CN113548634B - Down jacket down filling method - Google Patents

Abstract

The invention discloses a down jacket down filling method, which relates to the technical field of down jacket processing, and is characterized in that transverse sewing threads of down filling grids on a down quilt are sewn, and longitudinal sewing threads of down filling grids in the middle of the down quilt are sewn; placing down in the positioning groove; then drive first down filling pipe, second through filling down pipe removal subassembly and fill down pipe and insert respectively and fill in the fine hair square, first slide bar of elasticity tensioning assembly pulling, second slide bar for the eiderdown quilt is tightened: then, quantitative down feather is filled into the grids through the first down feather filling pipe and the second down feather filling pipe; then the longitudinal moving assembly and the transverse moving assembly are matched with the lifting assembly to drive the single heads of the arm type sewing machines to move, and the longitudinal sewing threads of the down-filled grids after down filling can be sewn through the single heads of the arm type sewing machines; filling down feather in the same way; the down filling machine has the advantages of convenience in use, high down filling efficiency, down leakage prevention and the like.

Description

Down jacket down filling method

Technical Field

The invention relates to the technical field of down jacket processing, in particular to a down jacket down filling method.

Background

With the development of society, natural resources are developed and utilized in a large amount, so that ecology is damaged, extreme weather frequently occurs in the year, influence of extreme cold air on the south is gradually deepened in winter, the sales volume of the down quilt is gradually increased, the down quilt is mainly kept warm by using duck down or goose down, but the down filling mode of the existing down quilt is mainly implemented through semi-automatic manual operation, a worker extends a down filling pipe of down filling equipment into a grid of the down quilt for down filling, sewing is carried out after down filling is completed, and then other grids are filled with down, so that the efficiency of the down filling mode is low; or, a gap for the down filling pipe to pass through is reserved at the sewing position of the square grid, and down filling is carried out at one time, but a certain down running phenomenon can occur in the mode.

Disclosure of Invention

The invention aims to solve the technical problem of providing a down filling method for down jackets, which aims to solve the problems of low efficiency and poor effect of a down filling mode of down quilts in the prior art described in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a down filling method for down jacket comprises

A down filling table, which comprises

The processing table is provided with a positioning groove, and the bottom of the positioning groove is provided with a sewing hole;

the first down filling pipes and the second down filling pipes are respectively arranged on two opposite sides of the processing table and distributed in a mirror image manner; the side wall of the positioning groove is provided with a first positioning hole and a second positioning hole corresponding to the positions of the first down filling pipe and the second down filling pipe respectively, and the first down filling pipe and the second down filling pipe respectively penetrate through the first positioning hole and the second positioning hole and extend into the positioning groove;

the two groups of down filling pipe moving assemblies are connected to the processing table and respectively drive the first down filling pipe and the second down filling pipe to move;

one end of each of the two first sliding rods is movably connected to one of the down filling pipe moving assemblies, and the other end of each of the two first sliding rods extends into the positioning groove;

one end of each second sliding rod is movably connected to the other down filling pipe moving assembly, and the other end of each second sliding rod extends into the positioning groove;

the elastic tensioning assemblies are used for respectively connecting the two first sliding rods and the two second sliding rods with the two down filling pipe moving assemblies;

the single heads of the arm type sewing machines are positioned above the sewing holes and are used for sewing the grids filled with the velvet;

the lifting assembly is connected with the single head of the arm type sewing machine so as to drive the single head of the arm type sewing machine to lift;

the longitudinal moving component is connected with the lifting component so as to drive the single head of the arm type sewing machine to longitudinally move;

the transverse moving assembly is connected with the longitudinal moving assembly and the processing table so as to drive the single head of the arm type sewing machine to transversely move;

the pressing plate is positioned above the sewing hole and used for pressing the down quilt;

the down filling step comprises:

the first step is as follows: sewing the horizontal sewing threads of the down filling grids on the down quilt, and sewing the longitudinal sewing threads of the down filling grids in the middle of the down quilt;

the second step is that: the down feather is placed in the positioning grooves, the transverse sewing threads are placed transversely, then the down feather quilt is pressed in the positioning grooves by the pressing plates, and the pressing plates are pressed at the longitudinal sewing threads of the down feather filling grids in the middle of the down feather quilt;

the third step: then the down filling pipe moving assembly drives the first down filling pipe and the second down filling pipe to be respectively inserted into the down filling grids, the first sliding rod and the second sliding rod are respectively inserted into down filling grids at the position, closest to the edge, of the down quilt at the moment, and the elastic tensioning assembly pulls the first sliding rod and the second sliding rod to enable the down quilt to be tightened;

the fourth step: then, quantitative down feather is filled into the grids through the first down feather filling pipe and the second down feather filling pipe;

the fifth step: then the down filling pipe moving assembly drives the first down filling pipe and the second down filling pipe to move to the next down filling grid, and at the moment, the end parts of the first sliding rod and the second sliding rod can also move to the next down filling grid along with the down filling pipe moving assembly;

and a sixth step: then the longitudinal moving assembly and the transverse moving assembly are matched with the lifting assembly to drive the single heads of the arm type sewing machines to move, the longitudinal sewing threads of the down-filled grids after down filling can be sewn through the single heads of the arm type sewing machines, and the down running condition of the down in the next down-filled grid is prevented; and the down filling of the down quilt is finished by parity of reasoning.

Preferably: the down filling pipe moving assembly comprises a support frame connected to the side wall of the processing table, a transverse first ball screw module and a plurality of first guide rods are connected between the support frame and the side wall of the processing table, the first guide rods penetrate through a moving plate in a sliding mode, the moving plate is connected with ball nuts of the first ball screw module, and the first down filling pipe and the second down filling pipe penetrate through the moving plate and are fixedly connected with the moving plate.

Preferably: the side wall of the positioning groove is provided with moving holes which are longitudinally distributed corresponding to the positions of the first sliding rod and the second sliding rod respectively, the moving plate is provided with moving grooves which are longitudinally distributed corresponding to the positions of the first sliding rod and the second sliding rod respectively, and the end parts of the first sliding rod and the second sliding rod are respectively connected with the moving grooves in a sliding manner.

Preferably: the elastic tensioning assembly comprises a sliding sleeve and a sliding hole, the sliding sleeve is sleeved on the first sliding rod or the second sliding rod in a sliding mode, the sliding hole penetrates through the supporting frame, the sliding sleeve is connected with the supporting frame through a first spring, a positioning rod is arranged on the sliding sleeve, and the positioning rod penetrates through the first spring and the sliding hole in a sliding mode.

Preferably: each of the first sliding rod and the second sliding rod is provided with at least two elastic tensioning components.

Preferably: the transverse moving assembly comprises a suspension frame connected to the processing table, and a transverse third ball screw module and a second guide rod are arranged on the suspension frame; the thread directions of the two ends of the ball screw of the third ball screw module are opposite, and the third ball screw module is provided with two ball nuts.

Preferably: this longitudinal movement subassembly includes two sideslip boards of sliding connection on the second guide bar, and two these sideslip boards are connected with two ball nuts of third ball screw module respectively, and the sliding is provided with a plurality of slides on this sideslip board, connects through the connecting rod between the adjacent this slide, is connected with the push pedal on one of them connecting rod, still is connected with the push cylinder on this sideslip board, and the output and the push pedal of this push cylinder are connected.

Preferably: this lifting unit includes the even board of being connected with the slide, should link the board and connect in the backup pad, is provided with vertical elevating guide and second ball screw module in this backup pad, and this elevating guide and lifter plate sliding connection, this lifter plate are connected with the ball nut of second ball screw module, and this lifter plate still is connected with the mounting panel on arm-type sewing machine single-end.

Preferably: the pressing plate is connected with a plurality of second springs, the second springs are connected with the positioning box, a third sliding rod penetrating through the second springs is arranged at the position, corresponding to the second springs, of the pressing plate, and the third sliding rod penetrates through the lower end wall of the positioning box in a sliding mode and extends into the positioning box.

The beneficial effect of adopting above technical scheme is:

according to the down quilt tightening device, the down filling pipe can be driven to move by the down filling pipe moving assembly, so that the down filling pipe is inserted into the down filling grids, the down filling pipe moving assembly can also drive the first sliding rod and the second sliding rod to move, the down quilt can stretch into the down filling grids through the first sliding rod and the second sliding rod by the elastic tightening assembly, the down quilt is tightened, and the pressing plate is used for fixing the middle of the down quilt; after ten thousand down filling grids are filled with down each time, the down filling pipe moving assembly can drive the down filling pipe and the end parts of the first sliding rod and the second sliding rod to move into the next down filling grid, then the longitudinal sewing thread of each down filling grid is sewn by the single head of the arm type sewing machine, so that the down filling of the down quilt is completed, and the down filling efficiency can be effectively improved.

Drawings

Fig. 1 is a front view of a down jacket filling method of the present invention.

Fig. 2 is a top view of the processing station of the present invention.

Fig. 3 is a top view of a portion of the component of fig. 2 in accordance with the present invention.

Fig. 4 is a top view of the suspension of the present invention.

Fig. 5 is a front view of a portion of fig. 1 in accordance with the present invention.

Fig. 6 is a top view of a portion of the component of fig. 2 in accordance with the present invention.

Wherein: processing table 100, positioning slot 110, sewing hole 120, first down filling pipe 200, first positioning hole 210, second down filling pipe 300, second positioning hole 310, down filling pipe moving assembly 400, support frame 410, first guide bar 420, first ball screw module 430, moving plate 440, first slide bar 500a, second slide bar 500b, moving hole 510, moving groove 520, elastic tensioning assembly 530, sliding sleeve 531, first spring 532, positioning bar 533, sliding hole 534, arm sewing machine single head 600, mounting plate 610, lifting assembly 620, lifting plate 621, support plate 622, lifting guide rail 623, second ball screw module 624, connecting plate 625, longitudinal moving assembly 630, traverse plate 631, slide plate 632, connecting rod 633, push plate 634, push cylinder 635, transverse moving assembly 640, second guide bar 641, third ball screw module 642, suspension beam bracket 643, press plate 700, second spring 710, third slide bar 720, third slide bar 710, and guide bar, The cartridge 730 is positioned.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1-6, in the first embodiment, a down filling method includes

A down filling table, which comprises

A processing table 100 having a positioning groove 110, the bottom of the positioning groove 110 having a sewing hole 120;

the first down filling pipes 200 and the second down filling pipes 300 are respectively arranged on two opposite sides of the processing table 100 and distributed in a mirror image manner; wherein, the positions of the side wall of the positioning groove 110 corresponding to the first down filling pipe 200 and the second down filling pipe 300 are respectively provided with a first positioning hole 210 and a second positioning hole 310, and the first down filling pipe 200 and the second down filling pipe 300 respectively penetrate through the first positioning hole 210 and the second positioning hole 310 and extend into the positioning groove 110;

two groups of down filling pipe moving assemblies 400 are connected to the processing table 100 and respectively drive the first down filling pipe 200 and the second down filling pipe 300 to move;

one end of each of the two first sliding bars 500a is movably connected to one of the down filling pipe moving assemblies 400, and the other end thereof extends into the positioning groove 110;

one end of the two second sliding bars 500b is movably connected to the other down filling pipe moving assembly 400, and the other end thereof extends into the positioning groove 110;

a plurality of elastic tensioning assemblies 530 respectively connecting the two first sliding bars 500a and the two second sliding bars 500b with the two down filling pipe moving assemblies 400;

a plurality of arm-type sewing machine single heads 600 positioned above the sewing holes 120 for sewing the grid filled with the down;

the lifting component 620 is connected with the single head 600 of the arm type sewing machine so as to drive the single head 600 of the arm type sewing machine to lift;

a longitudinal moving component 630 connected with the lifting component 620 to drive the arm type sewing machine single head 600 to move longitudinally;

a transverse moving assembly 640 connecting the longitudinal moving assembly 630 and the processing table 100 to drive the arm type sewing machine single head 600 to transversely move;

a pressing plate 700 located above the sewing hole 110 for pressing the duvet;

the down filling step comprises:

the first step is as follows: sewing the horizontal sewing threads of the down filling grids on the down quilt, and sewing the longitudinal sewing threads of the down filling grids in the middle of the down quilt;

the second step is that: down feather is placed in the positioning grooves 110, the transverse sewing threads are placed transversely, then the down feather is pressed in the positioning grooves 110 by the pressing plate 700, and the pressing plate 700 is pressed at the longitudinal sewing threads of down feather filling grids in the middle of the down feather quilt;

the third step: then the down filling pipe moving assembly 400 drives the first down filling pipe 200 and the second down filling pipe 300 to be respectively inserted into the down filling grids, and at the moment, the first sliding rod 500a and the second sliding rod 500b are respectively inserted into the down filling grids at the position where the down quilt is most close to the edge, and the elastic tensioning assembly 530 pulls the first sliding rod 500a and the second sliding rod 500b to enable the down quilt to be tightened;

the fourth step: then, quantitative down feather is filled into the grids through the first down feather filling pipe 200 and the second down feather filling pipe 300;

the fifth step: then the down filling pipe moving assembly 400 drives the first down filling pipe 200 and the second down filling pipe 300 to move to the next down filling grid, and at the moment, the end parts of the first sliding rod 500a and the second sliding rod 500b also move to the next down filling grid along with the down filling pipe moving assembly 400;

and a sixth step: then the longitudinal moving assembly 630 and the transverse moving assembly 640 are matched with the lifting assembly 620 to drive the arm type sewing machine single heads 600 to move, and the longitudinal sewing threads of the down-filled grids can be sewn through the arm type sewing machine single heads 600, so that the down feather in the next down-filled grid is prevented from running; and the down filling of the down quilt is finished by parity of reasoning.

The present embodiment is implemented as follows:

when the down quilt is used, as shown in fig. 3, the transverse sewing threads of the down filling grids on the down quilt are sewn, and the longitudinal sewing threads of the down filling grids in the middle of the down quilt are sewn; down feather is placed in the positioning grooves 110, the transverse sewing threads are placed transversely, then the down feather is pressed in the positioning grooves 110 by the pressing plate 700, and the pressing plate 700 is pressed at the longitudinal sewing threads of down feather filling grids in the middle of the down feather quilt; then the down filling pipe moving assembly 400 drives the first down filling pipe 200 and the second down filling pipe 300 to be respectively inserted into the down filling grids, and at the moment, the first sliding rod 500a and the second sliding rod 500b are respectively inserted into the down filling grids at the position where the down quilt is most close to the edge, and the elastic tensioning assembly 530 pulls the first sliding rod 500a and the second sliding rod 500b to enable the down quilt to be tightened; then, quantitative down feather is filled into the grids through the first down feather filling pipe 200 and the second down feather filling pipe 300; then the down filling pipe moving assembly 400 drives the first down filling pipe 200 and the second down filling pipe 300 to move to the next down filling grid, and at the moment, the end parts of the first sliding rod 500a and the second sliding rod 500b also move to the next down filling grid along with the down filling pipe moving assembly 400; then the longitudinal moving assembly 630 and the transverse moving assembly 640 are matched with the lifting assembly 620 to drive the arm type sewing machine single heads 600 to move, and the longitudinal sewing threads of the down-filled grids can be sewn through the arm type sewing machine single heads 600, so that the down feather in the next down-filled grid is prevented from running; and the down filling of the down quilt is finished by parity of reasoning.

Example two

As an optimized solution of the first embodiment, the down filling pipe moving assembly 400 includes a supporting frame 410 connected to the sidewall of the processing table 100, a first ball screw module 430 and a plurality of first guide rods 420 are connected between the supporting frame 410 and the sidewall of the processing table 100, the first guide rods 420 slidably penetrate through a moving plate 440, the moving plate 440 is connected with a ball nut of the first ball screw module 430, and the first down filling pipe 200 and the second down filling pipe 300 penetrate through the moving plate 440 and are fixedly connected with the moving plate 440.

The embodiment is implemented in such a way that the moving plate 440 can be driven to move by the arranged first ball screw module 430, the moving plate 440 drives the first down filling pipe 200 and the second down filling pipe 300 to move in the first positioning hole 210 and the second positioning hole 310, and the first guide rod 420 can increase the moving stability of the moving plate 440.

EXAMPLE III

As an optimized solution of the second embodiment, the side walls of the positioning slot 110 are further provided with longitudinally distributed moving holes 510 at positions corresponding to the first sliding bar 500a and the second sliding bar 500b, the moving plate 440 is provided with longitudinally distributed moving slots 520 at positions corresponding to the first sliding bar 500a and the second sliding bar 500b, and the ends of the first sliding bar 500a and the second sliding bar 500b are slidably connected with the moving slots 520, respectively.

The embodiment is implemented by slidably connecting the ends of the first and second sliding bars 500a and 500b with the moving slot 520 of the moving plate 440, so that the moving plate 440 can move to drive the first and second sliding bars 500a and 500b to move, and the first and second sliding bars 500a and 500b move simultaneously along with the first and second down filling pipes 200 and 300, thereby achieving synchronous movement.

Example four

As an optimized solution of the third embodiment, the elastic tensioning assembly 530 includes a sliding sleeve 531 slidably sleeved on the first sliding rod 500a or the second sliding rod 500b, and a sliding hole 534 penetrating through the supporting frame 410, the sliding sleeve 531 is connected with the supporting frame 510 through a first spring 532, a positioning rod 533 is disposed on the sliding sleeve 531, and the positioning rod 533 slidably penetrates through the first spring 532 and the sliding hole 534.

The present embodiment is implemented such that a pulling force can be applied to the sliding sleeve 531 through the first spring 532, so that the sliding sleeve 531 drives the first sliding rod 500a and the second sliding rod 500b to move towards the side wall of the supporting frame 410, and since the moving hole 510 and the moving slot 520 are longitudinally distributed, the first sliding rod 500a and the second sliding rod 500b can move in the moving hole 510 and the moving slot 520, so that the two first sliding rods 500a and the two second sliding rods 500b can tighten the down feather.

As a further optimization scheme of the present embodiment: at least two elastic tensioning assemblies 530 are provided on each of the first 500a and second 500b slide bars.

In this optimized solution, the movement of the first sliding bar 500a and the second sliding bar 500b can be more stable through the two elastic tensioning assemblies 530.

EXAMPLE five

As an optimized solution of the first embodiment, the traverse assembly 640 includes a suspension 641 connected to the processing table 100, and the suspension 641 is provided with a third traverse ball screw module 642 and a second guide rod 643; the two ends of the ball screw of the third ball screw module 642 have opposite thread directions and have two ball nuts.

The embodiment is implemented such that the third ball screw module 642 is capable of driving the longitudinal moving assembly 640 to move transversely.

As a further optimization scheme of the present embodiment: the longitudinal moving assembly 630 includes two traverse plates 631 slidably connected to the second guide bars 643, the two traverse plates 631 are respectively connected to two ball nuts of the third ball screw module 642, a plurality of sliding plates 632 are slidably disposed on the traverse plates 631, the adjacent sliding plates 632 are connected by a connecting rod 633, one of the connecting rods 633 is connected to a push plate 634, the traverse plates 631 are further connected to a push cylinder 635, and an output end of the push cylinder 635 is connected to the push plate 634.

This optimization scheme can drive two sideslip boards 631 to opposite direction through third ball screw module 642 and remove, then can drive push pedal 634 through setting up push cylinder 635 and remove, drives connecting rod 633 through push pedal 634 and removes to it removes to drive slide 632.

As a further optimization scheme of the present embodiment: the lifting assembly 620 comprises a connecting plate 625 connected with a sliding plate 632, the connecting plate 625 is connected with a supporting plate 622, a vertical lifting guide rail 623 and a second ball screw module 624 are arranged on the supporting plate 622, the lifting guide rail 623 is connected with a lifting plate 621 in a sliding manner, the lifting plate 621 is connected with a ball nut of the second ball screw module 624, and the lifting plate 621 is further connected with a mounting plate 610 on the single head 600 of the arm-type sewing machine.

This optimization scheme, the second ball screw module 624 through setting up can drive lifter plate 621 vertical movement, moves on lifting rail 623 through the lifter plate 621 that sets up to thereby increase stability and drive arm-type sewing machine single-end 600 vertical movement.

As a further optimization scheme of the present embodiment: the pressing plate 700 is connected with a plurality of second springs 710, the second springs 710 are connected with the positioning box 730, third sliding rods 720 penetrating through the second springs 710 are arranged on the pressing plate 700 corresponding to the positions of the second springs 710, and the third sliding rods 720 penetrate through the lower end wall of the positioning box 730 in a sliding mode and extend into the positioning box 730.

According to the optimized scheme, the second spring 710 applies pressure to the pressing plate 700, and the pressing plate 700 can press the middle longitudinal sewing thread of the down quilt, so that the down quilt is fixed.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many variations and modifications can be made without departing from the inventive concept of the present invention, which falls into the protection scope of the present invention.

Claims (9)

1. A down jacket down filling method is characterized in that: comprises that

A down filling table, which comprises

The processing table is provided with a positioning groove, and the bottom of the positioning groove is provided with a sewing hole;

the first down filling pipes and the second down filling pipes are respectively arranged on two opposite sides of the processing table and distributed in a mirror image manner; the side wall of the positioning groove is provided with a first positioning hole and a second positioning hole corresponding to the positions of the first down filling pipe and the second down filling pipe respectively, and the first down filling pipe and the second down filling pipe respectively penetrate through the first positioning hole and the second positioning hole and extend into the positioning groove;

the two groups of down filling pipe moving assemblies are connected to the processing table and respectively drive the first down filling pipe and the second down filling pipe to move;

one end of each of the two first sliding rods is movably connected to one of the down filling pipe moving assemblies, and the other end of each of the two first sliding rods extends into the positioning groove;

one end of each second sliding rod is movably connected to the other down filling pipe moving assembly, and the other end of each second sliding rod extends into the positioning groove;

the elastic tensioning assemblies are used for respectively connecting the two first sliding rods and the two second sliding rods with the two down filling pipe moving assemblies;

the single heads of the arm type sewing machines are positioned above the sewing holes and are used for sewing the grids filled with the velvet;

the lifting assembly is connected with the single head of the arm type sewing machine so as to drive the single head of the arm type sewing machine to lift;

the longitudinal moving component is connected with the lifting component so as to drive the single head of the arm type sewing machine to longitudinally move;

the transverse moving assembly is connected with the longitudinal moving assembly and the processing table so as to drive the single head of the arm type sewing machine to transversely move;

the pressing plate is positioned above the sewing hole and used for pressing the down quilt;

the down filling step comprises:

the first step is as follows: sewing the horizontal sewing threads of the down filling grids on the down quilt, and sewing the longitudinal sewing threads of the down filling grids in the middle of the down quilt;

the second step is that: the down feather is placed in the positioning grooves, the transverse sewing threads are placed transversely, then the down feather quilt is pressed in the positioning grooves by the pressing plates, and the pressing plates are pressed at the longitudinal sewing threads of the down feather filling grids in the middle of the down feather quilt;

the third step: then the down filling pipe moving assembly drives the first down filling pipe and the second down filling pipe to be respectively inserted into the down filling grids, the first sliding rod and the second sliding rod are respectively inserted into down filling grids at the position, closest to the edge, of the down quilt at the moment, and the elastic tensioning assembly pulls the first sliding rod and the second sliding rod to enable the down quilt to be tightened;

the fourth step: then, quantitative down feather is filled into the grids through the first down feather filling pipe and the second down feather filling pipe;

the fifth step: then the down filling pipe moving assembly drives the first down filling pipe and the second down filling pipe to move to the next down filling grid, and at the moment, the end parts of the first sliding rod and the second sliding rod can also move to the next down filling grid along with the down filling pipe moving assembly;

and a sixth step: then the longitudinal moving assembly and the transverse moving assembly are matched with the lifting assembly to drive the single heads of the arm type sewing machines to move, the longitudinal sewing threads of the down-filled grids after down filling can be sewn through the single heads of the arm type sewing machines, and the down running condition of the down in the next down-filled grid is prevented; and the down filling of the down quilt is finished by parity of reasoning.

2. The down jacket pile material filling method according to claim 1, wherein the pile filling pipe moving assembly comprises a support frame connected to a side wall of the processing table, a first transverse ball screw module and a plurality of first guide rods are connected between the support frame and the side wall of the processing table, the first guide rods slidably penetrate through a moving plate, the moving plate is connected with a ball nut of the first ball screw module, and the first pile filling pipe and the second pile filling pipe penetrate through the moving plate and are fixedly connected with the moving plate.

3. The down jacket down filling method according to claim 2, wherein the side wall of the positioning groove is further provided with longitudinally distributed moving holes corresponding to the positions of the first sliding bar and the second sliding bar, the moving plate is provided with longitudinally distributed moving grooves corresponding to the positions of the first sliding bar and the second sliding bar, and the ends of the first sliding bar and the second sliding bar are slidably connected with the moving grooves respectively.

4. The down jacket down filling method according to claim 3, wherein the elastic tensioning assembly comprises a sliding sleeve slidably sleeved on the first sliding rod or the second sliding rod, and a sliding hole penetrating through the supporting frame, the sliding sleeve is connected with the supporting frame through the first spring, the sliding sleeve is provided with a positioning rod, and the positioning rod slidably penetrates through the first spring and the sliding hole.

5. The down jacket filling method according to claim 4, wherein each of the first and second slide bars has at least two elastic tensioning members.

6. The down jacket pile material filling method according to claim 1, wherein the transverse moving assembly comprises a suspension frame connected to the processing table, the suspension frame being provided with a third transverse ball screw module and a second guide bar; the thread directions of the two ends of the ball screw of the third ball screw module are opposite, and the third ball screw module is provided with two ball nuts.

7. The down jacket pile filling method according to claim 6, wherein the longitudinal moving assembly comprises two traverse plates slidably connected to the second guide bar, the two traverse plates are respectively connected to two ball nuts of the third ball screw module, a plurality of sliding plates are slidably disposed on the traverse plates, adjacent sliding plates are connected by connecting rods, one of the connecting rods is connected to a push plate, the traverse plate is further connected to a push cylinder, and an output end of the push cylinder is connected to the push plate.

8. The method of claim 7, wherein the elevating assembly comprises a connecting plate connected to the sliding plate, the connecting plate is connected to a supporting plate, the supporting plate is provided with a vertical elevating guide rail and a second ball screw module, the elevating guide rail is slidably connected to an elevating plate, the elevating plate is connected to a ball nut of the second ball screw module, and the elevating plate is further connected to a mounting plate on a single head of the arm-type sewing machine.

9. A down jacket filling method according to any one of claims 1 to 8, wherein a plurality of second springs are connected to the pressing plate, the second springs are connected to the positioning box, and a third sliding rod extending through the second springs is provided on the pressing plate at a position corresponding to the second springs, and the third sliding rod slidably extends through the lower end wall of the positioning box and into the positioning box.

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