CN214163989U - Semi-automatic flexible line way board carousel formula multistation all-in-one of bending - Google Patents

Abstract

The utility model relates to a flexible line way board technical field, specifically speaking relates to a semi-automatic flexible line way board carousel formula multistation all-in-one of bending. It includes the roof, installs last forming device of roof bottom, install go up the carousel device of forming device bottom and install the lower forming device of carousel device bottom, a plurality of gear support are installed on the carousel top, the pinion is installed to the gear support inboard, gear support side-mounting has the pressure material piece, and is wherein three press the material piece bottom to install and install the flexible line board of bending of first station, the flexible line board of bending of second station and the flexible line board of bending of third station respectively. The utility model discloses a flexible line way board is rolled over in advance, is bent, heats all-in-one design to realize that flexible line way board realizes multichannel process on same platform equipment, can multistation processing moreover, 2 flexible line way boards of one-step refining, effectual improvement efficiency, use manpower sparingly, material resources.

Description

Semi-automatic flexible line way board carousel formula multistation all-in-one of bending

Technical Field

The utility model relates to a flexible line way board technical field, specifically speaking relates to a semi-automatic flexible line way board carousel formula multistation all-in-one of bending.

Background

In the modern society, with the continuous development of information technology, electronic products such as mobile phones and computers become an indispensable part of people's lives, according to statistics of data mechanisms, the annual shipment of famous mobile phone brands such as samsung, huashi, apple, millet, OPPO and the like in 2019 years is 13.7 million, and the number is increased year by year, which shows that the demand of people especially for mobile phones is huge, and a flexible circuit board is one of very important components in the mobile phones, and the manufacturing of the flexible circuit board needs to go through a plurality of complicated processes such as designing, blanking, pressing, labeling, heating, pre-folding, bending, detecting and the like, if the processes can be combined into a part as much as possible, so that the tooling equipment required by the processes can be reduced, and the production efficiency can be improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a semi-automatic flexible line way board carousel formula multistation all-in-one of bending to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a semi-automatic flexible line way board carousel formula multistation all-in-one of bending, include the roof, install last forming device of roof bottom, install go up the carousel device of forming device bottom and install the lower forming device of carousel device bottom, its characterized in that: a plurality of jacking posts are connected between the top plate and the upper forming device, the upper forming device comprises an upper stripper plate, support plates are respectively arranged on two sides of the bottom end of the upper stripper plate, a pair of first air cylinders are arranged on the right side of the top end of the upper stripper plate, a first upper cutting die is arranged at the bottom end of each first air cylinder, a pair of second air cylinders are arranged in the middle of the top end of the upper stripper plate, a second upper cutting die is arranged at the bottom end of each second air cylinder, a first upper vertical plate is arranged on the side surface of each second air cylinder, a first upper vertical plate is arranged on the top end of the upper stripper plate, a third air cylinder is arranged on the left side of the top end of the upper stripper plate, a pair of fourth air cylinders are respectively arranged on the side surfaces of two ends of each third air cylinder and the bottom end of each third air cylinder, a second upper vertical plate is arranged on the side surfaces of the two third air cylinders, and the bottom ends of the second upper vertical plates are fixedly connected with the top end of the upper stripper plate, the rotary table device comprises a rotary table, a connecting hole is formed in the top end of the rotary table, a plurality of gear supports are mounted at the top end of the rotary table, a first station bending flexible circuit board, a second station bending flexible circuit board and a third station bending flexible circuit board are mounted at the bottom ends of three gear supports respectively, the lower forming device comprises a main plate, a servo motor is mounted in the middle of the top end of the main plate, the top end of the servo motor is in sleeve fit with the connecting hole, a fifth air cylinder is mounted at the bottom end of the servo motor, a stop block is mounted at the bottom end of the fifth air cylinder, a first lower cutting die is mounted at the bottom end of the stop block, a lower die holder is mounted on the left side of the bottom end of the main plate, a sixth air cylinder is mounted at the top end of the lower die holder, a lower padding plate is mounted at the bottom end of the lower die holder, a plurality of first guide rods are connected between the lower padding plate and the lower die holder, and a lower clamping plate is mounted at the bottom end of the lower padding plate, the bottom end of the lower splint is provided with a plurality of second guide rods, the left side of the bottom end of the main plate is provided with a first lower vertical plate, the left side of the bottom end of the main plate is provided with a pair of second lower vertical plates near the edge, the bottom end of the main plate is provided with a transfer mounting plate near the middle position, the left side of the bottom end of the main plate is provided with a pair of seventh air cylinders near the edge, the bottom end of the seventh air cylinder is provided with a pair of first upper and lower vertical plates near the edge, the side surface of the first upper and lower vertical plates is provided with a first upper and lower material sliding plate, the top end of the first upper and lower vertical plates is provided with an eighth air cylinder, the other end side surface of the first upper and lower vertical plates is provided with a push-down block, the side surface of the first upper and lower material sliding plate is provided with a second upper and lower material sliding plate, the side surface of the second upper and lower material sliding plate is provided with a ninth air cylinder, and the bottom end of the main plate is provided with a pair of third upper and lower material sliding plates, unloading slide on the third side-mounting have the fourth to go up the unloading slide, unloading slide on the third side-mounting have the tenth cylinder, unloading riser on the second is installed on unloading slide top on the third, the eleventh cylinder is installed on unloading riser top on the second.

As a further improvement of the technical scheme, third upper vertical plates are mounted on the side surfaces of the first cylinders.

As a further improvement of the technical solution, a fourth upper cutting die is installed at the bottom end of one of the third upper cutting dies, a fifth upper cutting die is installed at the bottom end of one of the third upper cutting dies, a sixth upper cutting die is installed on the side surface of the fifth upper cutting die, and a seventh upper cutting die is installed at the bottom end of one of the third upper cutting dies.

As a further improvement of the technical scheme, a pinion is installed on the inner side of the gear support, material pressing blocks are installed on the side face of the gear support, and the material pressing blocks are respectively installed at the top ends of the first station bending flexible circuit board, the second station bending flexible circuit board and the third station bending flexible circuit board.

As a further improvement of the technical scheme, a plurality of linear bearings are connected between the lower base plate and the lower clamping plate.

As a further improvement of the technical scheme, a plurality of second guide rods are installed at the bottom end of the lower clamping plate, a pair of second lower cutting dies is installed at the bottom end of the lower clamping plate, a third lower cutting die is installed on the side surface of the second lower cutting die, a pair of fourth lower cutting dies is installed on the side surface of the second lower cutting die, and a fifth lower cutting die is installed on the side surface of the fourth lower cutting die.

As a further improvement of the technical scheme, the gear bar block is arranged at the bottom end of the third feeding and discharging sliding plate.

Compared with the prior art, the beneficial effects of the utility model are that:

in this semi-automatic flexible line way board carousel formula multistation all-in-one of bending, through the design of flexible line way board preflex, bend, heating all-in-one to realize that the flexible line way board realizes multichannel process on same platform equipment, can multistation processing moreover, 2 flexible line way boards of one shot processing, effectual efficiency that has improved uses manpower sparingly, material resources.

Drawings

FIG. 1 is a schematic view of the entire structure of embodiment 1;

FIG. 2 is a schematic view of the upper molding device according to embodiment 1;

FIG. 3 is a schematic structural view of a first cylinder in embodiment 1;

FIG. 4 is a schematic structural view of a second cylinder in embodiment 1;

FIG. 5 is a schematic structural view of a third cylinder in embodiment 1;

FIG. 6 is a schematic structural view of a turntable mechanism according to embodiment 1;

FIG. 7 is a schematic view of the structure of a lower molding mechanism according to embodiment 1;

FIG. 8 is a schematic view of the structure of the lower die holder in example 1;

fig. 9 is a schematic view of a first loading/unloading riser structure of embodiment 1;

FIG. 10 is a schematic view of a third loading/unloading slider in accordance with embodiment 1;

fig. 11 is a diagram illustrating bending of the flexible circuit according to example 1.

The various reference numbers in the figures mean:

1. a top plate; 11. a top pillar;

2. an upper forming device;

21. an upper stripper plate;

22. a support plate;

23. a first cylinder; 231. a first upper cutting die;

24. a second cylinder; 241. a second upper cutting die;

25. a first upper riser;

26. a third cylinder; 261. a fourth cylinder; 262. a third upper cutting die; 263. a fourth upper cutting die; 264. a fifth upper cutting die; 265. a sixth upper cutting die; 266. a seventh upper cutting die;

27. a second upper riser;

28. a third upper riser;

3. a turntable device;

31. a turntable;

32. a gear bracket; 321. a pinion gear; 322. pressing blocks; 323. gear shaft

33. Bending the flexible circuit board at a first station;

34. bending the flexible circuit board at a second station;

35. bending the flexible circuit board at a third station;

4. a lower forming device;

41. a main board;

42. a servo motor; 421. a fifth cylinder; 422. a stopper; 423. a first lower cutting die;

43. a lower die holder;

431. a sixth cylinder;

432. a lower base plate;

433. a first guide bar;

434. a lower splint; 4341. a linear bearing;

435. a second guide bar;

436. a second lower cutting die;

437. a third lower cutting die;

438. a fourth lower cutting die;

439. a fifth lower cutting die;

44. a first lower vertical plate;

45. a second lower vertical plate;

46. a transfer mounting plate;

47. a seventh cylinder; 471. a sixth lower cutting die;

48. a first feeding and discharging vertical plate; 481. a first feeding and discharging sliding plate; 482. an eighth cylinder; 483. pushing the block; 484. a second feeding and discharging sliding plate; 485. a ninth cylinder;

49. a third feeding and discharging sliding plate; 491. a fourth feeding and discharging sliding plate; 492. a tenth cylinder; 493. a second feeding and discharging vertical plate; 494. an eleventh cylinder; 495. a rack block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1-8, the utility model provides a semi-automatic flexible line way board carousel formula multistation all-in-one of bending, including roof 1, install last forming device 2 in roof 1 bottom, install carousel device 3 in last forming device 2 bottom and install lower forming device 4 in carousel device 3 bottom, its characterized in that: a plurality of top posts 11 are connected between the top plate 1 and the upper forming device 2, the upper forming device 2 comprises an upper stripper plate 21, supporting plates 22 are respectively arranged at two sides of the bottom end of the upper stripper plate 21, a pair of first cylinders 23 are respectively arranged at the right side of the top end of the upper stripper plate 21, the first cylinders 23 preferably adopt SDA20 ultrathin cylinders, a pair of second cylinders 24 are respectively arranged at the middle positions of the top ends of the stripper plates 21 on which first upper cutting dies 231 are arranged at the bottom ends of the first cylinders 23, a small cylinder is preferably adopted by the second cylinders 24, a second upper cutting die 241 is respectively arranged at the bottom ends of the second cylinders 24, a first upper riser 25 is arranged at the side surface of the second cylinder 24, the first upper riser 25 is arranged at the top end of the upper stripper plate 21, a third cylinder 26 is arranged at the left side of the top end of the upper stripper plate 21, a SDA20 cylinder is preferably adopted by the third cylinder 26, a pair of fourth cylinders 261 is respectively arranged at the two side surfaces of the third cylinder 26, a SDA16 cylinder is preferably adopted by the fourth cylinder 261, and a SDA16, and a third upper cutting die 262 is respectively arranged at the bottom ends of each of the third cylinder 26, the side surfaces of the two third air cylinders 26 are respectively provided with a second upper vertical plate 27, the bottom ends of the second upper vertical plates 27 are fixedly connected with the top end of the upper stripper plate 21, the turntable device 3 comprises a turntable 31, the top end of the turntable 31 is provided with a connecting hole 311, the top end of the turntable 31 is provided with a plurality of gear supports 32, the bottom ends of the three gear supports 32 are respectively provided with a first station bending flexible circuit board 33, a second station bending flexible circuit board 34 and a third station bending flexible circuit board 35, the lower forming device 4 comprises a main plate 41, the middle position of the top end of the main plate 41 is provided with a servo motor 42, the top end of the servo motor 42 is in sleeve fit with the connecting hole, the bottom end of the servo motor 42 is provided with a fifth air cylinder 421, the fifth air cylinder 421 preferably adopts an SDA20x60 air cylinder, the bottom end of the fifth air cylinder 421 is provided with a stopper 422, the bottom end of the stopper 422 is provided with a first lower cutting die 423, the left side of the bottom end of the main plate 41 is provided with a lower die holder 43, the top end of the lower die holder 43 is provided with a sixth air cylinder 431, the sixth cylinder 431 preferably adopts an ACQ63 cylinder, the bottom end of the lower die holder 43 is provided with a lower cushion 432, a plurality of first guide rods 433 are connected between the lower cushion 432 and the lower die holder 43, the bottom end of the lower cushion 432 is provided with a lower clamp plate 434, the bottom end of the lower clamp plate 434 is provided with a plurality of second guide rods 435, the left side of the bottom end of the main plate 41 is provided with a first lower vertical plate 44, the left side of the bottom end of the main plate 41 is provided with a pair of second lower vertical plates 45 near the edge, the bottom end of the main plate 41 is provided with a transfer mounting plate 46 near the middle position, the left side of the bottom end of the main plate 41 is provided with a pair of seventh cylinders 47 near the edge, the seventh cylinders 47 preferably adopt SDA20 cylinders, the bottom end of the seventh cylinders 47 is provided with a sixth lower cutting die 471, the bottom end of the main plate 41 is provided with a pair of first vertical plates 48 near the edge, the first feeding and discharging slides 481 are installed on the side surfaces of the first feeding and discharging vertical plates 48, the eighth cylinders 482 is installed on the top ends of the first feeding and discharging vertical plates 48, eighth cylinder 482 preferentially adopts CQ2B16 × 40 cylinder, first unloading riser 48 other end side-mounting has the piece 483 of falling, first unloading 481 side-mounting has the unloading slide 484 of going up, the unloading slide 484 of going up of second has the ninth cylinder 485 of going up, the ninth cylinder 485 preferentially adopts SD2B16 × 40 cylinder, mainboard 41 bottom end is installed a pair of third unloading slide 49 of going up, unloading slide 491 of going up is installed to the unloading slide 49 side of going up of third has the fourth, unloading slide 49 side-mounting has the tenth cylinder 492 of going up of third, the CQ2B16 cylinder of preferentially adopting is adopted to tenth cylinder 492, unloading slide 49 top end is installed on the third unloading, unloading 494 top end is installed on second riser 494 of going up, unloading 494 cylinder 494 preferentially adopts CDJ2B16 cylinder on the eleventh cylinder 494.

In this embodiment, a third upper vertical plate 28 is mounted on each side surface of the first cylinder 23. Through the third upper vertical plate 28 arranged on the side surface of the first cylinder 23, the two first cylinders 23 are in a separated state when in work, and the two cylinders can work independently without influencing each other.

Further, a fourth upper cutting die 263 is installed at the bottom end of one of the third upper cutting dies 262, a fifth upper cutting die 264 is installed at the bottom end of one of the third upper cutting dies 262, a sixth upper cutting die 265 is installed on the side surface of the fifth upper cutting die 264, and a seventh upper cutting die 266 is installed at the bottom end of one of the third upper cutting dies 262. Through setting up a plurality of cutting die, make its device process its a plurality of products simultaneously, improve production efficiency.

Specifically, a pinion 321 is installed on the inner side of the gear support 32, a material pressing block 322 is installed on the side surface of the gear support 32, and each material pressing block 322 is installed at the top end of the first station bending flexible circuit board 33, the second station bending flexible circuit board 34 and the third station bending flexible circuit board 35. Through the material pressing plate 322, when the flexible circuit board is bent, the bending of the flexible circuit board is ensured to be fixed and operated in normal working, and the flexible circuit board is prevented from being deformed due to product extrusion.

In addition, a plurality of linear bearings 4341 are connected between the lower pad plate 432 and the lower clamp plate 434.

In addition, a pair of second lower cutting dies 436 is installed at the bottom end of the lower clamp plate 434, a third lower cutting die 437 is installed on the side surface of the second lower cutting die 436, a pair of fourth lower cutting dies 438 is installed on the side surface of the second lower cutting die 436, and a fifth lower cutting die 439 is installed on the side surface of the fourth lower cutting die 438. Through setting up a plurality of cutting die in lower splint 434 bottom, productivity gain for the product processing is accomplished.

Specifically, the gear bar block 495 is mounted at the bottom end of the third loading and unloading sliding plate 49. The second loading and unloading slide plate 484 and the second loading and unloading riser 493 are tightly assembled together through tenons by pushing the rack block 495.

When the turntable type multi-station bending all-in-one machine for the semi-automatic flexible circuit board is used specifically, when equipment starts to operate, an operator places a product on the turntable 31, and then the equipment starts to work;

STEP 1: the eleventh cylinder 494 ejects upwards to push the rack block 495 to extend out, the tenth cylinder 492 ejects to push the third upper and lower sliding plates 49 to slide, the eleventh cylinder 494 retracts downwards to drive the rack block 495 to move downwards, meanwhile, the pinion 321 rotates, the material pressing block 322 overturns to tightly press the flexible circuit board;

STEP 2: the servo motor 42 rotates to drive the turntable 31 to rotate, and stations are switched;

STEP 3: the sixth cylinder 431 is ejected upwards to push the first lower cutting die 423, the second lower cutting die 436, the third lower cutting die 437 and the fourth lower cutting die 438 to move, and meanwhile, the fourth cylinder 261 and the third cylinder 26 are ejected downwards to push the third upper cutting die 262, the fourth upper cutting die 263, the fifth upper cutting die 264, the sixth upper cutting die 265 and the seventh upper cutting die 266 to move, so that the bending of the flexible circuit board at the first station is completed;

STEP 4: the servo motor 42 rotates to drive the turntable 31 to rotate, and stations are switched;

STEP 5: the fourth cylinder 261 is ejected upwards to push the first lower cutting die 423 to move, and meanwhile, the second cylinder 24 is ejected downwards to drive the second upper cutting die to move, so that the flexible circuit board is bent at the second station;

STEP 6: the servo motor 42 rotates to drive the turntable 31 to rotate, and stations are switched;

STEP 7: the seventh cylinder 47 ejects upwards to push the sixth lower cutting die 471 to move, and meanwhile, the first cylinder 23 ejects downwards to push the first upper cutting die 231 to move, so that the flexible circuit board is bent at the third station;

STEP 8: the servo motor 42 rotates to drive the turntable 31 to rotate, and stations are switched;

STEP 9: the eleventh cylinder 494 ejects upwards to push the rack block 495 to extend out, the tenth cylinder 492 ejects to push the third upper and lower sliding plates 49 to slide, the eleventh cylinder 494 retracts downwards to drive the rack block 495 to move downwards, meanwhile, the pinion 321 rotates, the material pressing block 322 overturns to release the flexible circuit;

STEP 10: the servo motor 42 rotates to drive the turntable 31 to rotate, and stations are switched;

STEP 11: the fifth cylinder 421 ejects upwards to push the pushing block 483 to move, then the ninth cylinder 485 extends out to push the pushing block 483 to move, and the bent flexible circuit board is pushed to be taken out;

STEP 12: and resetting each cylinder, finishing the action of the whole machine and finishing the bending of the flexible circuit board.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a semi-automatic flexible line way board carousel formula multistation all-in-one of bending, includes roof (1), installs last forming device (2) of roof (1) bottom, install go up carousel device (3) of forming device (2) bottom and install lower forming device (4) of carousel device (3) bottom, its characterized in that: a plurality of jacking pillars (11) are connected between the top plate (1) and the upper forming device (2), the upper forming device (2) comprises an upper stripper plate (21), supporting plates (22) are mounted on two sides of the bottom end of the upper stripper plate (21), a pair of first cylinders (23) are mounted on the right side of the top end of the upper stripper plate (21), a first upper cutting die (231) is mounted at the bottom end of each first cylinder (23), a pair of second cylinders (24) are mounted at the middle position of the top end of the upper stripper plate (21), a second upper cutting die (241) is mounted at the bottom end of each second cylinder (24), a first upper vertical plate (25) is mounted on the side surface of each second cylinder (24), a third cylinder (26) is mounted on the left side of the upper stripper plate (21), a pair of fourth cylinders (261) are mounted on the side surfaces of two ends of each third cylinder (26), each cutter mould (262) is gone up in the third cylinder (26) and third cylinder (26) bottom all installs the third, two riser (27) are gone up to the second all installed to third cylinder (26) side, riser (27) bottom and go up stripper plate (21) top fixed connection on, carousel device (3) includes carousel (31), connecting hole (311) have been seted up on carousel (31) top, a plurality of gear support (32) are installed on carousel (31) top, wherein three gear support (32) bottom is installed first station flexible circuit board (33), second station flexible circuit board (34) and third station flexible circuit board (35) of bending respectively, lower forming device (4) includes mainboard (41), servo motor (42) are installed to mainboard (41) top intermediate position, servo motor (42) top with the connecting hole cup joints the cooperation, a fifth cylinder (421) is installed at the bottom end of the servo motor (42), a stopper (422) is installed at the bottom end of the fifth cylinder (421), a first lower cutting die (423) is installed at the bottom end of the stopper (422), a lower die holder (43) is installed on the left side of the bottom end of the main board (41), a sixth cylinder (431) is installed at the top end of the lower die holder (43), a lower padding plate (432) is installed at the bottom end of the lower die holder (43), a plurality of first guide rods (433) are connected between the lower padding plate (432) and the lower die holder (43), a lower clamping plate (434) is installed at the bottom end of the lower padding plate (432), a plurality of guide rods (435) are installed at the bottom end of the lower clamping plate (434), a first lower vertical plate (44) is installed on the left side of the bottom end of the main board (41), a pair of second lower vertical plates (45) is installed on the left side of the bottom end of the main board (41) near the border position, a transfer installation plate (46) near the middle position, a pair of seventh cylinders (47) are installed on the left side of the bottom end of the main board (41) close to the edge position, a sixth lower cutter die (471) is installed at the bottom end of the seventh cylinders (47), a pair of first feeding and discharging vertical plates (48) are installed on the bottom end of the main board (41) close to the edge position, a first feeding and discharging sliding plate (481) is installed on the side surface of each first feeding and discharging vertical plate (48), an eighth cylinder (482) is installed at the top end of each first feeding and discharging vertical plate (48), a pushing block (483) is installed on the side surface of the other end of each first feeding and discharging vertical plate (48), a second feeding and discharging sliding plate (484) is installed on the side surface of each first feeding and discharging sliding plate (481), a ninth cylinder (485) is installed on the side surface of each second feeding and discharging sliding plate (484), a pair of third feeding and discharging sliding plates (49) are installed on the side surface of each third feeding and discharging sliding plate (41), tenth cylinder (492) is installed to last unloading slide (49) side of third, last unloading riser (493) are installed on second on unloading slide (49) top of third, eleventh cylinder (494) are installed on last unloading riser (493) top of second.

2. The semi-automatic flexible circuit board carousel formula multistation bending all-in-one of claim 1 characterized in that: and third upper vertical plates (28) are mounted on the side surfaces of the first cylinders (23).

3. The semi-automatic flexible circuit board carousel formula multistation bending all-in-one of claim 1 characterized in that: a fourth upper cutting die (263) is mounted at the bottom end of one of the third upper cutting dies (262), a fifth upper cutting die (264) is mounted at the bottom end of one of the third upper cutting dies (262), a sixth upper cutting die (265) is mounted on the side surface of the fifth upper cutting die (264), and a seventh upper cutting die (266) is mounted at the bottom end of one of the third upper cutting dies (262).

4. The semi-automatic flexible circuit board carousel formula multistation bending all-in-one of claim 1 characterized in that: pinion (321) are installed to gear support (32) inboard, gear support (32) side-mounting has material pressing block (322), and each material pressing block (322) are installed respectively and are bent flexible circuit board (33), second station bending flexible circuit board (34) and third station bending flexible circuit board (35) top in the first station of telling.

5. The semi-automatic flexible circuit board carousel formula multistation bending all-in-one of claim 1 characterized in that: a plurality of linear bearings (4341) are connected between the lower base plate (432) and the lower clamping plate (434).

6. The semi-automatic flexible circuit board carousel formula multistation bending all-in-one of claim 1 characterized in that: a pair of second lower cutting die (436) is installed to lower splint (434) bottom, third lower cutting die (437) is installed to second lower cutting die (436) side, a pair of fourth lower cutting die (438) is installed to second lower cutting die (436) side, fifth lower cutting die (439) is installed to fourth lower cutting die (438) side.

7. The semi-automatic flexible circuit board carousel formula multistation bending all-in-one of claim 1 characterized in that: and a gear bar block (495) is arranged at the bottom end of the third feeding and discharging sliding plate (49).

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