needle, and running a stroke by a computerized flat knitting machine to knit the eighth line of the whole cycle, thereby forming the warp yarn effect in the woven structure. In this example, the whole running stroke is shifted one column to the left or 11 columns to the right with respect to the eighth row knitting of example 1, and the stitch effect of the seventh row is schematically shown in fig. 15.

The woven structure after braiding is shown in fig. 16. The woven structure is also a knitted layer formed by the first, third, fifth and seventh rows, and the second, fourth, sixth and eighth rows form the woven layer warp effect. The first, second, third, fifth, sixth, seventh, ninth, tenth and eleventh columns in the figure form the weft effect of one color of the woven layer and the fourth, eighth and twelfth columns form the weft effect of another color of the woven layer.

Example 3

The knitting structure knitted by the knitting method provided in this embodiment has 5 rows and 12 columns. The knitting method provided in this embodiment is substantially the same as that provided in embodiment 1, except that the first, third and seventh rows are omitted with respect to embodiment 1, and knitting in the fourth and fifth rows in this embodiment is slightly different.

The fourth row weave of this embodiment corresponds to the sixth row weave of embodiment 1, and in this embodiment, the weave of this row is shifted one column to the left or 5 columns to the right with respect to the sixth row in embodiment 1. The coil effect of the fourth row of this embodiment is shown in fig. 17.

The fifth row weave of this embodiment corresponds to the eighth row weave of embodiment 1, and in this embodiment, the weave of this row is shifted one column to the left or 11 columns to the right with respect to the eighth row in embodiment 1. The coil effect of the fifth row of the present embodiment is shown in fig. 18.

The woven structure obtained by weaving is shown in fig. 19. The woven structure is a knitted layer formed by the first, third, fourth and fifth rows, and the second row forms a woven layer warp effect. The first, second, third, fifth, sixth, seventh, ninth, tenth and eleventh columns in the figure form the weft effect of one color of the woven layer and the fourth, eighth and twelfth columns form the weft effect of another color of the woven layer. A schematic diagram of a part of a woven fabric obtained by combining a plurality of woven structures according to this embodiment is shown in fig. 20.

Example 4

The knitting structure knitted by the knitting method provided in this embodiment has 6 rows and 9 columns. The braiding method provided by this embodiment is substantially the same as that provided by embodiment 1, except that the fourth and eighth rows are eliminated with respect to embodiment 1, while the braiding structure obtained by this embodiment is reduced in the third, sixth and eleventh columns with respect to that of embodiment 1 due to the difference in the combined braiding method of each row.

The first row of the woven structure obtained in this embodiment: knitting a first special dummy tissue: the knitting process uses a combination of a plus stitch with a turn-over needle and a plus float and a combination of a plus stitch with a turn-over needle and a minus float to knit a first row of the entire cycle, and the stitch effect of forming a knit stitch by the combination of the various knitting techniques described above is shown in fig. 21, the first row of this embodiment being less than the first row of embodiment 1 by the third, sixth and eleventh columns of the knit structure of embodiment 1.

The second row of the woven structure obtained in this example: knitting a special turn-up stitch on the basis of the first row. The knitting process adopts a reverse needle floating line, a four-plain stitch, a reverse needle floating line, a positive stitch with a turning needle, a reverse needle floating line and a reverse stitch with a turning needle, and the computerized flat knitting machine operates for one stroke to knit a second row of the whole cycle, and the second row obtained by knitting has the weft effect in the woven tissue. The stitch forming effect of the knitting structure by the combination of the above-described various knitting methods is shown in fig. 22, and the second row of the present embodiment is smaller than the second row of embodiment 1 by the third, sixth and eleventh columns of the knitting structure of embodiment 1.

Third row of woven structure obtained in this example: and knitting a second special virtual lifting structure on the basis of the knitted second row, wherein the combination of the reverse needle floating line and the positive needle coil without the turning needle, the reverse needle floating line and the reverse needle coil with the turning needle are adopted for random combination, the computerized flat knitting machine runs for one stroke, and the third row of the whole cycle is knitted, so that the coil effect of the knitting structure is formed. The stitch forming effect of the knitting structure by the combination of the above-described various knitting methods is as shown in fig. 23, the third row of the present embodiment is smaller than the third row of the embodiment 1 by the third, sixth and eleventh columns of the knitting structure of the embodiment 1, and the stitch of the fifth column in the present embodiment is a reverse stitch.

Fourth row of the woven structure obtained in this example: the special tuck stitch is knitted on the basis of the third row after knitting, and the stitch effect of the knitting stitch is shown in figure 24 by combining the positive needle floating stitch with the turning needle, the negative needle loop with the turning needle, the negative needle floating stitch with the turning needle and the tuck stitch, and the computerized flat knitting machine runs for one stroke to knit the fifth row of the whole cycle. The fourth row of this embodiment is less than the fifth row of embodiment 1 by the third, sixth and eleventh columns of the woven structure of embodiment 1.

The fifth row of the woven structure obtained in this embodiment: the special turn-over stitch is knitted on the basis of the fourth row after knitting, the combination of the positive needle floating line with the turning needle and the negative needle loop with the turning needle is adopted to be combined with the combination of the negative needle floating line with the turning needle and the negative needle loop without the turning needle, the computerized flat knitting machine operates for one stroke, the sixth row of the whole cycle is knitted, and the weft effect in the woven stitch is formed as shown in figure 25. The fifth row of this embodiment is less than the sixth row of embodiment 1 by the third, sixth and eleventh columns of the woven structure of embodiment 1.

Sixth row of woven structure obtained in this example: the special double-lifting stitch is knitted on the basis of the knitted fifth row, the combination of the reverse needle floating thread and the positive needle stitch without the turning needle is adopted to be combined with the combination of the positive needle floating thread and the reverse needle stitch with the turning needle, the computerized flat knitting machine runs for one stroke, the sixth row of the whole cycle is knitted, and the stitch effect of the knitting stitch is shown in figure 26. The sixth row of this embodiment has fewer third, sixth and eleventh columns of the woven structure of embodiment 1 relative to the seventh row of embodiment 1.

The woven structure obtained by weaving is shown in fig. 27. The woven structure is a knitted layer formed by the first, third, fourth and sixth rows, and the second and fifth rows form a woven layer warp effect. The first, second, third, fifth, sixth, eighth, and ninth rows in the figure form the weft effect of one color on the woven layer and the fourth row forms the weft effect of another color on the woven layer. A schematic structural diagram of a portion of a woven fabric obtained by combining a plurality of woven structures of this embodiment is shown in fig. 28.

Example 5

The knitting structure knitted by the knitting method provided in this embodiment has 7 rows and 12 columns. The knitting method provided in this embodiment is substantially the same as that provided in embodiment 1, except that the fourth row is omitted with respect to embodiment 1.

In summary, when the knitting method provided by the invention is used, the knitting method is adopted to utilize the knitting material and the machine to knit the knitting structure with the knitting effect, and the knitting structure obtained by combining and circularly knitting any six rows from the first row to the eighth row has the characteristics of good elasticity and ductility of the knitting product and the appearance of the knitting product. The woven structure is attractive in appearance, obvious in transverse and longitudinal lines, smooth in surface of the tissue product, stable in transverse dimension and not easy to deform, sagging phenomenon does not occur when the surface of the tissue product hangs, patterns are formed on the front side and the back side of the woven structure, and the produced tissue garment can be worn on the two sides, so that the variety of the tissue product is widened.

The knitting structure obtained by the design has the advantages of good elasticity and ductility of knitting products, good appearance of the knitting products, namely good ductility, obvious transverse and longitudinal lines, smooth surface of the tissue products, difficult sagging phenomenon during hanging, stable transverse dimension, difficult deformation and fashion and beautiful appearance.

The invention also provides a knitted fabric which is obtained by circularly knitting by adopting the knitting method provided by the invention. Therefore, the fabric has the advantages of both woven fabric and knitted fabric, has obvious longitudinal lines, has smooth surface of the tissue product, generally does not have sagging phenomenon during hanging, has stable transverse dimension and difficult deformation, has excellent elasticity and ductility, and has aesthetic feeling on both front and back surfaces. The fabric is attractive in appearance, comfortable to wear, close to the body, free of restraint, soft in texture, moisture-absorbing, breathable and excellent in elasticity and extensibility, practicability and producibility.

The invention also provides a garment, and the fabric for manufacturing the garment comprises the woven fabric provided by the invention. Therefore, the garment is not easy to deform, comfortable to wear, free of restraint, attractive in appearance and capable of being worn on two sides.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A knitting method, characterized by comprising the steps of:

Knitting a first special dummy tissue: the combination of the positive needle coil with the turning needle and the positive needle floating line and the combination of the positive needle coil with the turning needle and the negative needle floating line are adopted to weave the first row of the whole circulation, so as to form the loop effect of knitting tissues;

knitting special turn-over tissue: the second row of the whole circulation is woven by adopting any combination of a reverse needle floating line, a four-plain stitch, a reverse needle floating line, a positive needle stitch with a turning needle, a reverse needle floating line and a reverse needle stitch with a turning needle, so as to form a weft yarn effect in a woven structure;

knitting a second special dummy tissue: the combination of the reverse needle floating thread and the positive needle loop without the turning needle is adopted to be combined with the combination of the reverse needle floating thread and the reverse needle loop with the turning needle, and the third row of the whole circulation is knitted, so that the loop effect of knitting tissues is formed;

knitting a third special dummy tissue: combining the combination of the reverse needle floating thread and the positive needle coil without the turning needle with the combination of the positive needle floating thread and the reverse needle coil with the turning needle, and knitting the fourth row of the whole cycle to form the warp effect in the woven structure;

knitting special tuck stitch: combining the positive needle floating with the turning needle, the negative needle winding with the turning needle, the negative needle floating with the turning needle and the stitch collecting structure, and knitting the fifth row of the whole cycle to form the stitch effect of the knitting structure;

Knitting special turn-over tissue: the combination of the positive needle floating thread with the turning needle and the negative needle loop with the turning needle and the combination of the negative needle floating thread with the turning needle and the negative needle loop without the turning needle are adopted to weave the sixth row of the whole cycle, so as to form the weft effect in the woven tissue;

knitting special double-handle structure: the combination of the reverse needle floating thread and the positive needle loop without the turning needle is adopted to be combined with the combination of the positive needle floating thread and the reverse needle loop with the turning needle, and the seventh row of the whole cycle is knitted, so that the loop effect of knitting tissues is formed;

knitting a fourth special dummy tissue: the reverse needle floating line, the reverse needle loop without the turning needle and the reverse needle floating line without the turning needle are adopted for combination, and the eighth row of the whole circulation is woven, so that the warp effect in the woven structure is formed;

during the knitting process, at least five of the first row to the eighth row are knitted in any combination to form a knitted structure.

2. The knitting method of claim 1 wherein the first row, the third row, the fifth row, and the seventh row form a knitted layer, and the threads used to knit the knitted layer are the same color.

3. The knitting method as in claim 2, characterized in that the second row, the fourth row, the sixth row and the eighth row form a woven layer, and that the color of the thread used for knitting the woven layer is different from the color of the thread used for knitting the woven layer.

4. The knitting method according to claim 1, characterized in that the first row, the third row, the fifth row and the seventh row form a knitting layer, and that the knitting layer is knitted from the same material as the threads.

5. The knitting method as in claim 4, characterized in that the second row, the fourth row, the sixth row, and the eighth row form a woven layer, and that a material of a thread used for knitting the woven layer is different from a material of a thread used for knitting the woven layer.

6. A knitted structure knitted by the knitting method according to any one of claims 1 to 5, the knitted structure comprising a first row, a second row, a third row, a fourth row, a fifth row, a sixth row, a seventh row, and an eighth row in this order, the knitted structure comprising a first column, a second column, a third column, a fourth column, a fifth column, a sixth column, a seventh column, an eighth column, a ninth column, a tenth column, an eleventh column, and a twelfth column in this order;

the first row is provided with first row positive needle coils, two adjacent first row positive needle coils are arranged at intervals by one row, and the first row positive needle coils are respectively arranged in the first row, the third row, the fifth row, the seventh row, the ninth row and the eleventh row;

The second row is provided with a second row of positive needle coils and a second row of negative needle coils, every three second row of positive needle coils and one second row of negative needle coils are sequentially arranged to form a cycle, two adjacent second row of positive needle coils are arranged at intervals in a row, and the second row of positive needle coils adjacent to the second row of negative needle coils are arranged next to the second row of negative needle coils; the coils of the second row are sequentially arranged in the second column, the third column, the fourth column, the sixth column, the eighth column, the ninth column, the tenth column and the twelfth column;

the third row is provided with a third row of positive needle coils and a third row of negative needle coils, every three third row of positive needle coils and one third row of negative needle coils are sequentially arranged and mutually separated by one column to form a cycle, and the third row of negative needle coils of the former cycle and the third row of positive needle coils of the latter cycle are arranged by one column; the coils of the third row are respectively arranged in the first column, the third column, the fifth column, the seventh column, the ninth column and the eleventh column, and the coils of the first row are respectively sleeved on the coils of the third row in sequence;

The fourth row is provided with fourth row anti-needle coils, and two adjacent fourth row anti-needle coils are arranged at intervals of five columns; the two fourth row of anti-needle coils are respectively arranged in the third column and the ninth column; the second row of the anti-needle coils are respectively sleeved on the fourth row of the anti-needle coils in sequence; the second row of the anti-needle coils are sleeved on the fourth row of anti-needle coils in the same column;

the fifth row is provided with fifth row positive needle coils, and two adjacent fifth row positive needle coils are arranged at intervals in a row; the coils of the fifth row are respectively arranged in the second column, the fourth column, the sixth column, the eighth column, the tenth column and the twelfth column; the second row of positive needle coils are sleeved on the fifth row of positive needle coils in the same column;

the sixth row has a sixth row of positive needle coils and a sixth row of negative needle coils, the sixth row of positive needle coils are respectively arranged in the first column, the fifth column, the seventh column and the eleventh column, and the sixth row of negative needle coils are respectively arranged in the third column, the sixth column and the ninth column; the coils of the third row corresponding to the first column, the fifth column, the seventh column, the ninth column and the eleventh column are respectively sleeved on the coils of the sixth row and the same column; the sixth row of positive needle stitches are sleeved on the first row of positive needle stitches of the other adjacent and connected knitting structure sleeved on the same row;

The seventh row is provided with a seventh row of positive needle coils and a seventh row of negative needle coils, every three seventh row of positive needle coils and one seventh row of negative needle coils are sequentially arranged and are mutually separated by one column to form a cycle, and the seventh row of negative needle coils of the former cycle are arranged next to the seventh row of positive needle coils of the latter cycle; the seventh row of anti-needle coils are sleeved on the third column and the ninth column respectively, and the seventh row of positive needle coils are sleeved on the second column, the fourth column, the sixth column, the eighth column, the tenth column and the twelfth column respectively; the fifth row of positive needle coils are sleeved on the seventh row of positive needle coils in the same column; the third row of positive needle coils corresponding to the third column are sleeved on the seventh row of negative needle coils in the same column, and the sixth row of negative needle coils corresponding to the ninth column are sleeved on the seventh row of negative needle coils in the same column; the seventh row of positive needle stitches are sleeved on the second row of positive needle stitches of the other adjacent and connected knitting structure in the same column, and the seventh row of negative needle stitches are sleeved on the first row of positive needle stitches of the other adjacent and connected knitting structure in the same column;

The eighth row is provided with an eighth row of anti-needle coils, and the eighth row of anti-needle coils are arranged on the sixth column; the sixth row of the needle-reversing coils corresponding to the sixth column are sleeved on the eighth row of the needle-reversing coils in the same column; the eighth row of the reverse needle stitches are sleeved on the second row of the positive needle stitches of the other adjacent and connected knitting structure in the same column.

7. The woven structure of claim 6, wherein said woven structure has opposite front and back sides, with the front side oriented up and the back side oriented down,

knitting lines at the first row of empty needles are positioned above the sixth row of positive needle stitches;

knitting lines corresponding to the first column, the fifth column, the seventh column and the eleventh column at the second row of empty needles are positioned above the first row of positive needle stitches, and knitting lines corresponding to the third column and the fifth column at the second row of empty needles are positioned below the first row of positive needle stitches;

knitting lines corresponding to the third row of empty needles are positioned above the loops of the second row;

knitting lines corresponding to the second column, the fifth column, the seventh column, the ninth column, the tenth column and the twelfth column at the fourth row of empty needles are positioned above the same column of loops, and knitting lines corresponding to the first column, the eighth column and the eleventh column at the fourth row of empty needles are positioned below the same column of loops;

Knitting lines corresponding to the first column, the third column, the fifth column and the ninth column at the fifth row empty needle are positioned above the same-column coil, and knitting lines corresponding to the eleventh column at the fifth row empty needle are positioned below the same-column coil;

knitting lines corresponding to the second column, the fourth column, the eighth column, the tenth column and the twelfth column at the sixth row of empty needles are positioned on the same-column loops;

knitting lines corresponding to the first column, the fifth column, the seventh column and the eleventh column at the seventh row of empty needles are positioned on the same column of loops;

knitting lines corresponding to the second column, the third column, the fifth column, the seventh column, the ninth column and the eleventh column at the eighth row of empty needles are positioned on the same-column loops; knitting lines corresponding to the first column, the fourth column, the eighth column, the tenth column and the twelfth column at the eighth row of empty needles are positioned under the same-column loops.

8. A knitted fabric, characterized in that the knitted fabric is circularly knitted by the knitting method according to claim 1.

9. A garment, wherein the fabric from which the garment is made comprises the knitted fabric of claim 8.

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