CN112553756A - Anti-run-off process for knitted tassels of knitted sweater - Google Patents

Abstract

The invention discloses a fringe anti-falling off process for knitting a sweater, wherein when a fringe structure is knitted, a front needle bed and a rear needle bed simultaneously lift up to knit a coil, then a knitting needle for knitting a loop on the rear needle bed is turned over to the front needle bed, and a surrounding coil is formed on the front needle bed coil at the edge of the fringe structure. The invention relates to an anti-raveling process for knitted tassels of knitwear, which adopts a surrounding loop formed on the front needle bed loop at the edge of the tassels structure to generate stable edge effect, so that the loops at the edge of the tassels cannot be stretched and loosened to cause raveling and rotting edges in the using process. In addition, the knitting method adopts a spare machine head system for overturning, and the rotation stroke of the machine head is not increased, so that the knitting time is not increased, and the effects of improving the quality and saving the cost can be achieved.

Description

Anti-run-off process for knitted tassels of knitted sweater

Technical Field

The invention relates to the technical field of knitted sweater knitting, in particular to a fringe anti-falling off process for knitted sweater knitting.

Background

Tassels are drooping ears formed by a plurality of threads or floating threads floating in the middle of clothes, are widely applied and can be seen on clothes and ornaments with various colors.

The fringe structure of the prior art knitted shirt is formed by directly forming the floats after knitting the panels, as shown in fig. 1, which shows the front and back sides of the prior art fringe structure shown in fig. 1. The clothes with the tassel structure formed by the method have the phenomenon that the tassel edges are often stretched under force during the wearing process, and the coil is stretched, as shown in figure 2. The long time can cause the coil to be detached and the phenomenon of edge rot, as shown in figure 3, can cause the use of the clothes to be influenced. How to solve the problem that the fringe structure on the knitted sweater is not loosened and the edge is damaged after being used for a long time is a problem to be solved.

Disclosure of Invention

The invention aims to provide a fringe anti-raveling process for knitting a sweater, which can form a stable fringe effect on the fringe of a fringe structure and prevent a phenomenon that a coil is stretched and loosened to cause raveling.

In order to solve the technical problem, the invention aims to realize that:

the invention relates to a fringe anti-falling off process for knitting a sweater, wherein when a fringe structure is knitted, a front needle bed and a rear needle bed simultaneously lift up to knit a coil, then a knitting needle for knitting a loop on the rear needle bed is turned over to the front needle bed, and a surrounding coil is formed on the front needle bed coil at the edge of the fringe structure.

On the basis of the above scheme and as a preferable scheme of the scheme: the method sequentially comprises the following steps:

s1, the machine head moves from right to left, and the front needle bed and the back needle bed do not weave to form a floating long line with a set length;

s2, simultaneously lifting the back needle bed and the front needle bed to knit the loops;

s3, turning over the knitting needle knitted by the last step back needle bed to the front needle bed;

s4, knitting the single side of the front needle bed to a set length;

s5, moving the machine head from left to right, and weaving the front needle bed on one side;

s6, simultaneously lifting the front needle bed and the back needle bed to knit the loops;

s7, turning over the knitting needle knitted by the last step back needle bed to the front needle bed;

s8, the front needle bed and the back needle bed are not knitted to form a floating long line with a set length;

and repeating the steps.

On the basis of the above scheme and as a preferable scheme of the scheme: the knitting of the front needle bed in steps S4 and S5 is knitting.

On the basis of the above scheme and as a preferable scheme of the scheme: in step S2, the back needle bed and the front needle bed are simultaneously knitted by one stitch.

On the basis of the above scheme and as a preferable scheme of the scheme: in step S6, the back needle bed and the front needle bed are simultaneously knitted by one stitch.

The invention has the beneficial effects that: the invention relates to an anti-raveling process for knitted tassels of knitwear, which adopts a surrounding loop formed on the front needle bed loop at the edge of the tassels structure to generate stable edge effect, so that the loops at the edge of the tassels cannot be stretched and loosened to cause raveling and rotting edges in the using process. In addition, the knitting method adopts a spare machine head system for overturning, and the rotation stroke of the machine head is not increased, so that the knitting time is not increased, and the effects of improving the quality and saving the cost can be achieved.

Drawings

FIG. 1 is a front and back view of a prior art fringe structure;

FIG. 2 is a prior art drawing of a fringe structure coil;

FIG. 3 is a diagram of the rotten border of the fringe structure in the prior art;

FIG. 4 is a knitting structure diagram of the fringe anti-falling off process according to the present invention;

fig. 5 is a front and back view of a tassel structure woven by the tassel anti-falling off process according to the invention.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

Examples

The present embodiment will be described in detail with reference to fig. 4 to 5. According to the fringe anti-falling off process for knitting the sweater, when the fringe structure is knitted, the front needle bed and the back needle bed simultaneously raise needles to knit loops, then the knitting needles knitted by the back needle bed are turned over to the front needle bed, and a surrounding loop is formed on the front needle bed loop at the edge of the fringe of the fringe structure.

For a detailed explanation of the knitting process. The corresponding rows of knitting in each cycle are numbered 1-4 respectively.

In the knitting structure diagram shown in fig. 4, each row means that the head of the double-needle bed weft knitting computerized flat knitting machine runs once from left to right or from right to left. In each row, two rows of points refer to a front needle bed and a back needle bed, specifically, the lower row is the front needle bed, and the upper row is the back needle bed. And the knitting sequence of the whole knitted sweater is from bottom to top. And the flipping over of the needle mentioned in the present embodiment means that the needle is turned over from the front needle bed to the back needle bed or from the back needle bed to the front needle bed at the same needle position.

The specific knitting process of this example will be described in detail with reference to fig. 4. The method comprises the following steps in sequence:

and S1, the machine head moves from right to left, and the front needle bed and the back needle bed do not knit to form the floating long line with the set length. The formed floating long line part is tassel, and plays a role in decorating the knitted sweater.

And S2, simultaneously raising the knitting stitches of the back needle bed and the front needle bed. Specifically, in the step, the back needle bed and the front needle bed are simultaneously knitted by one loop, and the loops are knitted.

And S3, turning over the knitting needle knitted in the last step into the front needle bed. The knitting of the needle-flipper is schematically shown in the second row 2 of fig. 4. The machine head of the double-needle bed weft knitting computerized flat knitting machine used in the embodiment is two systems or multiple systems. After one system in the machine head finishes the action of simultaneously knitting the loops by the back needle bed and the front needle bed in the previous step, the other system can simultaneously execute the step, namely, the knitting needles knitted by the back needle bed in the previous step are turned over to the front needle bed. If a single-system machine head is used, after the machine head finishes the weaving in the previous step, the machine head performs a stroke from left to right to finish the needle turning action, the method increases the rotation stroke of the machine head and weaves the surrounding coils again, the method can increase the weaving time, the weaving is unstable, defective products are easy to generate, and the product effect is poor.

S4, the front needle bed is knitted to a set length on one side. The single-side knitting of the front needle bed is loop knitting. By this step the head completes a right to left stroke, see first row 1 and second row 2 in fig. 4. The first row 1 in fig. 4 represents steps S1, S2, and S4.

S5, the machine head moves from left to right, and the front needle bed is knitted on one side. After the machine head is woven from right to left, the machine head needs to move from left to right. And the front needle bed knitting in this step is all stitch knitting. And the length of the braid in this step is the same as that in step 4.

And S6, simultaneously knitting the front needle bed and the back needle bed to knit one coil. Specifically, in the step, the back needle bed and the front needle bed are simultaneously knitted by one loop, and the loops are knitted.

And S7, turning over the knitting needle knitted in the last step into the front needle bed. The knitting diagram of the needle-flipper is shown in the fourth row 4 of fig. 4. And the head of the weft knitting device used in this embodiment is two or more systems as in the step. That is, after one system in the machine head completes the simultaneous knitting and loop raising actions of the back needle bed and the front needle bed in the previous step, the other system can simultaneously execute the step. Same as step 3.

S8, the front needle bed and the back needle bed do not knit to form the float yarn with the set length, and the length of the float yarn knitted in this step is the same as that of the float yarn in step S1.

I.e., steps S5-S8, see third and fourth rows 3 and 4 of fig. 4. The third row 3 in fig. 4 represents steps S5, S6, and S8.

And repeating the steps when the circulation is completed.

By adopting the fringe anti-falling off process for knitting the sweater, when the fringe structure of the single-side plain stitch structure is knitted, a loop is knitted by raising a needle on a back needle bed, and then the needle is turned over to a front needle bed, and a surrounding loop is formed on the loop of the front needle bed on the fringe. So that a stable edge effect is generated at the edge of the fringe structure, as shown in fig. 5, the fringe structure prepared by the present invention has front and back sides. It can be seen that a loop is formed on the loops knitted on the front needle bed by needle turning over, so that the loops at the fringe edge are not stretched and loosened to cause edge breakage during use.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (5)

1. The process for knitting the fringe of the knitted sweater is characterized in that when the fringe structure is knitted, a front needle bed and a back needle bed simultaneously lift up to knit a coil, then a knitting needle knitted by the back needle bed is turned over to the front needle bed, and a surrounding coil is formed on the coil of the front needle bed at the edge of the fringe structure.

2. The tassel anti-run-off process for knitting the sweater according to claim 1, which is characterized by sequentially comprising the following steps:

s1, the machine head moves from right to left, and the front needle bed and the back needle bed do not weave to form a floating long line with a set length;

s2, simultaneously lifting the back needle bed and the front needle bed to knit the loops;

s3, turning over the knitting needle knitted by the last step back needle bed to the front needle bed;

s4, knitting the single side of the front needle bed to a set length;

s5, moving the machine head from left to right, and weaving the front needle bed on one side;

s6, simultaneously lifting the front needle bed and the back needle bed to knit the loops;

s7, turning over the knitting needle knitted by the last step back needle bed to the front needle bed;

s8, the front needle bed and the back needle bed are not knitted to form a floating long line with a set length;

and repeating the steps.

3. The tassel anti-unraveling process for knitting sweater according to claim 2, wherein the knitting of the front needle bed in steps S4 and S5 is a loop knitting.

4. The tassel anti-unraveling process of knitted shirt of claim 2, wherein in step S2, the back needle bed and the front needle bed are knitted by one stitch at the same time.

5. The tassel anti-unraveling process of knitted shirt of claim 2, wherein in step S6, the back needle bed and the front needle bed are knitted by one stitch at the same time.

Images