CN106120175B

CN106120175B - Sewing foot insertion system

Info

Publication number: CN106120175B
Application number: CN201610834670.2A
Authority: CN
Inventors: 黄耀强; 张润明; 黄木生; 刘远新
Original assignee: Guangdong Esquel Textiles Co Ltd; Guilin Esquel Textiles Co Ltd
Current assignee: Guangdong Esquel Textiles Co Ltd; Guilin Esquel Textiles Co Ltd
Priority date: 2016-09-20
Filing date: 2016-09-20
Publication date: 2022-09-16
Anticipated expiration: 2036-09-20
Also published as: CN106120175A

Abstract

The invention discloses a sewing foot inserting system. The sewing foot inserting system comprises a machine table, a feeding device, a stacking device, a feeding device and a sewing device. The feeding device is arranged on the machine table and used for feeding collar cut pieces and foot insertion cut pieces. The material stacking device is provided with a template and a pressing template, the template is provided with a material placing groove for placing collar cut pieces, the pressing template is used for pressing the collar cut pieces in the material placing groove and the inserted foot cut pieces overlapped on the collar cut pieces, and the pressing template is provided with a sewing channel. The feeding device is arranged on the machine table and used for driving the material stacking device, the collar cutting piece and the foot inserting cutting piece to move to the sewing station. The sewing device has the sewing station, and the sewing device is used for linking collar cut-parts and inserting foot cut-parts. The sewing foot inserting system saves time and labor.

Description

Sewing foot insertion system

Technical Field

The invention relates to the field of textile machinery, in particular to a sewing foot inserting system.

Background

In the clothing field, need the manual work to put cut-parts and carry out the sewing after supplementary cut-parts location again when this process of sewing plug foot on the market, the speed that the workman put the cut-parts has often decided the work efficiency of this process, the workman puts the cut-parts and has leaded to when having wasted manpower resources, output also can not be improved, and can not link with next process, the going on that makes next process must also go on through workman's participation, the whole production efficiency who leads to the assembly line is not high, the productivity effect has been reduced.

Disclosure of Invention

Accordingly, there is a need for a sewing foot insertion system that is labor-efficient and efficient.

A stitched plunge foot system comprising:

a machine platform;

the feeding device is arranged on the machine table and used for feeding collar cut pieces and pin cut pieces;

the material stacking device is provided with a template and a pressing template, the template is provided with a material placing groove for placing the collar cutting pieces, the pressing template is used for pressing the collar cutting pieces in the material placing groove and the foot inserting cutting pieces overlapped on the collar cutting pieces, and the pressing template is provided with a sewing channel;

the feeding device is arranged on the machine table and used for driving the material stacking device, the collar cutting piece and the insertion foot cutting piece to move to a sewing station; and

the sewing device, the sewing device has the sewing station, the sewing device is used for the joint close the collar cut-parts and insert the foot cut-parts.

In one embodiment, the feeding device is provided with a feeding frame, a feeding support plate, a first feeding groove, a second feeding groove, a first adhesion component and a second adhesion component, wherein the feeding support plate is positioned on the feeding frame, the first feeding groove is arranged on the feeding support plate and used for stacking collar cut pieces, and the second feeding groove is arranged on the feeding support plate and used for stacking foot insertion cut pieces.

In one embodiment, the template has a locating sheath thereon; the feeding device is provided with a feeding plate, a feeding driving part, a locking claw and a locking driving part, the feeding plate is positioned on a working table top of the machine table, the feeding driving part is arranged on the machine table and connected to the feeding plate, and the feeding driving part is used for driving the feeding plate to move to the sewing station along the working table top; the locking driving component is arranged on the feeding plate and connected to the locking claws, and the locking driving component can lock the positioning sheath by driving the feeding claws to close or release the positioning sheath by driving the feeding claws to open.

In one embodiment, the stacking device further comprises a connecting plate, the connecting plate is located on the upper surface of the feeding plate and connected to one side edge of the feeding plate, the die plate protrudes out of the side edge of the die plate, the connecting plate is further connected to the die plate, a clamping groove is formed in one side edge of the feeding plate, which is connected with the connecting plate, the positioning sheath is matched with the clamping groove, when the die plate moves below the die plate, the positioning sheath can be clamped in the clamping groove, and the positioning sheath protrudes out of the upper surface of the feeding plate.

In one embodiment, the number of the positioning sheaths and the number of the clamping grooves are both multiple, and the plurality of positioning sheaths and the plurality of clamping grooves correspond to each other one by one.

In one embodiment, the device further comprises a reset device; the template has spacing hole, resetting means has the seat that resets, the sheath that resets and the driver part that resets, the sheath that resets is established on the seat that resets, the driver part that resets is established on the board and connect in the seat that resets works as in the template the neck cut-parts with after the foot cut-parts joint has been accomplished, the driver part that resets is used for the drive the seat that resets removes extremely the below of template is so that the sheath that resets inserts spacing downthehole, the driver part that resets can also drive the template and die plate removes loading attachment department.

In one embodiment, the reset device further comprises a slide rail and a slide block, the slide rail is arranged on the machine platform, and the slide block is connected to the slide rail in a sliding manner;

the reset driving component is provided with a first reset driving element and a second reset driving element, the first reset driving element is arranged on the machine table and connected to the sliding block to drive the sliding block to move along the sliding rail, the second reset driving element is arranged on the sliding block and connected to the reset seat, and the second reset driving element is used for driving the reset seat to move longitudinally.

In one embodiment, the number of the die plates and the number of the die plates are both multiple, and the multiple die plates correspond to the multiple die plates one to one.

In one embodiment, the feeding device further comprises a feeding driving part and a feeding sensor, the feeding driving part is arranged on the feeding frame and located below the feeding supporting plate, the feeding driving part is used for driving the feeding supporting plate to ascend or descend, and the feeding sensor is arranged above the feeding supporting plate and used for detecting the heights of the collar cutting piece and the insertion foot cutting piece on the feeding supporting plate.

In one embodiment, the feeding device is provided with a plurality of baffle plates, the baffle plates are vertically connected to the feeding support plate to form the first feeding groove and the second feeding groove, the number of the second feeding grooves is two, the two second feeding grooves are located on two sides of the first feeding groove, the number of the second adhesion parts is two, and the two second adhesion parts correspond to the two second feeding grooves respectively.

The sewing foot inserting system is provided with the feeding device, and the feeding device is arranged on the machine table and used for feeding collar cut pieces and foot inserting cut pieces; the folding device is provided, the folding device is provided with a template and a pressing template, the template is provided with a material placing groove for placing collar cut pieces, the collar cut pieces are placed in the material placing groove, so as to prevent the deviation and dislocation of the collar cut pieces, the pressing template is used for pressing the collar cut pieces in the material placing groove and the inserted foot cut pieces overlapped on the collar cut pieces, the collar cut pieces and the inserted foot cut pieces are pressed through the pressing template, the relative displacement of the template in the moving process of the collar cut pieces and the inserted foot cut pieces is further avoided, the manual re-positioning action before sewing is saved, the time is saved, and the manpower is saved. The stitching channel is arranged on the pressing template, and the stitching device can carry out stitching through the pressing template during stitching; set up material feeding unit, material feeding unit establishes move to sewing station department in order to be used for the drive to fold material device, lead cut-parts and insert foot cut-parts on the board, through material feeding unit's setting, realized automatic pay-off, the action of automatic pay-off is stable controllable, has avoided the aversion between lead cut-parts and the insert foot cut-parts that appear at the pay-off in-process. The sewing device is used for sewing collar cut pieces and inserting foot cut pieces. The sewing foot inserting system realizes a complete automatic system of feeding, stacking, feeding and sewing, has less whole-process manual participation, saves manpower and time, improves the production efficiency, and has stable sewing quality of the collar cut pieces and the inserted foot cut pieces.

Drawings

FIG. 1 is a schematic view of a stitched socketing system, according to an embodiment;

FIGS. 2 and 3 are schematic views of another angle of the stitched socketing system shown in FIG. 1;

FIG. 4 is an enlarged schematic view of a portion of the stitch-inserting system shown in FIG. 3.

Description of the reference numerals

10. A stitched socketed system; 100. a machine platform; 110. a work table; 200. a feeding device; 210. a feeding frame; 220. a feeding supporting plate; 230. a first feeding trough; 240. a second feeding chute; 250. a first adhesive member; 260. a second adhesion member; 270. a feeding drive part; 280. a feeding sensor; 310. a template; 311. a positioning sheath; 312. a limiting hole; 320. pressing the template; 321. sewing a channel; 330. a connecting plate; 400. a feeding device; 410. a feeding plate; 420. a feeding drive component; 430. a locking claw; 440. a locking drive member; 500. a sewing device; 600. a material receiving device; 610. a support; 620. a receiving guide rail; 630. a material receiving moving block; 640. a material receiving driving part; 650. a wind absorbing member; 660. a rotation driving member; 700. a resetting device; 710. a reset seat; 720. a reduction sheath; 730. a reset drive component; 740. a slide rail; 750. a slide block.

Detailed Description

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

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

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

Referring to fig. 1, the present embodiment relates to a stitched socketing system 10. The sewing foot insertion system 10 includes a machine table 100, a feeding device 200, a stacking device, a feeding device 400, a sewing device 500, a receiving device 600, a resetting device 700, and a control device. In this embodiment, the control device may employ a PLC. A working table 110 is disposed above the machine table 100, and a plurality of casters may be disposed at the bottom of the machine table to facilitate movement of the machine table.

Referring to fig. 2 and 3, a feeding device 200 is disposed on the machine 100 for feeding the collar cut pieces and the foot cut pieces.

Referring to fig. 2 and 3, the feeding device 200 includes a feeding frame 210, a feeding tray 220, a first feeding groove 230, a second feeding groove 240, a first adhesion member 250, and a second adhesion member 260. The feeding support plate 220 is positioned on the feeding frame 210, the first feeding groove 230 is arranged on the feeding support plate 220 for stacking collar cut pieces, and the second feeding groove 240 is arranged on the feeding support plate 220 for stacking foot insertion cut pieces. The control device is electrically connected to the first adhesion member 250 and the second adhesion member 260.

Referring to fig. 2 and 3, the loading device 200 further includes a loading driving component 270 and a loading sensor 280. The feeding driving component 270 is disposed on the feeding frame 210 and located below the feeding support plate 220, the feeding driving component 270 is used for driving the feeding support plate 220 to ascend or descend, and the feeding sensor 280 is disposed above the feeding support plate 220 and used for detecting the heights of the top collar cut piece and the inserted foot cut piece of the feeding support plate 220. The control device is electrically connected to the feeding driving part 270. The control device is electrically connected to the feeding sensor 280.

Referring to fig. 2 and 3, the feeding device 200 has a plurality of baffles. The plurality of baffle plates are vertically connected to the feeding support plate 220 to form a first feeding groove 230 and a second feeding groove 240. The number of the second feeding grooves 240 is two, and the two second feeding grooves 240 are located at both sides of the first feeding groove 230. The number of the second adhesive members 260 is two. The two second adhesion members 260 correspond to the two second feeding grooves 240, respectively.

Referring to fig. 3 and 4, the stacking device has two mold plates 310 and a pressing mold plate 320. The template 310 is provided with a material placing groove for placing collar cutting pieces. Template 310 has a locating sheath 311 thereon. The template 310 has a limiting hole.

The material placing groove is provided with a plurality of air suction holes (not shown in the figure). Through the setting in a plurality of holes of induced drafting, can be located the absorption of putting the neck cut-parts of silo through the hole of induced drafting, avoid the aversion of the neck cut-parts after the location. The pressing template 320 is used for pressing the collar cut piece in the material placing groove and the inserted foot cut piece overlapped on the collar cut piece, and the pressing template 320 is provided with a sewing channel 321.

The feeding device 400 is disposed on the machine 100 for driving the stacking device, the collar cut pieces and the foot insertion cut pieces to move to the sewing station.

Referring to fig. 3 and 4, the feeding device 400 includes a feeding plate 410, a feeding driving member 420, a locking claw 430, and a locking driving member 440. The feeding plate 410 is located on the work table 110 of the machine table 100. The feeding driving part 420 is disposed on the machine table 100 and connected to the feeding plate 410. The feeding driving part 420 is used for driving the feeding plate 410 to move along the worktable 110 to the sewing station. The locking driving member 440 is provided on the feeding plate 410 and connected to the locking claw 430. The locking actuation member 440 can lock the positioning sheath 311 by actuating the locking jaws to close or release the positioning sheath 311 by actuating the locking jaws to open. The control device is electrically connected to the feeding driving part 420. The control device is electrically connected to the locking driving part 440.

Referring to fig. 3 and 4, the number of the positioning sheaths 311 and the number of the slots are multiple, and the plurality of positioning sheaths 311 correspond to the plurality of slots one by one.

The stacking device also has a connecting plate 330. The connection plate 330 is located on the upper surface of the feeding plate 410 and connected to one side edge of the feeding plate 410. The die plate 320 protrudes from the side edge of the die plate 310, and the connecting plate 330 is further connected to the die plate 320. The side of the feeding plate 410 connected with the connecting plate 330 is provided with a clamping groove. The positioning sheath 311 is fitted with the locking groove, when the template 310 moves to the lower part of the pressing template 320, the positioning sheath 311 can be locked in the locking groove, and the positioning sheath 311 protrudes out of the upper surface of the feeding plate 410.

Sewing device 500 has the sewing station, and sewing device 500 is used for the joint collar cut-parts and inserts the foot cut-parts. The control device is electrically connected to the sewing device 500.

Referring to fig. 2 and 4, the reduction device 700 has a reduction seat 710, a reduction sheath 720 and a reduction driving unit 730. The reduction sheath 720 is disposed on the reduction seat 710. The reset driving component 730 is disposed on the machine platform 100 and connected to the reset seat 710, and after the collar cut piece and the insertion foot cut piece on the template 310 are sewn, the reset driving component 730 is used for driving the reset seat 710 to move to the lower side of the template 310 so that the reset sheath 720 is inserted into the limiting hole, and the reset driving component 730 can also drive the template 310 to move to the feeding device 200. The control device is electrically connected to the reset driving part 730.

In this embodiment, the reset device 700 further includes a slide rail 740 and a slider 750. The slide rail 740 is disposed on the machine 100. The slider 750 is slidably connected to the slide rail 740.

Referring to fig. 2 and 4, the reset driving unit 730 has a first reset driving element and a second reset driving element. The first reset driving element is disposed on the machine platform 100 and connected to the slider 750 for driving the slider 750 to move along the slide rail 740, the second reset driving element is disposed on the slider 750 and connected to the reset seat 710, and the second reset driving element is used for driving the reset seat 710 to move longitudinally. The control device is electrically connected to the first reset driving element. The control device is electrically connected to the second reset driving element.

Referring to fig. 2, the material receiving device 600 includes a bracket 610, a receiving guide rail 620, a receiving moving block 630, a receiving driving member 640, an air suction member 650, and a rotation driving member 660. The support 610 is used for being arranged on the machine table 100, the material receiving driving part 640 is connected to the air suction part 650 for driving the air suction part 650 to move, and the air suction part 650 is used for sucking cut pieces sewed on the machine table 100; the rotation driving part 660 is established on the support 610 and is connected in receiving the material driving part 640, and the rotation driving part 660 is used for receiving the material driving part 640 through the drive and rotates and drive the rotation of the part 650 that induced drafts, and the rotation of the part 650 that induced drafts can drive the cut-parts rotation after the joint close. The control device is electrically connected to the receiving driving member 640, the air suction member 650 and the rotation driving member 660.

Referring to fig. 2 and 3, the material receiving driving member 640 includes a first material receiving driving member and a second material receiving driving member. The second material receiving driving element is connected to the air suction member 650 for driving the air suction member 650 to move longitudinally relative to the working table 110 of the machine table 100, the first material receiving driving element is disposed on the bracket 610 and connected to the second material receiving driving element, and the first material receiving driving element is configured to drive the air suction member 650 to move laterally relative to the working table 110 of the machine table 100 by driving the second material receiving driving element to move laterally. The control device is electrically connected to the first receiving driving element and the second receiving driving element.

The receiving guide rail 620 is arranged on the support 610, the receiving moving block 630 is slidably connected to the receiving guide rail 620, the receiving moving block 630 is connected to the second receiving driving element, and the first receiving driving element is used for driving the receiving moving block 630 to move along the receiving guide rail 620.

The air suction part 650 has an air suction box and an air suction plate, the air suction plate has a plurality of air suction holes thereon, the air suction plate is connected to the air suction box, and the plurality of air suction holes are communicated with the air suction box. The receiving device 600 is provided with a receiving driving part 640, an air suction part 650 and a rotation driving part 660, the receiving driving part 640 is used for driving the air suction part 650 to move, and the air suction part 650 is used for sucking cut pieces sewn on the machine 100; rotation driving part 660 is used for receiving material driving part 640 through the drive and rotates and drive the part 650 that induced drafts, and the rotation of the part 650 that induced drafts can drive cut-parts after the joint close and rotate the angle that needs, can realize the relocation of cut-parts after the joint close, has avoided receiving the material back cut-parts and is in mixed and disorderly state, and when cut-parts after the joint close continued to carry out process on next step, do not need the manual work to carry out the location of cut-parts once more, save time, practice thrift the manpower.

The stitching foot insertion system 10 as referred to above, when used for stitching between a collar cut piece and a foot insertion cut piece, involves the following steps:

place first template 310 in the preset position on table surface 110 of board 100, the first adhesion part 250 of controlling means control loading attachment 200 glues from first silo 230 and gets the cut-parts and send the template 310 to put the silo, can manually finely tune the position of neck cut-parts this moment, induced draft through the hole of induced drafting on the template in order to adsorb the neck cut-parts, controlling means control second adhesion part 260 glues from second silo 240 and gets the preset position of inserting foot cut-parts and sending to the neck cut-parts, controlling means control second adhesion part 260 glues and gets twice, two insert foot cut-parts are located the preset position at the both ends of neck cut-parts respectively.

The control device controls the feeding driving part 420 of the feeding device 400 to drive the feeding plate 410 to move to the template 310, the clamping grooves of the feeding plate 410 are matched with the positioning sheaths 311 on the template 310, namely the positioning sheaths 311 are clamped in the clamping grooves of the feeding plate 410, at this time, the die pressing plate 320 of the stacking device is just positioned above the template 310, and the control device controls the locking driving part 440 of the feeding device 400 to drive the locking claws 430 to lock the positioning sheaths 311, so that the template 310 and the feeding plate 410 are fixed.

The control device controls the feeding driving component 420 of the feeding device to drive the feeding plate 410 to move to the sewing station of the sewing device 500, and the control device controls the sewing device 500 to sew the two foot inserting cut pieces and the collar cut piece.

The control device controls the feeding driving component 420 of the feeding device to drive the feeding plate 410 to move to the receiving device, the control device controls the locking driving component 440 of the feeding device 400 to drive the locking claws 430 to release the positioning sheaths 311, so that the template 310 and the feeding plate 410 are loosened, the feeding driving component 420 of the feeding device 400 drives the feeding plate 410 to separate from the template 310, so that the sewn collar cut pieces and the stitched foot cut pieces are exposed, the control device controls the first receiving driving component and the second receiving driving component of the receiving device 600 to cooperatively drive the air suction component 650 to move to the positions above the sewn collar cut pieces and the stitched foot cut pieces, the control device controls the air suction component 650 to suck air to suck the sewn collar cut pieces and the stitched foot cut pieces, the control device controls the rotary driving component 660 to drive the air suction component 650 to rotate by a preset angle, so that the directions of the sewn collar cut pieces and the stitched foot cut pieces are adjusted, to facilitate downstream processing.

And the second template can be fed while sewing, so that the cycle is realized, the time is saved, and the efficiency is improved.

The sewing foot insertion system 10 is provided with a feeding device 200, wherein the feeding device 200 is arranged on the machine table 100 and is used for feeding collar cut pieces and foot insertion cut pieces; the folding device is provided, the folding device is provided with a template 310 and a pressing template 320, the template 310 is provided with a material placing groove for placing collar cut pieces, the collar cut pieces are placed in the material placing groove, so as to prevent the offset and dislocation of the collar cut pieces, the pressing template 320 is used for pressing the collar cut pieces in the material placing groove and foot inserting cut pieces overlapped on the collar cut pieces, the collar cut pieces and the foot inserting cut pieces are pressed through the pressing template 320, the relative displacement of the template 310 in the moving process of the collar cut pieces and the foot inserting cut pieces is further avoided, the action of manual re-positioning before sewing is saved, the time is saved, and the manpower is saved. The pressing template 320 is provided with a sewing channel 321, and the sewing device 500 can perform sewing through the pressing template 320 during sewing; the feeding device 400 is arranged on the machine table 100, the feeding device 400 is used for driving the material stacking device, the collar cutting pieces and the foot inserting cutting pieces to move to the sewing station, automatic feeding is achieved through the arrangement of the feeding device 400, the action of the automatic feeding is stable and controllable, and the collar cutting pieces and the foot inserting cutting pieces are prevented from shifting in the feeding process. The sewing device 500 is used for sewing collar cut pieces and inserting foot cut pieces. The sewing and foot inserting system 10 realizes a complete automatic system of feeding, stacking, feeding and sewing, has less whole-process manual participation, saves manpower and time, improves the production efficiency, and has stable sewing quality of the collar cut pieces and the foot inserting cut pieces.

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

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

Claims

1. A stitched insertion foot system, comprising:

a machine platform;

the feeding device is arranged on the machine table and used for feeding collar cut pieces and insertion foot cut pieces;

the stacking device is provided with two templates and a pressing template; the template is provided with a material placing groove for placing the collar cutting piece, and the template is also provided with a limiting hole; the pressing template is used for pressing the collar cutting piece in the material placing groove and the foot inserting cutting piece overlapped on the collar cutting piece, and a sewing channel is formed in the pressing template;

the feeding device is connected with the pressing template and arranged on the machine table to drive the pressing template, one template, the collar cutting piece and the insertion foot cutting piece to move to a sewing station;

the sewing device is provided with a sewing station and is used for stitching the collar cut piece and the foot insertion cut piece; and

the resetting device is provided with a resetting seat, a resetting sheath, a resetting driving part, a sliding rail and a sliding block, the resetting sheath is arranged on the resetting seat, the resetting driving part is arranged on the machine table and connected to the resetting seat, and after the collar cut piece and the foot inserting cut piece on the template are sewn, the resetting driving part is used for driving the resetting seat to move to the position below the template so that the resetting sheath is inserted into the limiting hole, and the resetting driving part can also drive the template to move to the feeding device; the sliding rail is arranged on the machine table, and the sliding block is connected to the sliding rail in a sliding manner; the reset driving component is provided with a first reset driving element and a second reset driving element, the first reset driving element is arranged on the machine table and connected to the sliding block so as to drive the sliding block to move along the sliding rail, the second reset driving element is arranged on the sliding block and connected to the reset seat, and the second reset driving element is used for driving the reset seat to move longitudinally;

wherein, work as die plate and one of them the template is located the sewing station, sewing device joint the collar cut-parts with during the foot cut-parts are inserted, wherein another the template is located loading attachment department, loading attachment is to one of them another the template carries out the material loading.

2. The stitching foot inserting system according to claim 1, wherein the feeding device is provided with a feeding frame, a feeding support plate, a first feeding groove, a second feeding groove, a first adhesion component and a second adhesion component, the feeding support plate is positioned on the feeding frame, the first feeding groove is formed in the feeding support plate and used for stacking collar cut pieces, and the second feeding groove is formed in the feeding support plate and used for stacking foot inserting cut pieces.

3. The stitched insertion foot system of claim 1, wherein said template has a locating sheath thereon; the feeding device is provided with a feeding plate, a feeding driving part, a locking claw and a locking driving part, the feeding plate is positioned on a working table surface of the machine table, the feeding driving part is arranged on the machine table and connected to the feeding plate, and the feeding driving part is used for driving the feeding plate to move to the sewing station along the working table surface; the locking driving component is arranged on the feeding plate and connected to the locking claws, and the locking driving component can lock the positioning sheath by driving the locking claws to close or release the positioning sheath by driving the locking claws to open.

4. The sewing foot inserting system according to claim 3, wherein the stacking device further comprises a connecting plate, the connecting plate is located on the upper surface of the feeding plate and connected to one side edge of the feeding plate, the die plate protrudes out of the side edge of the die plate, the connecting plate is further connected to the die plate, a clamping groove is formed in one side edge of the feeding plate, which is connected with the connecting plate, the positioning sheath is matched with the clamping groove, when the die plate moves below the die plate, the positioning sheath can be clamped into the clamping groove, and the positioning sheath protrudes out of the upper surface of the feeding plate.

5. The stitched insertion foot system of claim 4, wherein the number of the positioning sheaths and the number of the slots are both multiple, and the plurality of positioning sheaths and the plurality of slots correspond one-to-one.

6. The sewing foot-inserting system according to claim 2, wherein the feeding device further comprises a feeding driving part and a feeding sensor, the feeding driving part is arranged on the feeding frame and located below the feeding support plate, the feeding driving part is used for driving the feeding support plate to ascend or descend, and the feeding sensor is arranged above the feeding support plate and used for detecting the heights of the collar cutting piece and the foot-inserting cutting piece on the feeding support plate.

7. The sewing foot inserting system according to claim 2, wherein the feeding device is provided with a plurality of baffle plates, the baffle plates are vertically connected to the feeding supporting plate to form a first feeding groove and a second feeding groove, the number of the second feeding grooves is two, the two second feeding grooves are located on two sides of the first feeding groove, the number of the second adhesion parts is two, and the two second adhesion parts correspond to the two second feeding grooves respectively.