CN113684617A - Template floating positioning telescopic structure of flexible cushion serging sewing equipment - Google Patents

Abstract

The invention relates to a template floating positioning telescopic structure of flexible pad serging sewing equipment, which mainly comprises a rack, a serging sewing equipment body, a pressing template and a double-shaft linear module, wherein a movable plate is arranged at the top of the double-shaft linear module, a lifting plate is movably arranged on the bottom surface of the movable plate, adjusting mechanisms are arranged on the movable plate and the lifting plate, an L-shaped plate is fixedly arranged on the front surface of the lifting plate and close to the bottom surface, a driving motor is fixedly arranged on the front surface of the lifting plate, a speed reducing motor with an input end fixedly connected with an output shaft of the driving motor is fixedly arranged on the top surface of the L-shaped plate, a connecting column is fixedly arranged on an output shaft of the speed reducing motor, a buffer mechanism is arranged in the connecting column, and a universal shaft assembly is also arranged between the connecting column and the pressing template. Through setting up the universal shaft subassembly, being supporting buffering subassembly, make press and hold template and workstation no dead angle and paste the removal material, make the material uniform velocity move, further improvement is made stitch seam stability and homogeneity.

Description

Template floating positioning telescopic structure of flexible cushion serging sewing equipment

Technical Field

The invention relates to the technical field of flexible cushion serging sewing equipment, in particular to a template floating positioning telescopic structure of flexible cushion serging sewing equipment.

Background

The mouse pad is a kind of flexible pad, which is a small pad under the mouse, and is mainly used to prevent the positioning of the photoreceptor of the mouse from being affected by the reflection and refraction of the surface of special materials such as glass.

The production process of the flexible cushion needs serging and sewing, the flexible cushion is held by a worker and placed at a sewing station during sewing, then the flexible cushion is manually operated by the worker to carry out moving sewing, the method has high labor intensity and low efficiency, and along with the rapid development of the automatic technology of mechanical manufacturing, the flexible pad serging sewing machine is widely applied in production practice, the flexible pad serging sewing is gradually biased to automatic production, manual operation sewing is slowly replaced, when the flexible pad automatic serging sewing machine is used, the flexible pad is pressed by the pressing plate to move on the workbench until the flexible pad moves to a sewing station, in the process, because the thicknesses of the flexible cushions are different, the pressing plate and the workbench cannot flatly move materials without dead angles, thereby reducing the stability and uniformity of sewing stitches, and providing a template floating positioning telescopic structure of the flexible cushion serging sewing equipment to solve the problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a template floating positioning telescopic structure of flexible pad serging sewing equipment, which has the advantage of improving the sewing effect of a flexible pad and solves the problems that the flexible pad is pressed by a pressing plate to move on a workbench until the flexible pad moves to a sewing station when the flexible pad serging sewing equipment is used, and in the process, the pressing plate and the workbench cannot flatly attach moving materials without dead angles due to different thicknesses of the flexible pad, so that the stability and uniformity of sewing stitches are reduced.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a template floating location extending structure of flexible pad serging equipment mainly comprises the frame that is used for whole support, the serging equipment body that sets up the flexible pad that is used for sewing on the sewing station in the frame, can hold the fixed template of holding of pressing with the flexible pad pressure on the sewing station and can drive to hold the template and do X axle and Z axle linear motion and fixed mounting at the frame top to the biax straight line module group.

In addition, the top of the double-shaft linear module is provided with a movable plate which is driven by the double-shaft linear module to do X-axis and Z-axis linear movement, the bottom surface of the movable plate is movably provided with a lifting plate, and the movable plate and the lifting plate are provided with adjusting mechanisms which can drive the pressing and holding template to move up and down.

And simultaneously, the front of lifter plate just is close to bottom surface department fixed mounting and has the L template, the front fixed mounting of lifter plate has driving motor, the top surface fixed mounting of L template has input and driving motor's output shaft fixed connection's gear motor, gear motor's output shaft runs through and extends to the bottom surface of L template and passes through third bearing swing joint with the L template, gear motor's output shaft fixed mounting has the spliced pole, be equipped with in the spliced pole and be used for carrying out the buffer gear who cushions the atress of pressing the die plate.

And a universal shaft assembly used for enabling the angle between the connecting column and the pressing template to be variable is arranged between the connecting column and the pressing template.

Further, adjustment mechanism includes the riser, riser vertical fixation is on the bottom surface of movable plate and parallel with the front of lifter plate, the front fixed mounting of riser has the slider, the back fixed mounting of lifter plate has the guide rail with slider sliding connection, the top surface fixed mounting of movable plate has the output shaft to run through perpendicularly and extend to its bottom and with the front fixed mounting's of lifter plate cylinder.

Furthermore, a through hole is formed in the top surface of the moving plate, and an output shaft of the air cylinder penetrates through the through hole and is in clearance fit with the through hole.

Further, buffer gear includes the movable groove, the movable groove is seted up on the top surface of spliced pole, gear motor's output shaft insert the movable inslot and with spliced pole fixed mounting, the groove of stepping down with the bottom intercommunication in movable groove is seted up to the bottom surface of spliced pole, the inslot that steps down is equipped with the ball spline, the ball spline includes loose axle and spline urceolus, spline urceolus suit is on the loose axle, the spline urceolus arrange in step down the inslot and with spliced pole fixed mounting, the top of loose axle extends to the movable inslot, and the bottom extends to the bottom of spliced pole, the cover is equipped with the buffer spring who is located the inslot that steps down on the loose axle.

Further, the activity groove with step down the groove and be the cylinder and the activity groove is located same straight line with the central line in groove of stepping down, activity groove and loose axle clearance fit, step down groove and spline urceolus clearance fit, the diameter in activity groove is less than the diameter in groove of stepping down, buffer spring's diameter is less than the diameter in groove of stepping down and is greater than the diameter in activity groove.

Further, the universal shaft assembly includes solid fixed ring, gu fixed ring passes through the bolt fastening suit on the loose axle and is close to its bottom department, gu the equal fixedly connected with in fixed ring's the left and right sides is the connection journal stirrup of falling the L font and symmetry of each other, the top surface fixed mounting who holds the template in the pressure has the adjustable shelf, two movable mounting has the fly leaf between the connection journal stirrup.

Further, the shape of adjustable shelf is "well" font, the fly leaf is the rectangle and is located the inside of adjustable shelf, first connecting hole has all been seted up to the center department of four sides of adjustable shelf, the second connecting hole has all been seted up to the center department of four sides of fly leaf, two the third connecting hole has all been seted up to one side that the connection journal stirrup carried on the back mutually.

Further, the diameters of the first connecting hole, the second connecting hole and the third connecting hole are the same, the first connecting hole located on the front side and the back side and the second connecting hole located on the front side and the back side are provided with a second rotating shaft used for enabling the movable frame and the movable plate to move between, and the second connecting hole located on the left side and the right side and the two third connecting holes are provided with first rotating shafts used for enabling the movable frame and the movable plate to move between.

Further, the second axis of rotation runs through first connecting hole and second connecting hole and through two second bearings and first connecting hole and second connecting hole swing joint, first axis of rotation runs through second connecting hole and third connecting hole and through two first bearings respectively with second connecting hole and third connecting hole swing joint.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

the template floating positioning telescopic structure of the flexible pad serging sewing device drives the pressing template to move to the top of the flexible pad through the double-shaft linear module, then the adjusting mechanism is started to make the pressing template move downwards until the flexible pad is pressed and fixed, in the process, the buffer mechanism can buffer the stress of the pressing template, then the pressing template is driven to move through the double-shaft linear module to drive the flexible pad to move until the pressing template moves to a sewing station, the serging and sewing equipment body is opened for sewing, the double-shaft linear module continues to operate, simultaneously, the driving motor and the reducing motor are started to move the flexible cushion and rotate the angle until the serging sewing is finished, in the process, the universal shaft assembly is arranged and matched with the buffer assembly, so that the pressing template and the workbench do not have dead angles and flatly move materials, the materials move at a constant speed, and the stability and the uniformity of sewing stitches are further improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the moving plate of the present invention;

FIG. 3 is a cross-sectional view of the connecting stud of the present invention;

FIG. 4 is an exploded view of the cushioning mechanism of the present invention;

FIG. 5 is an exploded view of the gimbal assembly of the present invention.

In the figure: the device comprises a machine frame 1, a serging equipment body 2, a guide rail 3, a sliding block 4, a moving plate 5, a double-shaft linear module 6, a vertical plate 7, a lifting plate 8, a driving motor 9, a mould plate 10L, a pressing and holding mould plate 11, an output shaft 12, a speed reducing motor 13, a cylinder 14, a movable groove 15, a connecting column 16, a buffer spring 17, a movable shaft 18, a spline outer cylinder 19, a abdicating groove 20, a first rotating shaft 21, a movable plate 22, a movable frame 23, a first connecting hole 24, a second rotating shaft 25, a connecting lug 26, a fixed ring 27, a second connecting hole 28 and a third connecting hole 29.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the floating positioning telescopic structure of the template of the flexible pad serging sewing machine in this embodiment mainly comprises a frame 1 for integral support, a serging sewing machine body 2 disposed on the frame 1 for sewing the flexible pad on the sewing station, a pressing template 11 capable of pressing and fixing the flexible pad on the sewing station, and a biaxial linear module 6 capable of driving the pressing template 11 to move linearly along the X-axis and Z-axis and fixedly mounted on the top of the frame 1.

In addition, the top of the biaxial linear module 6 is provided with a moving plate 5 which is driven by the biaxial linear module to do linear movement of an X axis and a Z axis, the bottom surface of the moving plate 5 is movably provided with a lifting plate 8, and the moving plate 5 and the lifting plate 8 are provided with adjusting mechanisms which can drive the pressing and holding template 11 to do vertical movement.

Meanwhile, an L-shaped plate 10 is fixedly mounted on the front face of the lifting plate 8 and close to the bottom face, a driving motor 9 is fixedly mounted on the front face of the lifting plate 8, a speed reducing motor 13 with an input end fixedly connected with an output shaft 12 of the driving motor 9 is fixedly mounted on the top face of the L-shaped plate 10, the output shaft 12 of the speed reducing motor 13 penetrates through and extends to the bottom face of the L-shaped plate 10 and is movably connected with the L-shaped plate 10 through a third bearing, a connecting column 16 is fixedly mounted on the output shaft 12 of the speed reducing motor 13, and a buffering mechanism used for buffering the stress of the pressing and holding template 11 is arranged in the connecting column 16.

Furthermore, a universal shaft assembly is provided between the connecting column 16 and the pressing mold plate 11 to change the angle between the connecting column 16 and the pressing mold plate 11.

It should be noted that the biaxial linear module 6 is a conventional biaxial linear module known in the prior art and capable of simultaneously performing X-axis and Z-axis linear movements, and detailed descriptions of the specific structure and operation principle thereof are omitted herein.

Specifically, the pressing and holding template 11 is driven by the biaxial linear module 6 to move to the top of the flexible pad, then, the adjusting mechanism is started to make the pressing template 11 move downwards until the flexible pad is pressed and fixed, in the process, the buffer mechanism can buffer the stress of the pressing template 11, then the pressing template 11 is driven to move through the double-shaft linear module 6 to drive the flexible pad to move until the flexible pad moves to a sewing station, the serging equipment body 2 is opened for sewing, the double-shaft linear module 6 continues to operate, simultaneously starting the driving motor 9 and the reducing motor 13 to move the flexible cushion and rotate the angle until the serging sewing is finished, in the process, the universal shaft assembly is arranged and matched with the buffer assembly, so that the pressing template 11 and the workbench do not have dead angles to flatly move materials, the materials move at a constant speed, and the stability and the uniformity of sewing stitches are further improved.

In this embodiment, the adjusting mechanism includes a vertical plate 7, the vertical plate 7 is vertically fixed on the bottom surface of the moving plate 5 and is parallel to the front surface of the lifting plate 8, a slider 4 is fixedly installed on the front surface of the vertical plate 7, a guide rail 3 slidably connected with the slider 4 is fixedly installed on the back surface of the lifting plate 8, and an air cylinder 14, which has an output shaft 12 vertically penetrating through and extending to the bottom of the moving plate 5 and is fixedly installed on the front surface of the lifting plate 8, is fixedly installed on the top surface of the moving plate 5.

Wherein, the top surface of the moving plate 5 is provided with a through hole, and the output shaft 12 of the air cylinder 14 penetrates through the through hole and is in clearance fit with the through hole.

Specifically, the air cylinder 14 is started to enable the lifting plate 8 to be in sliding connection with the guide rail 3 through the sliding block 4 to move up and down, and the pressing template 11 is driven to move up and down.

In this embodiment, buffer gear includes movable groove 15, movable groove 15 sets up on the top surface of spliced pole 16, output shaft 12 of gear motor 13 inserts in movable groove 15 and with spliced pole 16 fixed mounting, the groove of stepping down 20 with the bottom intercommunication of movable groove 15 is seted up to the bottom surface of spliced pole 16, be equipped with the ball spline in the groove of stepping down 20, the ball spline includes loose axle 18 and spline urceolus 19, spline urceolus 19 suit is on loose axle 18, spline urceolus 19 arrange in the groove of stepping down 20 and with spliced pole 16 fixed mounting, the top of loose axle 18 extends to in the movable groove 15, and the bottom extends to the bottom of spliced pole 16, the cover is equipped with the buffer spring 17 that is located the groove of stepping down 20 on the loose axle 18.

The movable groove 15 and the abdicating groove 20 are both cylinders, the central lines of the movable groove 15 and the abdicating groove 20 are located on the same straight line, the movable groove 15 is in clearance fit with the movable shaft 18, the abdicating groove 20 is in clearance fit with the spline outer cylinder 19, the diameter of the movable groove 15 is smaller than that of the abdicating groove 20, and the diameter of the buffer spring 17 is smaller than that of the abdicating groove 20 and larger than that of the movable groove 15.

It should be noted that the output shaft 12 of the reduction motor 13 and the connecting column 16 are fixedly mounted in a conventional mounting manner known to the public in the prior art, and the spline outer cylinder 19 and the connecting column 16 are also fixedly mounted in a conventional mounting manner known to the public in the prior art, and detailed descriptions of specific structures and working principles of the two mounting manners are omitted herein.

Also, it should be understood that the ball spline is a conventional ball spline known to the public in the art.

Specifically, the output shaft 12 of the speed reduction motor 13 rotates to drive the connecting column 16 to rotate, and drives the spline outer cylinder 19 to rotate, because of the ball spline, the movable shaft 18 can rotate together, when the pressing template 11 is stressed, the force can be transmitted to the movable shaft 18, the movable shaft 18 moves upwards under the stress to extrude the buffer spring 17, and the stress of the pressing template 11 is buffered through the tension of the buffer spring 17.

In this embodiment, the universal shaft assembly includes solid fixed ring 27, gu fixed ring 27 passes through the bolt fastening suit on loose axle 18 and be close to its bottom department, gu the equal fixedly connected with in fixed ring 27's the left and right sides is the connection journal stirrup 26 that falls L font and symmetry of each other, presses the top surface fixed mounting who holds template 11 to have adjustable shelf 23, and movable mounting has fly leaf 22 between two connection journal stirrups 26.

In addition, the shape of the movable frame 23 is "well" shaped, the movable plate 22 is rectangular and is located inside the movable frame 23, the centers of four sides of the movable frame 23 are all provided with a first connecting hole 24, the centers of four sides of the movable plate 22 are all provided with a second connecting hole 28, and the opposite sides of the two connecting lugs 26 are all provided with a third connecting hole 29.

Meanwhile, the diameters of the first connecting hole 24, the second connecting hole 28 and the third connecting hole 29 are all the same, second rotating shafts 25 for moving the movable plate 22 and the movable frame 23 are respectively provided between the first connecting holes 24 located at the front and the back and the second connecting holes 28 located at the front and the back, and first rotating shafts 21 for moving the connecting lugs 26 and the movable plate 22 are respectively provided between the second connecting holes 28 located at the left and the right and the two third connecting holes 29.

And, the second rotation shaft 25 penetrates the first connection hole 24 and the second connection hole 28 and is movably connected with the first connection hole 24 and the second connection hole 28 through two second bearings, and the first rotation shaft 21 penetrates the second connection hole 28 and the third connection hole 29 and is movably connected with the second connection hole 28 and the third connection hole 29 through two first bearings, respectively.

Specifically, the first rotating shaft 21 can rotate the connecting lug 26 and the movable plate 22, and the second rotating shaft 25 can rotate the movable plate 22 and the movable frame 23, so that the multi-angle change between the connecting column 16 and the pressing template 11 can be realized, and the pressing template 11 and the workbench can flatly move materials without dead angles.

The working principle of the above embodiment is as follows:

the pressing template 11 is driven by the double-shaft linear module 6 to move to the top of the flexible pad, then the cylinder 14 is started, the lifting plate 8 is driven to move downwards through the sliding connection of the slide block 4 and the guide rail 3, the pressing template 11 is driven to move downwards until the flexible pad is pressed, held and fixed, in the process, when the pressure holding template 11 is stressed, the force can be transmitted to the movable shaft 18, the movable shaft 18 is stressed to move upwards to extrude the buffer spring 17, the stress of the pressure holding template 11 is buffered by the tension of the buffer spring 17, then the pressing template 11 is driven to move by the double-shaft linear module 6 to drive the flexible pad to move until the flexible pad moves to a sewing station, the serging and sewing equipment body 2 is opened for sewing, the double-shaft linear module 6 continues to operate, and simultaneously starting the driving motor 9 and the reducing motor 13 to move the flexible cushion and rotate the angle until the overlock sewing is finished.

The electrical components shown herein are electrically connected to a main controller and a power supply, the main controller can be a conventional known device controlled by a computer, and the conventional power connection technology disclosed in the prior art is not described in detail herein.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a flexible pad serging makes up template of equipment and floats location extending structure, includes:

a frame (1) for integral support;

a serging equipment body (2) arranged on the frame (1) and used for sewing the flexible pad on the sewing station;

a pressing template (11) which can press and fix the flexible pad on the sewing station;

the double-shaft linear module (6) can drive the pressing template (11) to do X-axis and Z-axis linear movement and is fixedly installed at the top of the rack (1);

the method is characterized in that: the top of the double-shaft linear module (6) is provided with a moving plate (5) which is driven by the double-shaft linear module to do X-axis and Z-axis linear movement, the bottom surface of the moving plate (5) is movably provided with a lifting plate (8), and the moving plate (5) and the lifting plate (8) are provided with adjusting mechanisms capable of driving the pressing and holding template (11) to move up and down;

an L-shaped plate (10) is fixedly arranged on the front surface and the position close to the bottom surface of the lifting plate (8);

the front surface of the lifting plate (8) is fixedly provided with a driving motor (9), the top surface of the L-shaped plate (10) is fixedly provided with a speed reducing motor (13) of which the input end is fixedly connected with an output shaft (12) of the driving motor (9), the output shaft (12) of the speed reducing motor (13) penetrates through and extends to the bottom surface of the L-shaped plate (10) and is movably connected with the L-shaped plate (10) through a third bearing, the output shaft (12) of the speed reducing motor (13) is fixedly provided with a connecting column (16), and a buffer mechanism used for buffering the stress of the pressing template (11) is arranged in the connecting column (16);

a universal shaft assembly used for enabling the angle between the connecting column (16) and the pressing template (11) to be variable is arranged between the connecting column (16) and the pressing template (11).

2. The template floating positioning telescopic structure of the flexible cushion serging sewing equipment as claimed in claim 1, wherein: adjustment mechanism includes riser (7), riser (7) vertical fixation on the bottom surface of movable plate (5) and parallel with the front of lifter plate (8), the front fixed mounting of riser (7) has slider (4), the back fixed mounting of lifter plate (8) has guide rail (3) with slider (4) sliding connection, the top surface fixed mounting of movable plate (5) has output shaft (12) to run through perpendicularly and extend to its bottom and with front fixed mounting's of lifter plate (8) cylinder (14).

3. The template floating positioning telescopic structure of the flexible cushion serging sewing equipment as claimed in claim 2, wherein: the top surface of the moving plate (5) is provided with a through hole, and an output shaft (12) of the air cylinder (14) penetrates through the through hole and is in clearance fit with the through hole.

4. The template floating positioning telescopic structure of the flexible cushion serging sewing equipment as claimed in claim 3, wherein: the buffer mechanism comprises a movable groove (15), the movable groove (15) is arranged on the top surface of the connecting column (16), an output shaft (12) of the speed reducing motor (13) is inserted into the movable groove (15) and is fixedly installed with the connecting column (16), the bottom surface of the connecting column (16) is provided with a abdicating groove (20) communicated with the bottom of the movable groove (15), a ball spline is arranged in the abdicating groove (20), the ball spline comprises a movable shaft (18) and a spline outer cylinder (19), the spline outer barrel (19) is sleeved on the movable shaft (18), the spline outer barrel (19) is arranged in the abdicating groove (20) and fixedly installed with the connecting column (16), the top end of the movable shaft (18) extends into the movable groove (15), the bottom end of the movable shaft extends to the bottom of the connecting column (16), and the buffer spring (17) positioned in the abdicating groove (20) is sleeved on the movable shaft (18).

5. The template floating positioning telescopic structure of the flexible cushion serging sewing equipment as claimed in claim 4, wherein: the utility model discloses a spline outer tube (19) is characterized in that activity groove (15) and abdication groove (20) are cylinder and activity groove (15) and abdication groove (20) the central line is located same straight line, activity groove (15) and loose axle (18) clearance fit, abdication groove (20) and spline outer tube (19) clearance fit, the diameter in activity groove (15) is less than the diameter in abdication groove (20), the diameter of buffer spring (17) is less than the diameter in abdication groove (20) and is greater than the diameter in activity groove (15).

6. The template floating positioning telescopic structure of the flexible cushion serging sewing device as claimed in claim 1 or 5, wherein: the universal shaft subassembly is including solid fixed ring (27), gu fixed ring (27) pass through bolt fastening suit on loose axle (18) and be close to its bottom department, the equal fixedly connected with in the left and right sides of solid fixed ring (27) is the connection journal stirrup (26) of falling L font and symmetry of each other, the top surface fixed mounting who holds template (11) of pressure has adjustable shelf (23), two movable mounting has fly leaf (22) between connection journal stirrup (26).

7. The template floating positioning telescopic structure of the flexible cushion serging sewing equipment as claimed in claim 6, wherein: the shape of adjustable shelf (23) is "well" font, fly leaf (22) are the rectangle and are located the inside of adjustable shelf (23), first connecting hole (24) have all been seted up to the center department of four sides of adjustable shelf (23), second connecting hole (28), two have all been seted up to the center department of four sides of fly leaf (22) connect a side that journal stirrup (26) carried on the back mutually and have all been seted up third connecting hole (29).

8. The template floating positioning telescopic structure of the flexible cushion serging sewing equipment as claimed in claim 7, wherein: the diameters of the first connecting hole (24), the second connecting hole (28) and the third connecting hole (29) are the same, the first connecting hole (24) located at the front side and the back side and the second connecting hole (28) located at the front side and the back side are provided with a second rotating shaft (25) used for enabling the movable frame (23) to move between the movable frame (22) and the movable frame respectively, the second connecting hole (28) located at the left side and the right side and two third connecting holes (29) are provided with first rotating shafts (21) used for enabling the movable frame (22) to move between the connecting lugs (26) and the movable frame respectively.

9. The template floating positioning telescopic structure of the flexible cushion serging sewing equipment as claimed in claim 8, wherein: second axis of rotation (25) run through first connecting hole (24) and second connecting hole (28) and through two second bearings and first connecting hole (24) and second connecting hole (28) swing joint, first axis of rotation (21) run through second connecting hole (28) and third connecting hole (29) and through two first bearings respectively with second connecting hole (28) and third connecting hole (29) swing joint.

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