CN107988718B - Nail button keyhole all-in-one machine - Google Patents

Abstract

The invention belongs to the technical field of garment processing equipment, in particular to a button sewing and buttonholing all-in-one machine; the sleeve processing device comprises a button sewing machine and a buttonholing machine, wherein a working table plate is arranged between the button sewing machine and the buttonholing machine, the button sewing machine and the buttonholing machine are arranged oppositely, a feeding mechanism for transferring sleeve quartz to the working table plate is arranged on the front side of the working table plate, a material moving mechanism for transferring the sleeve quartz to a processing position of the button sewing machine and the buttonholing machine is arranged on the rear side of the feeding mechanism, a material pressing mechanism and a material receiving mechanism are arranged on the rear side of the material moving mechanism, and the button sewing machine, the buttonholing machine, the feeding mechanism, the material moving mechanism, the material pressing mechanism and the material receiving mechanism are controlled by a controller; the invention can simultaneously carry out the actions of button nailing and button holing, greatly improves the working efficiency, has high automation degree, can watch a plurality of machines by one person, greatly reduces the labor cost and ensures that the quality of processed products is uniform.

Description

Nail button keyhole all-in-one machine

The technical field is as follows:

the invention belongs to the technical field of garment processing equipment, and particularly relates to a button sewing and buttonholing all-in-one machine.

Background art:

the button sewing machine is an automatic sewing machine type special for button sewing. The buttonhole sewing machine is an important device in clothing machinery, is mainly used for processing buttonholes in various clothes and is divided into a flat buttonhole sewing machine and a round head buttonhole sewing machine, and is divided into a closing type and a non-closing type. From the above, the button sewing machine and the buttonholing machine are two independent garment processing devices. In the clothes production process, the button sewing or the button locking is needed, then the button sewing or the button sewing is needed, two operating workers are needed for the two devices, and the clothes sewing machine has the defects of low working efficiency, high labor cost and the like.

The invention content is as follows:

the invention aims to provide the button sewing and buttonholing all-in-one machine which can perform button sewing and buttonholing work simultaneously and has high working efficiency.

The invention is realized by the following steps:

a working table plate is arranged between the button sewing machine and the buttonholing machine, the button sewing machine and the buttonholing machine are arranged oppositely, a material taking mechanism for transferring sleeve materials onto the working table plate is arranged on the front side of the working table plate, a material moving mechanism for transferring the sleeve materials to a processing position of the button sewing machine and the buttonholing machine is arranged on the rear side of the material taking mechanism, a material pressing mechanism and a material receiving mechanism are arranged on the rear side of the material moving mechanism, and the button sewing machine, the buttonholing machine, the material taking mechanism, the material moving mechanism, the material pressing mechanism and the material receiving mechanism are all controlled by a controller.

In the button sewing and buttonholing all-in-one machine, the working table plate is connected with the button sewing machine and the buttonholing machine, one end of the working table plate is fixedly connected with the buttonholing machine, and the other end of the working table plate is movably connected with the button sewing machine.

In the button sewing and buttonholing all-in-one machine, the button sewing machine is fixed on the button sewing machine frame, the buttonholing machine is fixed on the buttonholing machine frame, the buttonholing machine frame is fixedly arranged on the main frame, the button sewing machine frame is movably arranged on the main frame through the first guide rail and the first sliding block, the button sewing machine frame is driven by the driving mechanism to move left and right to adjust the distance between the button sewing machine frame and the buttonholing machine, and the driving mechanism is controlled by the controller to act.

In the button sewing and buttonholing all-in-one machine, the driving mechanism is a screw rod motor structure or an air cylinder.

In the button sewing and buttonholing all-in-one machine, a feeding mechanism is arranged on the buttonholing machine frame on the front side of the working table plate.

In foretell button sewing buttonhole all-in-one, feed mechanism is including linking firmly curb plate one in the buttonhole sewing machine frame, and the one end of mounting panel sets firmly the lower extreme at curb plate one, is provided with first cylinder on the mounting panel, is provided with the flitch on the piston rod of first cylinder, and the piston rod of first cylinder drives the flitch and reciprocates, is provided with the curb plate two parallel with curb plate one on the other end of mounting panel or button sewing machine frame, is provided with the sensor that is used for responding to sleeve english in the upper end of curb plate one, curb plate two, and the sensor is connected with the controller, by the action of the first cylinder of signal control that the controller feedbacked according to the sensor.

In the nail button and keyhole all-in-one machine, the material taking mechanism comprises a second guide rail arranged on the working table plate along the front-back direction, a material taking support is arranged on the second guide rail, a second air cylinder is arranged on the material taking support, a sucker mounting seat is arranged on a piston rod of the second air cylinder, more than one sucker used for sucking sleeve is arranged on the sucker mounting seat, the second air cylinder drives the sucker to move up and down, and the material taking support is driven by a third air cylinder to move back and forth.

In the nail button and keyhole all-in-one machine, the material moving mechanism comprises a second guide rail arranged on the working table plate along the front-back direction, a push plate support is arranged on the second guide rail, a fourth air cylinder is arranged on the push plate support, a push plate is arranged on a piston rod of the fourth air cylinder, the fourth air cylinder drives the push plate to move up and down, and the push plate support is connected with the fifth air cylinder and driven by the fifth air cylinder to move back and forth along the second guide rail.

In the button sewing and buttonholing all-in-one machine, the push plate is provided with an elastic pressing sheet for pressing sleeves.

In the button sewing and buttonholing all-in-one machine, the working table plate is provided with a guide plate for aligning the sleeve position when the material moving mechanism pushes the sleeve.

In the button sewing and buttonholing all-in-one machine, the second guide rail is provided with the buffer seat through the second sliding block, the buffer seat is provided with the buffer, the buffer seat is connected with the second motor through the second screw rod, and the buffer seat is driven by the second motor and the second screw rod to move back and forth along the second guide rail to adjust the front and back positions of the buffer.

In the button sewing and buttonholing all-in-one machine, the working table plate is further provided with a third guide rail, the third guide rail is provided with a limiting plate for limiting the limiting position at which the material moving mechanism drives the sleeve to move backwards, and the limiting plate can be adjusted to be in the position on the third guide rail according to the size of the sleeve.

In the button sewing and buttonholing all-in-one machine, the material pressing mechanism comprises a vertically arranged sixth cylinder, and a material pressing seat is arranged on a piston rod of the sixth cylinder.

In foretell button sewing buttonhole all-in-one, receiving agencies includes the no pole cylinder that sets up along the fore-and-aft direction, is connected with the sixth cylinder through the third slider on the no pole cylinder, is provided with the sucking disc that is used for adsorbing sleeve english in pressing the material seat, and the action of sucking disc is controlled by the controller.

Compared with the prior art, the invention has the outstanding advantages that:

the invention can simultaneously carry out the actions of button nailing and button holing, greatly improves the working efficiency, has high automation degree, can watch a plurality of machines by one person, greatly reduces the labor cost and ensures that the quality of processed products is uniform.

Description of the drawings:

FIG. 1 is one of the schematic diagrams of the present invention;

FIG. 2 is an enlarged schematic view of section A of FIG. 1;

FIG. 3 is a second schematic of the present invention;

FIG. 4 is an enlarged schematic view of section B of FIG. 3;

FIG. 5 is a third schematic of the present invention;

FIG. 6 is a schematic view of the loading mechanism of the present invention;

FIG. 7 is a schematic view of the material taking mechanism, the material moving mechanism, the material pressing mechanism and the material receiving mechanism after being installed;

fig. 8 is a top view of the material moving mechanism of the present invention on the work deck.

In the figure: 1. a button sewing machine; 2. a buttonholing machine; 3. a work table; 4. a button sewing machine frame; 5. a buttonholing machine frame; 6. a main frame; 7. a first guide rail; 8. a first slider; 9. a first lead screw; 10. a first motor; 11. a first side plate; 12. mounting a plate; 13. a first cylinder; 14. feeding plates; 15. a second side plate; 16. a guide bar; 17. a strip-shaped adjusting hole; 18. a limiting rod; 19. a second guide rail; 20. a material taking bracket; 21. needling a sucker; 22. a second cylinder; 23. a sucker mounting seat; 24. a third cylinder; 25. a cylinder mounting seat; 26. A push plate support; 27. a fourth cylinder; 28. pushing the plate; 29. a fifth cylinder; 30. a spring plate; 31. a guide plate; 32. a second slider; 33. a second motor; 34. a second lead screw; 35. a buffer; 36. a sixth cylinder; 37. a material pressing seat; 38. a suction cup; 39. a rodless cylinder; 40. a material receiving platform; 41. a third guide rail; 42. And a limiting plate.

The specific implementation mode is as follows:

the invention will now be further described in the following by way of specific examples, with reference to FIGS. 1-8:

a button sewing and buttonholing all-in-one machine comprises a button sewing machine 1 and a buttonholing machine 2, wherein a working table plate 3 is arranged between the button sewing machine 1 and the buttonholing machine 2, the button sewing machine 1 and the buttonholing machine 2 are arranged oppositely, namely the button sewing machine 1 and the buttonholing machine use the same working table plate 3. The front side of the working table plate 3 is provided with a material taking mechanism for transferring sleeves to the working table plate 3, the rear side of the material taking mechanism is provided with a material transferring mechanism for transferring sleeves to a processing position of the button sewing machine 1 and the buttonholing machine 2, the rear side of the material transferring mechanism is provided with a material pressing mechanism and a material receiving mechanism, and the button sewing machine 1, the buttonholing machine 2, the material taking mechanism, the material transferring mechanism, the material pressing mechanism and the material receiving mechanism are all controlled by a controller. The button sewing machine 1 needs to be used in cooperation with a button conveying mechanism, and buttons are conveyed to a button clamp on the button sewing machine 1 through a button conveying device to be sewn. The button conveying mechanism is prior art and the present invention is not described in detail.

As the sleeve of the shirt comprises two buttons, the button sewing machine 1 is movably connected and the buttonholing machine 2 is fixedly connected as a better scheme. The working table plate 3 is connected with the button sewing machine 1 and the buttonholing machine 2, in order to ensure that the working table plate 3 does not generate displacement, one end of the working table plate 3 is fixedly connected with the buttonholing machine 2, and the other end of the working table plate 3 is movably connected with the button sewing machine 1.

Specifically, the button sewing machine 1 is fixed on a button sewing machine frame 4, the buttonholing machine 2 is fixed on a buttonholing machine frame 5, the buttonholing machine frame 5 is fixedly arranged on a main frame 6, the button sewing machine frame 4 is movably arranged on the main frame 6 through a first guide rail 7 and a first sliding block 8, the button sewing machine frame 4 is driven by a driving mechanism to move left and right to adjust the distance between the button sewing machine frame 4 and the buttonholing machine 2, and the driving mechanism is controlled by a controller to act. The working table plate 3 is connected to the frame 5 of the buttonholing machine through a mounting column. The button attaching machine frame 4 moves, the button attaching machine 1 moves along with the movement, the moving distance is determined according to the distance between two buttons on the sleeve, and the movement of the button attaching machine frame 4 can be controlled by a sensor or a program preset in a controller.

Further, the driving mechanism is a screw rod motor structure or an air cylinder. The screw motor structure is preferably selected in the embodiment, and comprises a first screw 9 and a first motor 10 for driving the first screw 9 to rotate, wherein the first screw 9 is connected to the button sewing machine frame 4. The first motor 10 drives the first lead screw 9 to rotate, thereby driving the button attaching machine frame 4 to reciprocate in the horizontal direction (i.e., the left-right direction with reference to the position where the operator stands). Two travel switches are provided on the main frame 6. The two travel switches respectively have the following functions: when the start button is pressed, the button attaching machine 1 starts to move leftward, and when the left side travel switch is touched, the button attaching machine 1 starts to move rightward. In the process of moving right, in order to prevent the button sewing machine 1 from touching the working table plate 3, a travel switch, namely a right side travel switch is arranged at a position close to the position touching the working table plate 3, and the right travel switch cannot be touched during normal work, so that the right travel switch mainly plays a protective role.

In order to ensure continuous material taking, a feeding mechanism is arranged on the frame 5 of the buttonholing machine on the front side of the working bedplate 3. The feeding mechanism can automatically provide sleeve material for the material taking mechanism.

Specifically, the feeding mechanism comprises a first side plate 11 fixedly connected to the buttonholing machine frame 5, one end of a mounting plate 12 is fixedly arranged at the lower end of the first side plate 11, a first air cylinder 13 is arranged on the mounting plate 12, a piston rod of the first air cylinder 13 is provided with a feeding plate 14, the feeding plate 14 is located above the mounting plate 12, the piston rod of the first air cylinder 13 drives the feeding plate 14 to move up and down, a second side plate 15 parallel to the first side plate 11 is arranged at the other end of the mounting plate 12 or the button sewing machine frame 4, and when the second side plate 15 is arranged on the button sewing machine frame 4, the second side plate 15 moves together with the button sewing machine frame 4. The upper ends of the first side plate 11 and the second side plate 15 are provided with sensors for sensing sleeve heights, the sensors are connected with the controller, the sensors are correlation sensors, and when the sleeve heights cover the sensors, the sleeve heights are proved to be at the normal working height. When the sensor is not shielded, the height of the sleeve is lower than the position of the sensor, the next action cannot be normally carried out, and the controller controls the first air cylinder 13 to move upwards until the sleeve shields the sensor.

In order to make the feeding plate 14 rise and fall smoothly, the guide rod 16 is arranged between the mounting plate 12 and the feeding plate 14. In addition, because the sizes of the sleeve wickers have different specifications, the mounting plate 12 and the feeding plate 14 are respectively provided with a plurality of strip-shaped adjusting holes 17 with one-to-one corresponding positions and numbers, the strip-shaped adjusting holes 17 are arranged along the front-back direction, the corresponding strip-shaped adjusting holes 17 on the mounting plate 12 and the feeding plate 14 are provided with the limiting rods 18, and the plurality of limiting rods 18 enclose the sleeve wicker placing cavity, so that the sleeve wickers can be ensured to be stacked on the feeding plate 14 and cannot topple over.

As another embodiment of the feeding mechanism, the structure is as follows:

the basic structure is the same as that of the above embodiment, and the differences are: the first cylinder 13 is replaced with a spring. A return spring is sleeved outside the guide shaft between the mounting plate 12 and the feeding plate 14, and the sleeve is automatically driven to lift according to the weight of the sleeve.

Further, as one embodiment of the material taking mechanism of the present invention, the material taking mechanism includes a second guide rail 19 disposed on the working platen 3 along the front-back direction, a material taking bracket 20 is disposed on the second guide rail 19, the material taking bracket 20 is L-shaped, and includes a vertical column and a cross bar disposed at the upper end of the vertical column, and the cross bar is adjustable in the left-right position on the vertical column, so as to adjust the left-right position of the suction cup. The material taking support 20 is provided with a second air cylinder 22, a piston rod of the second air cylinder 22 is provided with a sucker mounting seat 23, the sucker mounting seat 23 is provided with more than one sucker for sucking the sleeve, the second air cylinder 22 drives the sucker to move up and down, and the material taking support 20 is driven by a third air cylinder 24 to move back and forth. One end of a third air cylinder 24 is connected to the material taking bracket 20, and the other end of the third air cylinder is fixed on the frame 5 of the buttonholing machine through an air cylinder mounting seat 25. The needling sucker 21 is provided with a needling structure which is arranged in a crossed manner, when materials are taken, the needling structure is needled on the sleeve to drive the sleeve to move, after the sleeve is moved in place, the needling structure does not work, and the sleeve is automatically separated from the sucker.

The sucking disc 21 is selected as the sucking disc of the invention. When the materials are taken, the pricker on the needling suction disc 21 is inserted into the sleeve, and when the materials are discharged, the pricker is removed, so that the sleeve is separated from the suction disc. The needle suction cup 21 is a commercially available item and the present invention will not be described in detail.

As another embodiment of the material taking mechanism according to the present invention, the structure of the embodiment is the same as the above embodiment, and the difference is that: the sucking disc is selected for use in this embodiment, and the sucking disc includes the sucking disc main part, is provided with the air chamber in the sucking disc main part, is provided with a plurality of through-holes of breathing in on the basal plane of sucking disc main part, and the air chamber is connected with the aspirator pump, is breathed in by the aspirator pump, makes to produce the negative pressure in the air chamber, adsorbs the sleeve on the basal plane of sucking disc main part. After the sleeve is moved in place, the air suction pump stops working, and the sleeve is automatically separated from the sucker.

Further, as one embodiment of the material moving mechanism of the present invention, the material moving mechanism includes a second guide rail 19 disposed on the working platen 3 along the front-back direction, a push plate bracket 26 is disposed on the second guide rail 19, a fourth air cylinder 27 is disposed on the push plate bracket 26, a push plate 28 is disposed on a piston rod of the fourth air cylinder 27, the fourth air cylinder 27 drives the push plate 28 to move up and down, and the push plate bracket 26 is connected to a fifth air cylinder 29 and is driven by the fifth air cylinder 29 to move back and forth along the second guide rail 19.

The fifth cylinder 29 is a double-stroke cylinder composed of two cylinders, and includes two cylinder bodies arranged oppositely, and piston rods of the two cylinders are connected with each other, so that the fifth cylinder 29 has two strokes, that is, can stop after moving for a certain distance, and then can continue to move.

In order to make the structure compact, the material moving mechanism and the material taking mechanism share one guide rail, namely the second guide rail 19. Two guide rails can be used respectively, and the two guide rails need to be arranged in parallel.

The fifth cylinder 29 of the material moving mechanism is the same as the third cylinder 24 of the material taking mechanism, and the other end of the fifth cylinder 29 is also fixed on the frame 5 of the buttonholing machine through the cylinder mounting seat 25.

In order to ensure the sleeve to be stable in the pushing process, the push plate 28 is provided with an elastic pressing sheet 30 for pressing the sleeve.

In order to ensure the sleeve position, a guide plate 31 for aligning the sleeve position when the sleeve is pushed by the material moving mechanism is arranged on the working table plate 3. The side of the guiding plate 31 close to the sleeve consists of an inclined plane and a straight plane, the straight plane is parallel to the second guiding rail 19, the inclined plane is located at the front end, and the straight plane is located at the rear end. The distance between the sloped surface and the push plate 28 is greater than the distance between the straight surface and the push plate 28. The guide plate 31 is provided with a strip-shaped hole for adjusting the left and right positions of the guide plate 31.

The lateral edges of the sleeves and the guide plate 31 are not necessarily parallel to the second guide rail 19 during loading, and may be irregular. Through the guide plate, the sleeve can be aligned when being pushed to the right position, and the correct position of the keyhole and the button can be ensured.

Since the moving speed of the cylinder at the end of the stroke is high during material transferring, in order to reduce the impact force, the fifth cylinder 29 of the material transferring mechanism is buffered, a buffer seat is arranged on the second guide rail 19 through a second slide block 32, a buffer 35 is arranged on the buffer seat, the buffer seat is connected with a second motor 33 through a second lead screw 34, and the buffer seat is driven by the second motor 33 and the second lead screw 34 to move back and forth along the second guide rail 19 to adjust the front and back positions of the buffer.

As another embodiment of the transfer mechanism of the present invention, the structure of the present embodiment is as follows: and a sucker is adopted to directly suck and feed materials.

Further, in order to avoid the inertia effect, the sleeve still moves backwards after being pushed in place, so that the positions of the button and the lock hole are inaccurate. According to the invention, the third guide rail 41 is further arranged on the working table plate 3, the limiting plate 42 for limiting the limit position of the sleeve which is driven by the material moving mechanism to move backwards is arranged on the third guide rail 41, and the position of the limiting plate 42 on the third guide rail 41 can be adjusted according to the size of the sleeve.

The adjusting mode comprises manual adjustment and automatic adjustment. If manual adjustment is carried out, an adjusting hole is formed in the working table plate 3, and an adjusting bolt penetrates through the adjusting hole to be connected with the sliding block. The limit plate 42 is fixed to the slider.

And the automatic adjustment can also be carried out by arranging a screw rod and a motor on the sliding block.

Furthermore, when the button-sewing and button-locking operations are performed simultaneously, the sleeve is ensured not to be displaced, so as to ensure the smooth operation of the button-sewing operation. Therefore, the sleeve is pressed when the buttonhole is closed. The material pressing mechanism comprises a vertically arranged sixth air cylinder 36, and a material pressing seat 37 is arranged on a piston rod of the sixth air cylinder 36. Before the buttonholing machine 2 and the button sewing machine 1 work, the sixth air cylinder 36 is driven to be pressed down by the control of the controller, so that the material pressing seat 37 presses the sleeves.

After the button sewing and keyhole processing is finished, the finished product is collected through the collecting mechanism. The material receiving mechanism comprises a rodless cylinder 39 arranged in the front-back direction, the rodless cylinder 39 is connected with a sixth cylinder 36 through a third sliding block, and a sucking disc 38 is arranged in a material pressing seat 37. The rodless cylinder 39 is fixed to the buttonholing machine frame 5 by a cylinder bracket. From the above, the material pressing mechanism and the material receiving mechanism share one set of system, and the material pressing mechanism and the material receiving mechanism have the advantage of compact structure. Of course, as another embodiment, the pressing mechanism and the receiving mechanism are divided into two independent structures. The pressing base 37 comprises a main board and a partition board arranged on the bottom plane of the main board, the partition board is divided into more than one sucker mounting base, the sucker 38 is arranged in the sucker mounting base, and the bottom plane of the partition board is lower than that of the sucker 38. That is, during pressing, the partition plate is mainly used for pressing. The press seat 37 functions to protect the suction cup 38.

Or an air chamber is arranged in the material pressing seat, a lower air suction through hole communicated with the air chamber is arranged on the bottom plane of the material pressing seat, and the air chamber is communicated with an air suction pump.

A material receiving table 40 is arranged on the rear side of the working table plate 3, after the material receiving mechanism moves to the position above the material receiving table 40, the suction of a suction disc stops, and sleeve quartz directly falls on the material receiving table 40 to be collected. The material receiving table 40 is fixed on the button sewing machine frame 4 or/and the buttonholing machine frame 5.

The working principle of the invention is as follows:

the sleeve is stacked on the feeding plate 14 of the feeding mechanism, the controller receives a signal sent by the sensor, after the sleeve is determined to be at a normal working position, the feeding mechanism transfers the sleeve to the working table plate 3, the fifth cylinder 29 of the feeding mechanism drives the push plate 28 to move to the front side of the sleeve, then the fourth cylinder 27 drives the push plate 28 to descend, the fifth cylinder 29 drives the push plate 28 to move backwards, and at the moment, the push plate 28 pushes the sleeve to move backwards together. Due to the arrangement of the guide plate 31, the sleeve is adjusted in position during movement. After the button sewing machine 1 moves to the buttonholing machine 2 in place, the fifth cylinder 29 continues to drive the sleeve to move backwards, the fifth cylinder 29 is buffered through the buffer 35, the sleeve is limited through the limiting plate 41, the sleeve moves in place, and the fifth cylinder 29 resets. The sixth air cylinder 36 of the material pressing mechanism drives the material pressing seat 37 to press down and press the sleeves, and at the moment, the button sewing machine 1 and the buttonholing machine 2 work simultaneously. The button sewing machine 1 supplies buttons by a button feeding mechanism. The button sewing machine 1 firstly nails a first button (inside), the button sewing machine 1 is provided with a sensor used for sensing sleeve inside, the sensor moves along with the button sewing machine 1, the sensor is an opposite type sensor, when the opposite type sensor is shielded by the sleeve inside, the sensor sends a signal to the controller, the controller drives the button sewing machine 1 to continuously advance for a certain distance according to a preset program, namely, the position of the first button is determined, and then the button sewing machine moves towards the direction far away from the button holing machine 2 under the driving of the driving mechanism to complete the customization of a second button (outside). After the buttonholing and button sewing actions are finished, the suction disc 38 sucks the sleeve, the sixth air cylinder 36 drives the suction disc 38 and the sleeve to move upwards, the sleeve moves backwards to the position above the material receiving table 40 under the action of the rodless air cylinder 39, the suction disc 38 stops supplying air, and the sleeve automatically falls on the material receiving table 40.

The above-mentioned embodiment is only one of the preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so: all equivalent changes made according to the shape, structure and principle of the invention are covered by the protection scope of the invention.

Claims (13)

1. The utility model provides a button sewing and buttonholing all-in-one, includes button sewing machine (1) and buttonholing machine (2), its characterized in that: a working table plate (3) is arranged between the button attaching machine (1) and the buttonholing machine (2), the button attaching machine (1) and the buttonholing machine (2) are arranged oppositely, a material taking mechanism for transferring sleeve quartz to the working table plate (3) is arranged on the front side of the working table plate (3), a material transferring mechanism for transferring sleeve quartz to the processing positions of the button attaching machine (1) and the buttonholing machine (2) is arranged on the rear side of the material taking mechanism, a material pressing mechanism and a material receiving mechanism are arranged on the rear side of the material transferring mechanism, the button attaching machine (1), the buttonholing machine (2), the material taking mechanism, the material transferring mechanism, the material pressing mechanism and the material receiving mechanism are all controlled by a controller, the material taking mechanism comprises a second guide rail (19) arranged on the working table plate (3) along the front-back direction, a material taking bracket (20) is arranged on the second guide rail (19), a second air cylinder (22) is arranged on the material taking bracket (20), and a sucker mounting seat (23) is arranged on a piston rod of, more than one sucking disc (21) used for sucking sleeve is arranged on the sucking disc mounting seat (23), the second air cylinder (22) drives the sucking discs (21) to move up and down, and the material taking support (20) is driven by the third air cylinder (24) to move back and forth.

2. The button and keyhole all-in-one machine of claim 1, wherein: the working table plate (3) is connected with the button sewing machine (1) and the buttonholing machine (2), one end of the working table plate (3) is fixedly connected with the buttonholing machine (2), and the other end of the working table plate is movably connected with the button sewing machine (1).

3. The button and keyhole machine according to claim 1 or 2, wherein: the button sewing machine (1) is fixed on a button sewing machine frame (4), the buttonholing machine (2) is fixed on the buttonholing machine frame (5), the buttonholing machine frame (5) is fixedly arranged on a main frame (6), the button sewing machine frame (4) is movably arranged on the main frame (6) through a first guide rail (7) and a first sliding block (8), the button sewing machine frame (4) is driven by a driving mechanism to move left and right to adjust the distance between the button sewing machine (2), and the driving mechanism is controlled by a controller to act.

4. The button and keyhole all-in-one machine of claim 3, wherein: the driving mechanism is a screw rod motor structure or an air cylinder.

5. The button and keyhole all-in-one machine of claim 3, wherein: a feeding mechanism is arranged on the buttonholing machine frame (5) at the front side of the working bedplate (3).

6. The button and keyhole all-in-one machine of claim 5, wherein: the feeding mechanism comprises a first side plate (11) fixedly connected to a frame (5) of the buttonholing machine, one end of a mounting plate (12) is fixedly arranged at the lower end of the first side plate (11), a first air cylinder (13) is arranged on the mounting plate (12), a feeding plate (14) is arranged on a piston rod of the first air cylinder (13), the piston rod of the first air cylinder (13) drives the feeding plate (14) to move up and down, a second side plate (15) parallel to the first side plate (11) is arranged at the other end of the mounting plate (12) or on a frame (4) of the button sewing machine, sensors used for sensing sleeve weight are arranged at the upper ends of the first side plate (11) and the second side plate (15), the sensors are connected with a controller, and the controller controls the action of the first air cylinder (13) according to signals fed back.

7. The button and keyhole all-in-one machine of claim 1, wherein: the material moving mechanism comprises a second guide rail (19) arranged on the working table plate (3) in the front-back direction, a push plate support (26) is arranged on the second guide rail (19), a fourth air cylinder (27) is arranged on the push plate support (26), a push plate (28) is arranged on a piston rod of the fourth air cylinder (27), the fourth air cylinder (27) drives the push plate (28) to move up and down, and the push plate support (26) is connected with a fifth air cylinder (29) and is driven by the fifth air cylinder (29) to move back and forth along the second guide rail (19).

8. The button and keyhole machine according to claim 7, wherein: an elastic pressing sheet (30) for pressing the sleeve is arranged on the push plate (28).

9. The button and keyhole machine according to claim 7 or 8, wherein: the work table plate (3) is provided with a guide plate (31) for aligning the sleeve position when the sleeve pushing mechanism pushes the sleeve.

10. The button and keyhole machine according to claim 7 or 8, wherein: the second guide rail (19) is provided with a buffer seat through a second sliding block (32), the buffer seat is provided with a buffer (35), the buffer seat is connected with a second motor (33) through a second screw rod (34), and the buffer seat is driven by the second motor (33) and the second screw rod (34) to move back and forth along the second guide rail (19) so as to adjust the front and back positions of the buffer.

11. The button and keyhole machine according to claim 7 or 8, wherein: the work table plate is further provided with a third guide rail (41), a limiting plate (42) limiting the limiting position at which the material moving mechanism drives the sleeve to move backwards is arranged on the third guide rail (41), and the position of the limiting plate (42) on the third guide rail (41) can be adjusted according to the size of the sleeve.

12. The button and keyhole all-in-one machine of claim 1, wherein: the material pressing mechanism comprises a vertically arranged sixth air cylinder (36), and a material pressing seat (37) is arranged on a piston rod of the sixth air cylinder (36).

13. The button and keyhole machine of claim 12, wherein: the material receiving mechanism comprises a rodless cylinder (39) arranged in the front-back direction, the rodless cylinder (39) is connected with a sixth cylinder (36) through a third sliding block, a sucking disc (38) used for sucking sleeve quartz is arranged in the material pressing seat, and the action of the sucking disc (38) is controlled by a controller;

or an air chamber is arranged in the material pressing seat, a lower air suction through hole communicated with the air chamber is arranged on the bottom plane of the material pressing seat, and the air chamber is communicated with an air suction pump.

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