CN113714815A

CN113714815A - Full-automatic plate shearing and stacking production line for aluminum plates

Info

Publication number: CN113714815A
Application number: CN202110986159.5A
Authority: CN
Inventors: 俞金发; 朱良科; 林士兵
Original assignee: Tianchang Jinfa Industries Aluminum Co ltd
Current assignee: Tianchang Jinfa Industries Aluminum Co ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2021-11-30
Anticipated expiration: 2041-08-25
Also published as: CN113714815B

Abstract

The invention discloses a full-automatic plate shearing and stacking production line for aluminum plates, which comprises a strip-shaped table; the first movable feeding structure is fixedly arranged on the bar-shaped platform; the cutting structures are arranged on the strip-shaped table and are positioned on two sides of the first movable feeding structure; and the second movable feeding structure is fixedly arranged on the strip-shaped table and is positioned on the right side of the cutting structure. The aluminum plate cutting device has the advantages that the aluminum plate clamping support to be processed can be conveniently moved to the cutting structure and the stamping structure through the first moving feeding structure, the aluminum plate is not required to be manually supported and taken, the aluminum plate can be conveniently cut through the cutting structure, the cutting efficiency is improved, manual cutting operation is not required, the cut aluminum plate is placed on the stamping structure through the second moving feeding structure, and stamping forming is carried out through the stamping structure.

Description

Full-automatic plate shearing and stacking production line for aluminum plates

Technical Field

The invention relates to the field of aluminum plate processing, in particular to a full-automatic plate shearing and stacking production line for aluminum plates.

Background

Aluminum plate is when production, because the size demand is different or need carry out reasonable cutting for the ease of later stage processing, but traditional cutting mode all adopts artifical manual cutting, and cutting mode is single, and artifical manual operation cutting work efficiency is low to during the cutting, artifical manual cutting has certain danger, and after aluminum plate cutting, often carry out the punching press simultaneously and form the wave type folded sheet, traditional operation mode is wasted time and energy, and work efficiency is low, can't satisfy work efficiency.

Disclosure of Invention

The invention aims to solve the problems and designs a full-automatic plate shearing and stacking production line for aluminum plates.

The technical scheme of the invention is that the full-automatic plate shearing and stacking production line for the aluminum plate comprises the following steps:

a bar-shaped table;

the first movable feeding structure is fixedly arranged on the bar-shaped table;

the cutting structures are arranged on the strip-shaped table and are positioned on two sides of the first movable feeding structure;

the second movable feeding structure is fixedly arranged on the strip-shaped table and is positioned on the right side of the cutting structure;

and the stamping structure is arranged on the strip-shaped table and is positioned above the second movable feeding structure.

The first mobile feeding structure comprises: the device comprises a first electric lead screw module, a first telescopic motor, a first roller and a first bracket;

the upper wall surface of the strip-shaped table is provided with a first strip-shaped groove, the first electric lead screw module is arranged in the first strip-shaped groove, the moving end of the first electric lead screw module is provided with a first support, the first support is provided with a support frame, the left side wall surface and the right side wall surface of the support frame are respectively provided with a first guide rod, each first guide rod is inserted with a first sliding frame, each first sliding frame is provided with a first support, each first support is provided with a first support, the first support is provided with a second support, the second support is provided with a first folding frame, the first telescopic motor is arranged on the first folding frame, the driving end of the first telescopic motor is provided with a first press plate, the front side wall surface and the rear side wall surface of the support frame are respectively provided with a second guide rod, the second guide rod is sleeved with a second sliding frame, and the second sliding frame is provided with a third support, second supports are mounted on the third support, the first brackets are arranged on each second support, and the first rollers are respectively arranged on the lower wall surfaces of the first sliding frame and the second sliding frame.

The cutting structure includes: the second electric lead screw module, the first servo motor, the cutting knife, the first bearing and the rolling disc;

the upper wall surface of the strip table and positioned at the front side and the rear side of the first strip groove are fixedly provided with strip frames with corresponding positions, the upper wall surface of each strip frame is provided with a second strip groove, the second electric screw module is arranged in the second strip groove, the moving end of the second electric screw module is provided with a second support, the second support is fixedly provided with a first driving mounting seat, the first servo motor is arranged on the upper wall surface of the first driving mounting seat, the driving end of the first servo motor is provided with a first connecting rod, the cutting knife is arranged on the first connecting rod, the side wall surface of the second support is fixedly provided with a second driving mounting seat, the second driving mounting seat is provided with a second telescopic motor, the driving end of the second telescopic motor is fixedly provided with a bearing frame, the bearing frame is provided with a first circular groove, and the first bearing is arranged in the first circular groove, a first supporting rod is fixed on the first bearing, and the rolling disc is arranged on the first supporting rod.

The second mobile feeding structure comprises: the third electric screw rod module, the stepping motor, the third telescopic motor, the fourth electric screw rod module and the second bracket;

a pair of third strip-shaped grooves are formed in the strip-shaped table and positioned on the right side of the cutting structure, the third electric screw module is arranged in the third strip-shaped grooves, a third support is arranged at the moving end of the third electric screw module, a door-shaped frame is arranged on the pair of third supports, a support plate is fixed on the lower wall surface of the door-shaped frame, a fourth strip-shaped groove is formed in the support plate, the fourth electric screw module is arranged in the fourth strip-shaped grooves, a fourth support is arranged at the moving end of the fourth electric screw module, a connecting frame is fixed on the fourth support, a third driving installation seat is fixed on the connecting frame, the stepping motor is arranged on the third driving installation seat, a second connecting rod is arranged at the driving end of the stepping motor, a second bracket is arranged on the second connecting rod, and a second folding frame is fixed on the upper wall surface of the second bracket, and a third connecting rod is installed at the driving end of the third telescopic motor, and a second pressing plate is installed on the third connecting rod.

The stamping structure includes: the device comprises a cylinder, an upper die and a lower die;

the upper wall surface of the strip-shaped frame stretches over the third strip-shaped groove to be provided with the mounting frame, the air cylinder is arranged on the lower wall surface of the mounting frame, the mounting seat is arranged on the driving end of the air cylinder, the upper die is arranged on the mounting seat, and the lower die is arranged on the upper wall surface of the strip-shaped table and corresponds to the upper die in position.

A first ejector rod is fixed on the lower wall surface of the second driving installation seat, and a second roller is fixed on the lower wall surface of the first ejector rod.

And second ejector rods are fixed on the lower wall surface of the strip-shaped table and close to four corners, and a gasket is installed on the lower wall surface of each second ejector rod.

And gaskets are fixed on the first guide rod and the second guide rod.

The first sliding frame is provided with a first threaded hole, the first guide rod is provided with a first threaded groove matched with the first threaded hole, and a first screw lapped with the first threaded groove is inserted in the first threaded hole.

And a second threaded hole is formed in the second sliding frame, a second threaded groove matched with the second threaded hole is formed in the second guide rod, and a second screw lapped with the second threaded groove is inserted in the second threaded hole.

According to the full-automatic plate shearing and stacking production line for the aluminum plates, the aluminum plate clamps to be processed can be conveniently clamped and supported and then moved through the first movable feeding structure, the aluminum plate clamps are moved towards the cutting structure and the stamping structure, the aluminum plate does not need to be manually supported and taken, the aluminum plate can be conveniently cut through the cutting structure, the cutting efficiency is improved, manual cutting operation is not needed, the cut aluminum plate is placed on the stamping structure through the second movable feeding structure, and stamping forming is carried out through the stamping structure.

Drawings

FIG. 1 is a schematic structural diagram of a full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 2 is a side view of a first movable feeding structure of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 3 is a front view of a cutting structure of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 4 is a front view of a first movable feeding structure of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 5 is a side sectional view of a second movable feeding structure and a stamping structure of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 6 is a front view of a second movable feeding structure and a stamping structure of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 7 is a front view of a stamping structure of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 8 is a front view of a cutting structure of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 9 is a side cross-sectional view of a gate-shaped frame of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

FIG. 10 is a side view of a rolling disc of the full-automatic plate shearing and stacking production line for aluminum plates according to the present invention;

in the figure, 1, a bar-shaped table; 2. a first electric lead screw module; 3. a first telescoping motor; 4. a first telescoping motor; 5. a first bracket; 6. a support frame; 7. a first guide bar; 8. a first carriage; 9. a first bracket; 10. a first support; 11. a second bracket; 12. a first folding frame; 13. a first platen; 14. a second guide bar; 15. a second carriage; 16. a third support; 17. a second support; 18. a second electric lead screw module; 19. a first servo motor; 20. a cutting knife; 21. a first bearing; 22. rolling a disc; 23. a strip-shaped frame; 24. a second support; 25. a first drive mount; 26. a first connecting rod; 27. a second drive mount; 28. a second telescoping motor; 29. a carrier; 30. a first support bar; 31. a third electric lead screw module; 32. a stepping motor; 33. a third telescopic motor; 34. a fourth electric screw rod module; 35. a second bracket; 36. a third support; 37. a gantry frame; 38. a support plate; 39. a first support; 40. a fourth support; 41. a connecting frame; 42. a third drive mount; 43. a second connecting rod; 44. a second folding frame; 45. a third connecting rod; 46. a second platen; 47. a cylinder; 48. an upper die; 49. a lower die; 50. a mounting seat; 51. a first ejector rod; 52. a second roller; 53. a second ejector rod; 54. a gasket; 55. a gasket; 56. a first screw; 57. a second screw; 58. and (7) mounting frames.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1 to 10, a full-automatic plate shearing and stacking production line for aluminum plates comprises: a bar-shaped table 1; the first movable feeding structure is fixedly arranged on the bar-shaped table 1; the cutting structures are arranged on the strip-shaped table 1 and are positioned on two sides of the first movable feeding structure; the second movable feeding structure is fixedly arranged on the strip-shaped table 1 and is positioned on the right side of the cutting structure; the stamping structure is arranged on the strip-shaped table 1 and is positioned above the second movable feeding structure; the first mobile feeding structure comprises: the device comprises a first electric lead screw module 2, a first telescopic motor 3, a first roller 4 and a first bracket 5; the upper wall surface of the strip-shaped table 1 is provided with a first strip-shaped groove, a first electric lead screw module 2 is arranged in the first strip-shaped groove, the moving end of the first electric lead screw module 2 is provided with a first support 39, the first support 39 is provided with a support frame 6, the left side wall surface and the right side wall surface of the support frame 6 are fixed with first guide rods 7, each first guide rod 7 is inserted with a first sliding frame 8, each first sliding frame 8 is fixed with a first support 9, each first support 9 is provided with a first support 10, the first support 10 is fixed with a second support 11, the second support 11 is provided with a first folding frame 12, a first telescopic motor 3 is arranged on the first folding frame 12, the driving end of the first telescopic motor 3 is provided with a first pressing plate 13, the front side wall surface and the rear side wall surface of the support frame 6 are fixed with second guide rods 14, the second guide rod 14 is provided with a second sliding frame 15, the second sliding frame 15 is provided with a third support 16, second supports 17 are mounted on the third support 16, the first bracket 5 is arranged on each second support 17, and the first rollers 4 are respectively arranged on the lower wall surfaces of the first sliding frame 8 and the second sliding frame 15; the cutting structure includes: a second electric lead screw module 18, a first servo motor 19, a cutting knife 20, a first bearing 21 and a rolling disc 22; the upper wall surface of the strip-shaped platform 1 and positioned at the front side and the rear side of the first strip-shaped groove are fixed with strip-shaped frames 23 with corresponding positions, the upper wall surface of each strip-shaped frame 23 is provided with a second strip-shaped groove, a second electric lead screw module 18 is arranged in the second strip-shaped groove, the moving end of the second electric lead screw module 18 is provided with a second support 24, the second support 24 is fixed with a first driving installation seat 25, a first servo motor 19 is arranged on the upper wall surface of the first driving installation seat 25, the driving end of the first servo motor 19 is provided with a first connecting rod 26, a cutting knife 20 is arranged on the first connecting rod 26, the side wall surface of the second support 24 is fixed with a second driving installation seat 27, the second driving installation seat 27 is provided with a second telescopic motor 28, the driving end of the second telescopic motor 28 is fixed with a bearing frame 29, the bearing frame 29 is provided with a first circular groove, a first bearing 21 is arranged in the first circular groove, a first support rod 30 is fixed on the first bearing 21, and the rolling disc 22 is arranged on the first support rod 30; the second removes pay-off structure and includes: a third electric screw module 31, a stepping motor 32, a third telescopic motor 33, a fourth electric screw module 34 and a second bracket 35; a pair of third strip-shaped grooves are formed in the strip-shaped table 1 and located on the right side of the cutting structure, a third electric lead screw module 31 is arranged in the third strip-shaped grooves, a third support 36 is arranged at the moving end of the third electric lead screw module 31, a door-shaped frame 37 is arranged on the pair of third supports 36, a support plate 38 is fixed on the lower wall surface of the door-shaped frame 37, a fourth strip-shaped groove is formed in the support plate 38, a fourth electric lead screw module 34 is arranged in the fourth strip-shaped grooves, a fourth support 40 is arranged at the moving end of the fourth electric lead screw module 34, a connecting frame 41 is fixed on the fourth support 40, a third driving installation seat 42 is fixed on the connecting frame 41, a stepping motor 32 is arranged on the third driving installation seat 42, a second connecting rod 43 is arranged at the driving end of the stepping motor 32, a second folding bracket 35 is arranged on the second connecting rod 43, and a second folding frame 44 is fixed on the upper wall surface of the second bracket 35, a third connecting rod 45 is arranged at the driving end of the third telescopic motor 33, and a second pressing plate 46 is arranged on the third connecting rod 45; the stamping structure includes: a cylinder 47, an upper die 48, and a lower die 49; a mounting frame 58 is mounted on the upper wall surface of the strip-shaped frame 23 and crosses over the third strip-shaped groove, the air cylinder 47 is mounted on the lower wall surface of the mounting frame 58, a mounting seat 50 is mounted on the driving end of the air cylinder 47, the upper die 48 is mounted on the mounting seat 50, and the lower die 49 is mounted on the upper wall surface of the strip-shaped table 1 and corresponds to the upper die 48 in position; a first push rod 51 is fixed on the lower wall surface of the second driving mounting seat 27, and a second roller 52 is fixed on the lower wall surface of the first push rod 51; second ejector rods 53 are fixed on the lower wall surface of the bar-shaped platform 1 and close to four corners, and a gasket 54 is mounted on the lower wall surface of each second ejector rod 53; washers 55 are fixed on the first guide rod 7 and the second guide rod 14; a first threaded hole is formed in the first sliding frame 8, a first threaded groove matched with the first threaded hole is formed in the first guide rod 7, and a first screw 56 lapped with the first threaded groove is inserted into the first threaded hole; a second threaded hole is formed in the second sliding frame 15, a second threaded groove matched with the second threaded hole is formed in the second guide rod 14, and a second screw 57 lapped with the second threaded groove is inserted into the second threaded hole.

The present embodiment is characterized by comprising: a bar-shaped table 1; the first movable feeding structure is fixedly arranged on the bar-shaped table 1; the cutting structures are arranged on the strip-shaped table 1 and are positioned on two sides of the first movable feeding structure;

the second movable feeding structure is fixedly arranged on the strip-shaped table 1 and is positioned on the right side of the cutting structure; stamping structure, stamping structure settles on bar platform 1 and is located the second and removes pay-off structure top, through first removal pay-off structure, be convenient for get the aluminum plate clamp that needs processing and remove after supporting, remove to cutting structure and stamping structure direction, need not artifical manual support aluminum plate of taking, through the cutting structure, be convenient for cut aluminum plate, improve cutting efficiency, need not the manual cutting operation, remove pay-off structure through the second, on placing stamping structure with the aluminum plate after the cutting, carry out stamping forming through stamping structure.

In the present embodiment, a bar-shaped stage 1;

the first movable feeding structure is fixedly arranged on the bar-shaped table 1;

the cutting structures are arranged on the strip-shaped table 1 and are positioned on two sides of the first movable feeding structure;

the second movable feeding structure is fixedly arranged on the strip-shaped table 1 and is positioned on the right side of the cutting structure;

the stamping structure is arranged on the strip-shaped table 1 and is positioned above the second movable feeding structure;

it should be noted that: first removal pay-off structure is convenient for carry out the fixed stay with aluminum plate after, transports, through the cutting structure, is convenient for cut aluminum plate both sides or unilateral, after the cutting is accomplished, removes pay-off structure through the second and transports, transports stamping structure on, carries out the pressure through stamping structure and appears, forms the folded plate.

The first mobile feeding structure comprises: the device comprises a first electric lead screw module 2, a first telescopic motor 3, a first roller 4 and a first bracket 5;

the upper wall surface of the strip-shaped table 1 is provided with a first strip-shaped groove, a first electric lead screw module 2 is arranged in the first strip-shaped groove, the moving end of the first electric lead screw module 2 is provided with a first support 39, the first support 39 is provided with a support frame 6, the left side wall surface and the right side wall surface of the support frame 6 are fixed with first guide rods 7, each first guide rod 7 is inserted with a first sliding frame 8, each first sliding frame 8 is fixed with a first support 9, each first support 9 is provided with a first support 10, the first support 10 is fixed with a second support 11, the second support 11 is provided with a first folding frame 12, a first telescopic motor 3 is arranged on the first folding frame 12, the driving end of the first telescopic motor 3 is provided with a first pressing plate 13, the front side wall surface and the rear side wall surface of the support frame 6 are fixed with second guide rods 14, the second guide rod 14 is provided with a second sliding frame 15, the second sliding frame 15 is provided with a third support 16, second supports 17 are mounted on the third support 16, the first bracket 5 is arranged on each second support 17, and the first rollers 4 are respectively arranged on the lower wall surfaces of the first sliding frame 8 and the second sliding frame 15;

in actual operation: the moving end of the first electric lead screw module 2 can move to drive the support frame 6 on the first support 39 to move, the first sliding frame 8 arranged on the first guide rod 7 on the support frame 6 can move to adjust the position to adjust the distance between the second supports 11 supported by the first support 10 on the first sliding frame 8, the driving end of the first telescopic motor 3 on the first folding frame 12 can be telescopic to drive the first pressing plate 13 to move up and down, the position of the second support 11 is adjusted according to the length of the aluminum plate, so that the two ends of the aluminum plate are placed on the second support 11, then the driving end of the first telescopic motor 3 descends, the aluminum plate is pressed through the first pressing plate 13 to be fixedly placed, the second sliding frame 15 on the second guide rod 14 moves to adjust the using position of the first bracket 5 on the second support 17, the first bracket 5 is used for supporting the lower wall surface of the aluminum plate, the second sliding frame 15 moves to adjust the using position of the first bracket 5, the use positions of the aluminum plates with different widths can be adjusted conveniently, and the first roller 4 can play a role in moving and supporting when the first sliding frame 8 and the second sliding frame 15 move conveniently.

The cutting structure includes: a second electric lead screw module 18, a first servo motor 19, a cutting knife 20, a first bearing 21 and a rolling disc 22;

the upper wall surface of the strip-shaped platform 1 and positioned at the front side and the rear side of the first strip-shaped groove are fixed with strip-shaped frames 23 with corresponding positions, the upper wall surface of each strip-shaped frame 23 is provided with a second strip-shaped groove, a second electric lead screw module 18 is arranged in the second strip-shaped groove, the moving end of the second electric lead screw module 18 is provided with a second support 24, the second support 24 is fixed with a first driving installation seat 25, a first servo motor 19 is arranged on the upper wall surface of the first driving installation seat 25, the driving end of the first servo motor 19 is provided with a first connecting rod 26, a cutting knife 20 is arranged on the first connecting rod 26, the side wall surface of the second support 24 is fixed with a second driving installation seat 27, the second driving installation seat 27 is provided with a second telescopic motor 28, the driving end of the second telescopic motor 28 is fixed with a bearing frame 29, the bearing frame 29 is provided with a first circular groove, a first bearing 21 is arranged in the first circular groove, a first support rod 30 is fixed on the first bearing 21, and the rolling disc 22 is arranged on the first support rod 30;

it should be noted that: the moving end of the second electric lead screw module 18 can move back and forth, the using position of a first servo motor 19 supported by a first driving mounting seat 25 on a second support 24 is adjusted, the driving end of the first servo motor 19 can rotate to drive a cutting knife 20 on a first connecting rod 26 to rotate, the position of the cutting knife 20 is adjusted according to the cutting size needed, then the first servo motor 19 rotates to drive the cutting knife 20 to rotate, an aluminum plate is contacted with the cutting knife 20 to be cut, the driving end of a second telescopic motor 28 can lift to drive a rolling disc 22 on a first bearing 21 to adjust the height up and down, during cutting, the second telescopic motor 28 lifts, the rolling disc 22 is higher than the aluminum plate, then the driving end of the second telescopic motor 28 descends to drive the rolling disc 22 to descend, cutting waste is pressed down through the rolling disc 22, a gap is conveniently generated at a cutting opening, the waste after cutting is convenient to fall, the rolling disc 22 can roll, reducing the friction force.

The second removes pay-off structure and includes: a third electric screw rod module 31, a stepping motor 32, a third telescopic motor 33, a fourth electric screw rod module 34 and a second bracket 35;

a pair of third strip-shaped grooves are formed in the strip-shaped table 1 and located on the right side of the cutting structure, a third electric lead screw module 31 is arranged in the third strip-shaped grooves, a third support 36 is arranged at the moving end of the third electric lead screw module 31, a door-shaped frame 37 is arranged on the pair of third supports 36, a support plate 38 is fixed on the lower wall surface of the door-shaped frame 37, a fourth strip-shaped groove is formed in the support plate 38, a fourth electric lead screw module 34 is arranged in the fourth strip-shaped grooves, a fourth support 40 is arranged at the moving end of the fourth electric lead screw module 34, a connecting frame 41 is fixed on the fourth support 40, a third driving installation seat 42 is fixed on the connecting frame 41, a stepping motor 32 is arranged on the third driving installation seat 42, a second connecting rod 43 is arranged at the driving end of the stepping motor 32, a second folding bracket 35 is arranged on the second connecting rod 43, and a second folding frame 44 is fixed on the upper wall surface of the second bracket 35, a third connecting rod 45 is arranged at the driving end of the third telescopic motor 33, and a second pressing plate 46 is arranged on the third connecting rod 45;

in actual operation: the movable end of the third electric lead screw module 31 can move to drive the door-shaped frame 37 on the third support 36 to move, so as to move the second bracket 35 below the aluminum plate, the second bracket 35 is supported by the second connecting rod 43 at the driving end of the stepping motor 32, the driving end of the stepping motor 32 can rotate clockwise or anticlockwise, when in use, the second bracket 35 is driven to swing, the longitudinal state is adjusted, the second bracket is positioned below the aluminum plate, when not in use, the driving end of the stepping motor 32 rotates anticlockwise, the second bracket 35 is horizontally arranged, so as to facilitate the collection of the second bracket 35, so as to prevent the blocking of the use of the stamping structure, the stepping motor 32 is supported by the fourth electric lead screw module 34 on the support plate 38, the fourth electric lead screw module 34 vertically swings, so that the movable end of the fourth electric lead screw module 34 can move up and down, the use height of the second bracket 35 is adjusted, and the movable end of the fourth electric lead screw module 34 moves downwards, the second bracket 35 is located below the aluminum plate, the third electric lead screw module 31 moves backwards, the second bracket 35 is located below the aluminum plate, the driving end of the first telescopic motor 3 is lifted, the first pressing plate 13 is far away from the aluminum plate, the driving end of the third telescopic motor 33 descends, the aluminum plate is pressed, the third electric lead screw module 31 moves forwards, the aluminum plate is moved to a stamping structure, the third telescopic motor 33 is lifted, the second pressing plate 46 is lifted, the aluminum plate is placed on the lower die 49, the third electric lead screw module 31 continuously moves, the second bracket 35 is far away from the aluminum plate, subsequent stamping is facilitated, the moving end of the first electric lead screw module 2 moves leftwards, and the aluminum plate is placed again.

The stamping structure includes: a cylinder 47, an upper die 48, and a lower die 49;

a mounting frame 58 is mounted on the upper wall surface of the strip-shaped frame 23 and crosses over the third strip-shaped groove, the air cylinder 47 is mounted on the lower wall surface of the mounting frame 58, a mounting seat 50 is mounted on the driving end of the air cylinder 47, the upper die 48 is mounted on the mounting seat 50, and the lower die 49 is mounted on the upper wall surface of the strip-shaped table 1 and corresponds to the upper die 48 in position;

in actual operation: the bar frame 23 plays a supporting role, and is used for supporting the cylinder 47, and the cylinder 47 driving end descends, drives the mould 48 oscilaltion, and the second removes the pay-off structure and places aluminum plate on the bed die 49, and later the cylinder 47 driving end descends, drives the mould 48 and descends, carries out the punching press to aluminum plate and forms, and during the shaping, the manual work can adjust the punching press position according to the aluminum plate size, and the manual work can manually put aluminum plate, carries out the punching press.

As a preferable technical solution, further, a first push rod 51 is fixed on the lower wall surface of the second driving mounting seat 27, and a second roller 52 is fixed on the lower wall surface of the first push rod 51; the second roller 52 is used for facilitating the movement support of the second driving mounting seat 27 when moving.

As a preferable technical solution, further, the lower wall surface of the support frame 6 and the corners close to the four corners are fixed with second push rods 53, and the lower wall surface of each second push rod 53 is provided with a gasket 54; the gasket 54 plays a role of moving support when the support frame 6 moves.

Preferably, a washer 55 is fixed to each of the first guide bar 7 and the second guide bar 14.

As a preferable technical solution, further, a first threaded hole is formed on the first carriage 8, a first threaded groove matched with the first threaded hole is formed on the first guide rod 7, and a first screw 56 overlapped with the first threaded groove is inserted into the first threaded hole; by means of first screws 56 for fixing the first carriage 8.

As a preferable technical solution, further, a second threaded hole is formed on the second carriage 15, a second threaded groove matched with the second threaded hole is formed on the second guide rod 14, and a second screw 57 overlapped with the second threaded groove is inserted into the second threaded hole; the second screw 57 is used to fix the second carriage 15.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The utility model provides a full-automatic board, folded plate production line of cutting of aluminum plate which characterized in that includes:

a bar-shaped table (1).

The first movable feeding structure is fixedly arranged on the bar-shaped table (1).

The cutting structure is arranged on the strip-shaped table (1) and located on two sides of the first movable feeding structure.

And the second movable feeding structure is fixedly arranged on the bar-shaped table (1) and is positioned on the right side of the cutting structure.

And the stamping structure is arranged on the strip-shaped table (1) and is positioned above the second movable feeding structure.

2. The full-automatic plate shearing and stacking production line for the aluminum plates as claimed in claim 1, wherein the first movable feeding structure comprises: the device comprises a first electric lead screw module (2), a first telescopic motor (3), a first roller (4) and a first bracket (5).

The upper wall surface of the bar-shaped table (1) is provided with a first bar-shaped groove, the first electric lead screw module (2) is arranged in the first bar-shaped groove, the moving end of the first electric lead screw module (2) is provided with a first support (39), the first support (39) is provided with a support frame (6), the left side wall surface and the right side wall surface of the support frame (6) are fixedly provided with first guide rods (7), each first guide rod (7) is inserted with a first sliding frame (8), each first sliding frame (8) is fixedly provided with a first support (9), each first support (9) is provided with a first support (10), the first support (10) is fixedly provided with a second support (11), the second support (11) is provided with a first folding frame (12), the first telescopic motor (3) is arranged on the first folding frame (12), install first clamp plate (13) on first flexible motor (3) drive end, both sides wall face all is fixed with second guide arm (14) around support frame (6), the cover is equipped with second balladeur train (15) on second guide arm (14), install third support (16) on second balladeur train (15), install second pillar (17) on third support (16), first bracket (5) settle on every second pillar (17), wall under first balladeur train (8) and second balladeur train (15) is settled respectively in first gyro wheel (4).

3. The full-automatic plate shearing and stacking production line for the aluminum plates as claimed in claim 1, wherein the cutting structure comprises: a second electric screw module (18), a first servo motor (19), a cutting knife (20), a first bearing (21) and a rolling disc (22).

The upper wall surface of the bar-shaped table (1) is positioned at the front side and the rear side of the first bar-shaped groove, bar-shaped frames (23) with corresponding positions are fixed at the front side and the rear side of the first bar-shaped groove, a second bar-shaped groove is formed in the upper wall surface of each bar-shaped frame (23), the second electric lead screw module (18) is arranged in the second bar-shaped groove, a second support (24) is arranged at the moving end of the second electric lead screw module (18), a first driving installation seat (25) is fixed on the second support (24), the first servo motor (19) is arranged on the upper wall surface of the first driving installation seat (25), a first connecting rod (26) is arranged at the driving end of the first servo motor (19), the cutting knife (20) is arranged on the first connecting rod (26), a second driving installation seat (27) is fixed on the side wall surface of the second support (24), and a second telescopic motor (28) is arranged on the second driving installation seat (27), a bearing frame (29) is fixed on the driving end of the second telescopic motor (28), a first circular groove is formed in the bearing frame (29), the first bearing (21) is arranged in the first circular groove, a first supporting rod (30) is fixed on the first bearing (21), and the rolling disc (22) is arranged on the first supporting rod (30).

4. The full-automatic plate shearing and stacking production line for the aluminum plates as claimed in claim 1, wherein the second moving and feeding structure comprises: a third electric screw module (31), a stepping motor (32), a third telescopic motor (33), a fourth electric screw module (34) and a second bracket (35).

A pair of third strip-shaped grooves are formed in the strip-shaped table (1) and located on the right side of the cutting structure, the third electric lead screw module (31) is arranged in the third strip-shaped grooves, a third support (36) is arranged at the moving end of the third electric lead screw module (31), a door-shaped frame (37) is arranged on the pair of third supports (36), a support plate (38) is fixed on the lower wall surface of the door-shaped frame (37), a fourth strip-shaped groove is formed in the support plate (38), the fourth electric lead screw module (34) is arranged in the fourth strip-shaped groove, a fourth support (40) is arranged at the moving end of the fourth electric lead screw module (34), a connecting frame (41) is fixed on the fourth support (40), a third driving installation seat (42) is fixed on the connecting frame (41), and the stepping motor (32) is arranged on the third driving installation seat (42), the driving end of the stepping motor (32) is provided with a second connecting rod (43), the second bracket (35) is arranged on the second connecting rod (43), the upper wall surface of the second bracket (35) is fixedly provided with a second folding frame (44), the driving end of the third telescopic motor (33) is provided with a third connecting rod (45), and the third connecting rod (45) is provided with a second pressing plate (46).

5. The full-automatic plate shearing and stacking production line for the aluminum plates as claimed in claim 1, wherein the stamping structure comprises: a cylinder (47), an upper die (48), and a lower die (49);

the upper wall surface of the strip-shaped frame (23) stretches over the third strip-shaped groove to be provided with a mounting frame (58), the cylinder (47) is arranged on the lower wall surface of the mounting frame (58), a mounting seat (50) is arranged on the driving end of the cylinder (47), the upper die (48) is arranged on the mounting seat (50), and the lower die (49) is arranged on the upper wall surface of the strip-shaped table (1) and corresponds to the upper die (48).

6. The full-automatic plate shearing and stacking production line for the aluminum plates as claimed in claim 3, wherein a first top rod (51) is fixed to the lower wall surface of the second driving installation seat (27), and a second roller (52) is fixed to the lower wall surface of the first top rod (51).

7. The full-automatic plate shearing and stacking production line for the aluminum plates as claimed in claim 1, wherein second ejector rods (53) are fixed on the lower wall surface of the strip-shaped table (1) and close to four corners, and a gasket (54) is mounted on the lower wall surface of each second ejector rod (53).

8. The full-automatic plate shearing and stacking production line for aluminum plates according to claim 2, wherein gaskets (55) are fixed on the first guide rod (7) and the second guide rod (14).

9. The full-automatic plate shearing and folding production line for the aluminum plates according to claim 2 is characterized in that a first threaded hole is formed in the first carriage (8), a first threaded groove matched with the first threaded hole is formed in the first guide rod (7), and a first screw (56) overlapped with the first threaded groove is inserted into the first threaded hole.

10. The full-automatic plate shearing and folding production line for the aluminum plates as claimed in claim 2, wherein a second threaded hole is formed in the second carriage (15), a second threaded groove matched with the second threaded hole is formed in the second guide rod (14), and a second screw (57) lapped with the second threaded groove is inserted into the second threaded hole.