CN113832594B - Knitted garment mesh structure and knitting method thereof - Google Patents

Abstract

The invention discloses a mesh structure of knitted clothes and a knitting method thereof, wherein the mesh structure comprises meshes on a fabric, the meshes are knitted in a left-right separated knitting mode, and needles and holes are sequentially moved and picked according to the sizes of the holes; adding a new yarn nozzle independent weaving connection area at the left edge and the right edge of the eyelet respectively; enabling the needle and the hole to be mutually crossed until the edge of the hole is reached in a knitting and needle moving mode; and taking out yarn mouths at the knitting connection part, finally moving the edge coils to the middle in sequence, and digging and filling holes at the empty needle positions generated by needle moving at the same time until the middle parts are combined. The mesh structure woven by the weaving method has a novel and attractive mesh effect, and the quality of a finished product is greatly improved.

Description

Knitted garment mesh structure and knitting method thereof

Technical Field

The invention relates to the field of knitting, in particular to a mesh structure of knitted clothes and a knitting method thereof.

Background

With the continuous increase of the types of knitting products of the flat knitting machine, the continuous expansion of the product field, the continuous upgrading of hardware equipment and the increasingly obvious trend of the market diversity of consumers, the demand for developing knitting organization structures is increased. As shown in fig. 2, the traditional mesh-like hole effect is achieved by arranging and combining a plurality of holes to form a mesh-like structure through a needle-moving and hole-picking mode, or by manually connecting the holes. Therefore, the edge of the hole of the traditional large-mesh structure is not smooth enough, and the product quality is influenced; the manual connection time and cost are too high, which is not suitable for market promotion, and can not meet the requirement of the market on the gradual improvement of the clothing design innovation, so that a new mesh tissue is to be developed.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a knitted garment mesh structure, which generates a novel and attractive hole effect by changing the operation mode of a yarn nozzle and the mode of moving a needle simultaneously, and greatly improves the quality of a finished product, thereby providing a new knitting structure for the hole structure of the knitted garment.

The technical scheme of the invention is that a mesh structure of knitted clothes is provided, which comprises meshes on a fabric, wherein the meshes are knitted in a left-right separated knitting mode, and needles are sequentially moved according to the sizes of holes to pick the holes; adding a new yarn nozzle independent weaving connection area at the left edge and the right edge of the eyelet respectively; enabling the needle and the hole to be mutually crossed until the edge of the hole is reached in a knitting and needle moving mode; and taking out the yarn mouths in the knitting connection area, finally moving the edge coils to the middle in sequence, and digging and filling holes in the empty needle positions generated by needle movement at the same time until the middle parts are combined.

The present invention also provides a knitting method of a mesh structure of a knitted garment using a flat knitting machine having a pair of or more front and back needle beds extending in a left-right direction and facing each other in a front-back direction, comprising the steps of,

step 1: after 2 rows of left and right knitting are respectively carried out, the right edge coil of the left knitting area is moved to the left, and the left edge coil of the right knitting area is moved to the right, so that a middle hole area is left; repeating the above actions according to the size requirement of the meshes until the size of the mesh area is in accordance with the design requirement;

and 2, step: knitting 2 rows of the right side knitting area, moving two needles on the left side edge of the right side knitting area to the left by 2 needles respectively, simultaneously filling one needle to a right side empty needle position through needle digging, bringing the needle to a yarn nozzle B, and performing tuck knitting back and forth on the right side of the needle filling position; the yarn nozzle B weaves the needle position of the needle to be repaired on the left, and weaves the needle position of the left side of the needle position to be repaired on the right again; the yarn nozzle B weaves the third and the fourth needle positions on the left side of the right side weaving area in a left row, and then weaves the two needle positions in a right row; finally, performing two-twisting and two-twisting action on the left four needles of the right knitting area;

and step 3: knitting 2 rows of the left knitting area, moving two needles on the edge of the right side of the left knitting area to the right by 2 needles respectively, simultaneously filling one needle to a left empty needle position by digging the needle, bringing the needle to a yarn nozzle A, and performing tuck knitting back and forth on the left side of the needle filling position; the yarn nozzle A weaves the needle position of the needle again in the right row, and then weaves the empty needle position of the right side of the needle position in the left row; the yarn nozzle A weaves a third needle position and a fourth needle position on the right side of the left side weaving area in the right row, and then weaves the two needle positions in the left row; finally, performing two-twisting and two-twisting action on the four right needles of the left knitting area;

and 4, step 4: knitting the left and right knitting areas respectively to remove other needle position loops of the edge connecting loop needle position, and adjusting the knitting line number according to the mesh height requirement;

and 5: the yarn nozzle B weaves a right connecting coil, the number of weaving lines is adjusted according to the requirement of mesh height, and needles are gradually moved to the left while weaving; the yarn nozzle A weaves left connecting coils, the number of weaving lines is adjusted according to the requirement of mesh height, and needles are gradually moved to the right while weaving; until the connecting coils at the two sides are adjacent and positioned at the middle needle position of the mesh;

step 6: performing cable crossing on the left and right connecting coils, and then continuously moving the left connecting coil to the right until the left edge of the right knitting area; then the right side connecting coil continues to move the needle to the left until the right side edge of the left side knitting area; a yarn outlet nozzle A and a yarn outlet nozzle B are arranged; at the moment, the left connecting coil is merged into the right weaving area, and the right connecting coil is merged into the left weaving area;

and 7: knitting 1 row of the right knitting area, moving a left edge coil of the right knitting area to the left, simultaneously filling empty needle positions generated by needle movement in a needle digging and hole filling mode, and then knitting 1 row of the right knitting area; knitting 1 row of the left knitting area, moving the right edge coil of the left knitting area to the right, simultaneously filling the empty needle positions generated by needle movement in a needle digging and hole filling mode, and knitting 1 row of the left knitting area; and repeating the steps until the coil in the whole eyelet area is completely repaired to form a closed opening.

Compared with the prior art, the invention has the following advantages after adopting the scheme: through changing yarn mouth running mode, move the mode of needle simultaneously, make it produce a novel pleasing to the eye effect of hole, improve the finished product quality greatly, add yarn mouth and weave the connection module, cross connection forms netted effect. Plays an important role in the development of the mesh structure of the fully-formed clothes. The method breaks through the limitations of the traditional product process method, belongs to the initiative in the industry, plays a certain role in better explaining the design concept and improving the quality, artistic value and aesthetic value of the product, and provides a wider development space for the development and market of the knitted product; in the aspect of industrial practicability, the knitting method can be widely applied to all computerized flat knitting machines. Can meet and attract more consumer groups and promote the international influence of the knitting industry in China.

Drawings

Figure 1 is a schematic view of the stitches of the mesh structure of the knitted garment of the invention.

Fig. 2 is a schematic view of a prior art coil of mesh tissue.

FIG. 3 is a knitting diagram of the knitting method of the mesh structure of the knitted garment according to the embodiment of the invention.

Detailed Description

The invention will be further described with respect to specific embodiments in conjunction with the following drawings:

as shown in figure 1, the mesh structure of the knitted garment comprises meshes on the fabric, wherein the meshes are knitted in a mode of weaving left and right separately, and needles are sequentially moved and holes are picked according to the sizes of holes; adding a new yarn nozzle independent weaving connection area at the left edge and the right edge of the hole respectively; enabling the needle and the hole to be mutually crossed until the edge of the hole is reached in a knitting and needle moving mode; and taking out the yarn mouths in the knitting connection area, finally moving the edge coils to the middle in sequence, and digging and filling holes in the empty needle positions generated by needle movement at the same time until the middle parts are combined. Forming a new mesh effect.

Example 1

The knitting of the mesh structure of the knitted garment can be realized by changing the operation mode of the yarn nozzle and simultaneously moving the needles, so that a novel and attractive hole effect is generated, the quality of a finished product is greatly improved, the traditional tissue form with monotonous mesh tissue is changed, and the edge of the knitted garment is smooth.

For better expression and understanding, the knitting method of the mesh structure of knitted clothes as shown in fig. 3 uses a flat knitting machine having a pair of or more front and back needle beds extending in the left-right direction and opposed to each other in the front-back direction, and two connecting stitches are knitted individually by a yarn feeder a and a yarn feeder B, respectively, including the steps of,

step 1: after 2 rows of left and right knitting are respectively carried out, the right edge coil of the left knitting area is moved to the left, and the left edge coil of the right knitting area is moved to the right, so that a middle hole area is left; repeating the above actions according to the size requirement of the meshes until the size of the mesh area is in accordance with the design requirement;

and 2, step: knitting 2 rows of the right side knitting area, moving two needles on the left side edge of the right side knitting area to the left by 2 needles respectively, simultaneously repairing one needle to a right side empty needle position by digging the needle, bringing the needle to a yarn nozzle B, and performing tuck knitting back and forth on the right side of the needle repairing position; the yarn nozzle B weaves the needle position of the needle to be repaired on the left, and weaves the needle position of the left side of the needle position to be repaired on the right again; the yarn nozzle B weaves the third and fourth needle positions on the left side of the right side weaving area in the left row, and then weaves the two needle positions in the right row; finally, performing two-twisting and two-twisting action on the left four needles of the right knitting area, wherein the step is the initial action of connecting a yarn nozzle B with a coil;

and step 3: knitting 2 rows of the left knitting area, moving two needles on the edge of the right side of the left knitting area to the right by 2 needles respectively, simultaneously filling one needle to a left empty needle position by digging the needle, bringing the needle to a yarn nozzle A, and performing tuck knitting back and forth on the left side of the needle filling position; the yarn nozzle A weaves the needle position of the needle again in the right row, and then weaves the empty needle position of the right side of the needle position in the left row; the yarn nozzle A weaves a third needle position and a fourth needle position on the right side of the left side weaving area in the right row, and then weaves the two needle positions in the left row; finally, performing two-twisting and two-twisting action on the four needles on the right side of the left side knitting area, wherein the step is the initial action of connecting a yarn nozzle A with a coil;

and 4, step 4: respectively knitting the left knitting area and the right knitting area to remove other needle position loops of the edge connecting loop needle position, and adjusting the knitting line number according to the mesh height requirement;

and 5: the yarn nozzle B weaves a right connecting coil, the number of weaving lines is adjusted according to the requirement of mesh height, and needles are gradually moved to the left while weaving; the yarn nozzle A weaves left connecting coils, the number of weaving lines is adjusted according to the requirement of mesh height, and needles are gradually moved to the right while weaving; until the connecting coils at the two sides are adjacent and positioned at the middle needle position of the mesh;

step 6: performing cable crossing on the left and right connecting coils, and then continuously moving the left connecting coil to the right until the left edge of the right knitting area; then, the right connecting coil is continuously moved leftwards until the right edge of the left knitting area; a yarn outlet nozzle A and a yarn outlet nozzle B are arranged; at the moment, the left connecting coil merges into the right weaving area, and the right connecting coil merges into the left weaving area;

and 7: knitting 1 row of the right knitting area, moving a left edge coil of the right knitting area to the left, simultaneously filling empty needle positions generated by needle movement in a needle digging and hole filling mode, and then knitting 1 row of the right knitting area; knitting 1 row of the left knitting area, moving the right edge coil of the left knitting area to the right, simultaneously filling the empty needle positions generated by needle movement in a needle digging and hole filling mode, and knitting 1 row of the left knitting area; and repeating the steps until the coil in the whole eyelet area is completely repaired to form a closed opening.

The knitting method of the invention generates a novel and beautiful hole effect by changing the running mode of the yarn nozzle and the mode of moving the needle simultaneously, greatly improves the quality of finished products, and adds the yarn nozzle knitting connection module to form a net effect by cross connection. Plays an important role in the development of the mesh structure of the fully-formed clothes. The method breaks through the limitations of the traditional product process method, belongs to the initiative in the industry, plays a certain role in better explaining the design concept and improving the quality, artistic value and aesthetic value of the product, and provides a wider development space for the development and market of the knitted product; in the aspect of industrial practicability, the knitting method can be widely applied to all computerized flat knitting machines. Can meet and attract more consumer groups and promote the international influence of the knitting industry in China.

The foregoing is illustrative of the preferred embodiments of the present invention only and is not to be construed as limiting the claims. All the equivalent structures or equivalent process changes made by the description of the invention are included in the scope of the patent protection of the invention.

Claims (2)

1. A knitted garment mesh construction comprising a mesh on a fabric, characterized in that: the meshes are woven in a mode of weaving left and right separately, and needles are sequentially moved according to the sizes of holes to pick up the holes; adding a new yarn nozzle independent weaving connection area at the left edge and the right edge of the eyelet respectively; enabling the needle and the hole to be mutually crossed until the edge of the hole is reached in a knitting and needle moving mode; and taking out the yarn mouths in the knitting connection area, finally moving the edge coils to the middle in sequence, and digging and filling holes in the empty needle positions generated by needle movement at the same time until the middle parts are combined.

2. The knitting method of a mesh structure of a knitted garment according to claim 1, using a flat knitting machine having a pair of or more front and back needle beds extending in a left-right direction and facing each other in a front-back direction, characterized in that: comprises the following steps of (a) carrying out,

step 1: after 2 rows of knitting are respectively carried out on the left side and the right side, the right edge coil of the left side knitting area is moved to the left side, and the left edge coil of the right side knitting area is moved to the right side, so that a middle hole area is left; repeating the above actions according to the size requirement of the meshes until the size of the mesh area is in accordance with the design requirement;

step 2: knitting 2 rows of the right side knitting area, moving two needles on the left side edge of the right side knitting area to the left by 2 needles respectively, simultaneously filling one needle to a right side empty needle position through needle digging, bringing the needle to a yarn nozzle B, and performing tuck knitting back and forth on the right side of the needle filling position; the yarn nozzle B weaves the needle position of the needle to be repaired on the left, and weaves the needle position of the left side of the needle position to be repaired on the right again; the yarn nozzle B weaves the third and the fourth needle positions on the left side of the right side weaving area in a left row, and then weaves the two needle positions in a right row; finally, performing two-twisting and two-twisting action on the left four needles of the right knitting area;

and 3, step 3: knitting 2 rows of the left knitting area, moving two needles on the edge of the right side of the left knitting area to the right by 2 needles respectively, simultaneously filling one needle to a left empty needle position by digging the needle, bringing the needle to a yarn nozzle A, and performing tuck knitting back and forth on the left side of the needle filling position; the yarn nozzle A weaves the needle position of the needle again in the right row, and then weaves the empty needle position of the right side of the needle position in the left row; the yarn nozzle A carries out right-hand knitting on the third and fourth needle positions on the right side of the left-hand knitting area, and then carries out left-hand knitting on the two needle positions; finally, performing two-twisting and two-twisting action on the four right needles of the left knitting area;

and 4, step 4: knitting the left and right knitting areas respectively to remove other needle position loops of the edge connecting loop needle position, and adjusting the knitting line number according to the mesh height requirement;

and 5: the yarn nozzle B weaves a right connecting coil, the number of weaving lines is adjusted according to the requirement of mesh height, and needles are gradually moved to the left while weaving; the yarn nozzle A weaves left connecting coils, the number of weaving lines is adjusted according to the requirement of mesh height, and needles are gradually moved to the right while weaving; until the connecting coils at the two sides are adjacent and positioned at the needle position in the middle of the mesh;

step 6: performing cable crossing on the left and right connecting coils, and then continuously moving the left connecting coil to the right until the left edge of the right knitting area; then, the right connecting coil is continuously moved leftwards until the right edge of the left knitting area; a yarn outlet nozzle A and a yarn outlet nozzle B are arranged; at the moment, the left connecting coil merges into the right weaving area, and the right connecting coil merges into the left weaving area;

and 7: knitting 1 row in the right knitting area, moving the left edge stitch of the right knitting area to the left, simultaneously filling the empty needle positions generated by needle movement in a needle digging and hole filling mode, and then knitting 1 row in the right knitting area; knitting 1 row in the left knitting area, moving the right edge stitch of the left knitting area to the right, simultaneously filling the empty needle positions generated by needle moving in a needle digging and hole filling mode, and knitting 1 row in the left knitting area; and repeating the steps until the coil in the whole eyelet area is completely repaired to form a closed opening.

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