阅读说明：本技术 一种两个双层片的套针拼合方法和装置 (Method and device for splicing two double-layer pieces of trocars ) 是由 黄辉 于 2019-10-21 设计创作，主要内容包括：本发明公开了一种两个双层片的套针拼合方法及装置,用于编织毛衫衣物,第1-4行,是互不相连的两个双层片,循环编织行数,编织至需要拼合位时,通过扩展和移动第一双层片和第二双层片的编织针位完成不同的编织动作；将两个纱嘴对应针位的两个线圈合并为1个线圈,完成拼合,再通过编织的方式完成套针；所述套针,双层片原面层线圈,先翻到底针床,编织1行底线圈后踢纱嘴,双层片原底层线圈,先翻到面针床,编织1行面线圈后踢纱嘴。本发明解决了无需缝合的毛衫类衣物穿着的舒适感不足的问题,使得相连部位有一个平位,主要在腋下、裤裆位置等,从而使衣物更符合人体工学,穿着更舒适。(The invention discloses a trocar splicing method and a trocar splicing device of two double-layer pieces, which are used for weaving sweater clothes, wherein the 1 st row to the 4 th row are two double-layer pieces which are not mutually connected, the number of weaving rows is circularly woven, and when the sweater clothes are woven to a position needing splicing, different weaving actions are completed by expanding and moving the weaving needle positions of the first double-layer piece and the second double-layer piece; combining two loops of the two yarn mouths corresponding to the needle positions into 1 loop to complete splicing, and then completing the trocar by a weaving mode; the trocar is used for turning over the double-layer primary surface layer coils to the bottom needle bed firstly to weave the 1-row bottom coils and then kicking the yarn nozzle, and the double-layer primary surface layer coils are turned over to the surface needle bed firstly to weave the 1-row bottom coils and then kicking the yarn nozzle. The invention solves the problem of insufficient comfortable feeling of the sweater clothes without sewing, and the connected parts have a flat position mainly at the armpit position, the crotch position and the like, thereby leading the clothes to be more in line with the human engineering and being more comfortable to wear.)

1. A method of split trocar of two-ply pieces, the method comprising:

weaving sweater clothes, wherein the 1 st row to the 4 th row are two double-layer pieces which are not mutually connected, the number of the weaving rows is circularly woven, and when the sweater clothes are woven to a required splicing position, different weaving actions are completed by expanding and moving the weaving needle positions of the first double-layer piece and the second double-layer piece;

combining two loops of the two yarn mouths corresponding to the needle positions into 1 loop to complete splicing, and then completing the trocar by a weaving mode;

the trocar is used for turning over the double-layer primary surface layer coils to the bottom needle bed firstly to weave the 1-row bottom coils and then kicking the yarn nozzle, and the double-layer primary surface layer coils are turned over to the surface needle bed firstly to weave the 1-row bottom coils and then kicking the yarn nozzle.

2. A method of split trocar stitching of two bilayer slices according to claim 1, further comprising: in the process of the trocar, before the position of the needle needs to be turned over, a knurling instruction is executed, and needle pressing is completed.

3. A method of split trocar stitching of two bilayer slices as claimed in claim 2, further comprising: and synchronously moving the needle while finishing combining the coils.

4. A method of split trocar stitching of two-ply pieces according to claim 3, further comprising: the primary layer coil, the knitting yarn mouth is the yarn mouth of the front knitting surface of the trocar, the primary bottom layer coil and the knitting yarn mouth are the yarn mouths of the front knitting bottom of the trocar.

5. A method of trocar split of two bilayer slices as claimed in claim 4, further comprising: and (3) adopting a hole-filling pattern making mode after the yarn nozzle weaves the belt to the side position or continuously weaves 2 rows of upper thread loops.

6. A method of trocar split of two bilayer slices as claimed in claim 5, further comprising: before the trocar, the stitches on the needle beds are turned to the surface, and before the surface layer is knitted on the 98 th row, the stitches of the bottom needle bed corresponding to the knitting position are turned back to the bottom.

7. A process for trocar assembly of two double layers according to claim 1 wherein the first double layer sheet is a No. 3 nozzle and the second double layer sheet is a No. 5 nozzle.

8. A method of trocar split of two bilayer slices according to any of claims 1 to 7, further comprising: after the double-layer trocar needle splicing is completed, the No. 5 yarn nozzle knitted by the 109 th row of loops after stopping at the trocar needle position and influencing the communication is sent out in 108 rows by adopting a pattern making mode.

9. A two-piece trocar split device, comprising:

the first weaving module weaves the 1 st to 4 th rows in a circulating way, the 1 st to 4 th rows are two double-layer sheets which are not mutually connected, and different weaving actions are completed by expanding and moving the weaving needle positions of the first double-layer sheet and the second double-layer sheet when the weaving is to the required splicing position;

the splicing module is used for merging two coils of the two yarn mouths corresponding to the needle positions into 1 coil to complete splicing, and then completing the trocar by a weaving mode;

and the second weaving module is used for finishing a trocar, turning over the double-layer primary surface layer coils to the bottom needle bed firstly, weaving 1 row of bottom coils and then kicking the yarn nozzle, turning over the double-layer primary surface layer coils to the surface needle bed firstly, and weaving 1 row of surface coils and then kicking the yarn nozzle.

10. A computer-readable storage medium, characterized in that the program, when executed by a processor, implements the trocar split method of two-ply pieces according to any one of claims 1-8;

the computer readable storage medium has stored therein instructions which, when run on a computer, cause the computer to perform the method of split trocar of two-ply pieces according to any one of claims 1 to 8.

Technical Field

The invention belongs to the field of knitting, and particularly relates to a trocar splicing method and a trocar splicing device for two double-layer pieces.

Background

Due to ergonomic considerations, the garment is generally positioned in the armpit (or crotch) of the pants. The sweater clothes needing to be sewn can be generally made into trocars, the sweater clothes needing to be sewn do not need to be sewn, and the wearing comfort is greatly reduced because the trocars are not made.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a trocar splicing method and a trocar splicing device of two double-layer pieces.

The technical scheme is as follows:

a method of trocar split of two bilayer pieces, the method comprising: weaving sweater clothes, wherein the 1 st row to the 4 th row are two double-layer pieces which are not mutually connected, the number of the weaving rows is circularly woven, and when the sweater clothes are woven to a required splicing position, different weaving actions are completed by expanding and moving the weaving needle positions of the first double-layer piece and the second double-layer piece;

combining two loops of the two yarn mouths corresponding to the needle positions into 1 loop to complete splicing, and then completing the trocar by a weaving mode;

the trocar is used for turning over the double-layer primary surface layer coils to the bottom needle bed firstly to weave the 1-row bottom coils and then kicking the yarn nozzle, and the double-layer primary surface layer coils are turned over to the surface needle bed firstly to weave the 1-row bottom coils and then kicking the yarn nozzle.

Further, the method further comprises: in the process of the trocar, before the position of the needle needs to be turned over, a knurling instruction is executed, and needle pressing is completed.

Further, the method further comprises: and synchronously moving the needle while finishing combining the coils.

Further, the method further comprises: the primary layer coil, the knitting yarn mouth is the yarn mouth of the front knitting surface of the trocar, the primary bottom layer coil and the knitting yarn mouth are the yarn mouths of the front knitting bottom of the trocar.

Further, the method further comprises: and (3) adopting a hole-filling pattern making mode after the yarn nozzle weaves the belt to the side position or continuously weaves 2 rows of upper thread loops.

Further, the method further comprises: before the trocar, the stitches on the needle beds are turned to the surface, and before the surface layer is knitted on the 98 th row, the stitches of the bottom needle bed corresponding to the knitting position are turned back to the bottom.

Further, the yarn feeder used for the first double-layer sheet is a yarn feeder of No. 3, and the yarn feeder used for the second double-layer sheet is a yarn feeder of No. 5.

The method further comprises the following steps: after the double-layer trocar needle splicing is completed, the No. 5 yarn nozzle knitted by the 109 th row of loops after stopping at the trocar needle position and influencing the communication is sent out in 108 rows by adopting a pattern making mode.

It is another object of the present invention to provide a two-ply trocar split device comprising:

the first weaving module weaves the 1 st to 4 th rows in a circulating way, the 1 st to 4 th rows are two double-layer sheets which are not mutually connected, and different weaving actions are completed by expanding and moving the weaving needle positions of the first double-layer sheet and the second double-layer sheet when the weaving is to the required splicing position;

the splicing module is used for merging two coils of the two yarn mouths corresponding to the needle positions into 1 coil to complete splicing, and then completing the trocar by a weaving mode;

and the second weaving module is used for finishing a trocar, turning over the double-layer primary surface layer coils to the bottom needle bed firstly, weaving 1 row of bottom coils and then kicking the yarn nozzle, turning over the double-layer primary surface layer coils to the surface needle bed firstly, and weaving 1 row of surface coils and then kicking the yarn nozzle.

A computer readable storage medium, which when executed by a processor implements the two-ply trocar split method;

the computer readable storage medium has stored therein instructions that, when executed on a computer, cause the computer to perform the two-ply trocar split method.

The invention has the technical effects that: the split method of the trocars of the two double-layer pieces is used for manufacturing the knitted clothes, the connecting parts of the two double-layer pieces are provided with a flat position which is mainly positioned at the armpit position, the crotch position and the like, so that the clothes are more in line with the human engineering and are more comfortable to wear.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a flow chart of a weaving process according to an embodiment of the present invention;

FIG. 2 is a flow chart of a weaving process according to an embodiment of the present invention;

FIG. 3 is a flow chart of a weaving process according to an embodiment of the present invention;

FIG. 4 is a flow chart of a weaving process according to an embodiment of the present invention;

fig. 5 is a block diagram of device modules according to an embodiment of the invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and embodiments, it being understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention.

One example of a method for stitching the trocars of two double-layer pieces, as shown in fig. 1, lines 1-4, is two double-layer pieces that are not connected to each other and are distinguished by yarn feeders, the yarn feeder No. 3 knitting the E-V needle positions in lines 1-2 and the yarn feeder No. 5 knitting the a-D needle positions in lines 3-4. Or the number of weaving rows can be 3-6.

The rear weaving area of the No. 5 yarn nozzle on the 7 th row is expanded to the F-th needle position from the original D-needle position, and meanwhile, the front weaving area of the No. 3 yarn nozzle on the 13 th row is expanded to the C-needle position from the original E-needle position.

To make the facing more aesthetically pleasing, lines 9, 11, and 13 are assembled by knitting the same as line 5, but at different densities (line 11, using tightness).

In lines 17 and 18, the surface and bottom needles of 2 double-layer sheets are crossed to avoid holes after connection. The line pressing action is completed in 16 rows and 19 rows synchronously.

In rows 14, 15, and 22, the bottom needles of the original two double-layer panels are turned over to the needle bed.

In fig. 2, the number of rows shown in fig. 1 is the same as that in the 24 th row, and the needle moving operation of the H needle position is performed by moving the 3 rd yarn feeder to the left to avoid the sticking (23 th row).

The trocar splicing method is characterized in that the stitches of a D needle position and a B needle position woven by a No. 5 yarn feeder are combined into 1 stitch, the stitches of a C needle position and an A needle position woven by the No. 5 yarn feeder are combined into 1 stitch, the stitches of an F needle position and an H needle position woven by a No. 3 yarn feeder are combined into 1 stitch, the stitches of an E needle position and a G needle position woven by a No. 3 yarn feeder are combined into 1 stitch, and the trocar is finished in a weaving mode.

Surface layer of No. 5 yarn nozzle: the C bit loop is moved to the I position back needle bed in the line 28, the I position back needle bed loop is moved to the E position front needle bed in the line 29, and the E position front needle bed loop is moved to the I position back needle bed in the line 31; the stitch at the needle position C and the stitch at the needle position A are merged into 1 stitch (overlapped on the back needle bed at the needle position I) by 27 rows of transferring the stitch at the needle position A to the back needle bed at the needle position G, 34 rows of transferring the stitch at the needle bed at the needle position G to the needle bed at the needle position E and 36 rows of transferring the stitch at the needle bed at the needle position E to the back needle bed at the needle position I.

Bottom layer of No. 5 yarn nozzle: in line 28, the D bit stitch is shifted to the J back needle bed, and in line 29, the J back needle bed stitch is shifted to the F front needle bed; the 27 rows move the stitch at the needle position B to the back needle bed at the needle position H, and the 30 rows move the stitch at the back needle bed at the needle position H to the front needle bed at the needle position F, so that the effect of combining the stitch at the needle position D and the stitch at the needle position B into 1 stitch (the front needle bed overlapped at the needle position F) is achieved. However, since the front needle bed stitch of the front 5-gauge yarn feeder is moved to the back needle bed at the I position and the front and bottom stitches are not separated too far, the front needle bed stitch at the F position is moved to the back needle bed at the J position by the 36-row operation.

Surface layer of No. 3 yarn nozzle: the 27 rows move the stitch at the E needle position to the back needle bed at the K needle position, and the 38 rows move the stitch at the G needle position to the back needle bed at the K needle position, so that the stitch at the E needle position and the stitch at the G needle position are merged into 1 stitch (overlapped on the back needle bed at the K needle position).

Bottom layer of No. 3 yarn nozzle: the stitches in the H needle position are transferred to the back needle bed in the L needle position in the 24 rows, and the stitches in the F needle position are transferred to the back needle bed in the L needle position in the 27 rows, so that the effect of merging the stitches in the F needle position and the H needle position into 1 stitch (overlapped on the back needle bed in the L needle position) is achieved.

To this end, the original No. 5 yarn feeder surface layer is subjected to needle folding on the back needle bed at the I needle position, the original No. 5 yarn feeder bottom layer is subjected to needle folding on the back needle bed at the J needle position, the original No. 3 yarn feeder surface layer is subjected to needle folding on the full back needle bed of K needles, and the original No. 3 yarn feeder bottom layer is subjected to needle folding on the back needle bed at the L needle position.

The trocar is used by the method that: the original surface layer coil needs to be turned over to the bottom needle bed firstly, 1 line of bottom coils are knitted, then a yarn nozzle is kicked, and the yarn nozzle used for knitting is a yarn nozzle on the front knitting surface of the trocar; the original bottom layer coil needs to be turned over to a needle bed, 1 row of upper thread coils are knitted, then a yarn nozzle is kicked, and the yarn nozzle used for knitting is a yarn nozzle for knitting the bottom in front of a trocar.

In line 39, the No. 3 yarn feeder weaves back needle beds of I and K needle positions, namely the needle folding position of the original No. 5 yarn feeder surface layer and the needle folding position of the original No. 3 yarn feeder surface layer, and two double-layer piece surface layer coil trocars are completed;

in rows 41 and 42, the back needle bed stitch of I, J, K, L is transferred to the front needle bed at the E, F, G, H needle position.

In the 45 th row, the No. 5 yarn feeder weaves front needle beds of F and H needle positions, namely the needle folding position of the bottom layer of the original No. 5 yarn feeder and the needle folding position of the bottom layer of the original No. 3 yarn feeder, and the bottom layer coil trocar with two double-layer pieces is completed.

By the method, the surface layer coil trocar and the bottom layer coil trocar with two double layers are continuously completed.

The movements of lines 26, 32, 35 and 40 in fig. 2 are performed by pressing the needle to stabilize the trocar movement using a knurling command before the needle needs to be flipped.

The operation in line 37 is similar to that in line 23, and is to avoid the yarn feeder No. 3 from winding in to cause adhesion when the needle is turned over.

When the needle is moved to the trocar, the original knitting position of the No. 5 yarn nozzle is that all the coils follow the shaking table, and the needle moving movement is synchronously performed while the overlapping of the coils is completed. The specific number of the shaking tables is calculated according to the limitation of the machine shaking tables and the actual number of the trocars.

Fig. 1 to 4, complete 4 sets of trocars for the 3-size yarn feeder and 4 sets of trocars for the 5-size yarn feeder. The repeated actions only have 3 needles, and the needles can be viewed through the knitting rows of the trocar. Specifically 39 and 45 rows, 62 and 68 rows, 85 rows and 100 rows, respectively. When the needle is trotted for the 2 nd time, because the No. 3 yarn nozzle is woven to the edge position (the 98 th row), in order to avoid holes on the surface layer, the holes are filled by the pattern making action respectively at the M needle position and the K needle position in 94 rows and 95 rows.

The last trocar is finished by narrowing the needle at the edge (the 101 st row-107 th row), and the trocar is arranged to the right. Before this, the 3-yarn feeder has finished knitting, and can be knitted to the side position (line 98). Because the stitches on all needle beds are turned to the surface before the needle is turned, in order to avoid the cross adhesion of the surface layer and the bottom layer, the stitches of the bottom needle bed corresponding to the knitting position need to be turned back to the bottom (the 93 th row) before the surface layer is knitted on the 98 th row. When the last needle is collected, the needle is turned over to the coil position of the 3 rd trocar. The loops knitted by the No. 3 yarn feeder in the 85 th row are respectively at the needle position E and the needle position G, the loops are moved to the needle positions I and K by the needle moving actions of 87 and 88, while the loops knitted by the No. 5 yarn feeder in the 100 th row are on the needle positions J and L, the No. 5 yarn feeder is a trocar of the bottom loop, so the loop (B, D, F, H, J, L) which is to belong to the bottom is turned over to the back needle bed, and then the needle retracting action of the back needle bed is completed. Also because the needle is set to the right, the 2 needles at the most edge need to be overlapped reversely, and the stitch is narrowed to be good. The reversed 2 loops are respectively J, L needle positions of the 102 th row and L and N needle positions of the 104 th row. All underlying trocar movements are completed. The number of the last trocar rows of the surface layer coil is 105-107 rows, wherein the I needle position and the K needle position of the 105 rows and the K needle position and the M needle position of the 107 rows are reversed loops. After the double-layer trocar splicing is completed, the 5-size yarn nozzle still stops at the trocar position, which can affect the knitting of the connected loops (line 109), so that the yarn nozzle is printed and sent out in line 108.

Since the 9-13, 98 rows weave 1 turn of face loops inside the trocar (right trocar), after the 109 rows weave the bottom 1 row, the 110-113 rows weave 1 turn of face loops continuously outside the trocar. The continuous knitting 2 rows of surface coils have holes at the rotary position, the holes need to be filled in a pattern making mode, namely the action of a 111 row M needle position, and a special stitch section is used for adjusting the stitch, so that the holes are more attractive.

And the 114 and 115 rows are weaved by splicing two double-layer pieces together through a trocar, and a flat position is arranged at the connected part after weaving, mainly at the positions of armpits, crotch and the like, so that the clothes are more in line with the human engineering and are more comfortable to wear.

The device for realizing the trocar splicing method of two double-layer pieces comprises the following steps:

the first weaving module 101 circularly weaves the 1 st to 4 th rows, wherein the 1 st to 4 th rows are two mutually unconnected double-layer pieces, and different weaving actions are completed by expanding and moving the weaving needle positions of the first double-layer piece and the second double-layer piece when the weaving is to the needed splicing position;

the splicing module 102 is used for merging two coils corresponding to needle positions of the two yarn mouths into 1 coil to complete splicing, and then completing the trocar by a weaving mode;

the second weaving module 103 is used for completing a trocar, turning over the double-layer primary surface layer coils to the bottom needle bed first, and then kicking the yarn nozzle after weaving 1 row of bottom coils, and turning over the double-layer primary bottom layer coils to the top needle bed first, and then kicking the yarn nozzle after weaving 1 row of surface coils.

A computer readable storage medium, which when executed by a processor implements the two-ply trocar split method;

the computer readable storage medium has stored therein instructions that, when executed on a computer, cause the computer to perform the two-ply trocar split method.

The present invention is not limited to the above preferred embodiments, and any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.