CN216863137U - Automatic die cutting equipment - Google Patents

Abstract

The utility model discloses automatic die cutting equipment. The utility model comprises a coil feeding device, a die cutting device and a blanking device, the position of a strip material is corrected in real time through a compression correction mechanism, a material grabbing component comprises a first material grabbing part and a second material grabbing part which are arranged at intervals, stable and accurate grabbing of the strip material is realized, subsequent cutting quality and cutting efficiency are improved, the coil material is grabbed to a cutting platform on a die cutting workbench by the material grabbing component, a die cutting plate is driven by a first driving part to move downwards, so that a cutting die cuts a gas diffusion layer on the cutting platform, the cutting die is detachably arranged on the die cutting plate, the cutting die is replaced according to production requirements so as to cut the gas diffusion layers with different sizes and quantities, the flexible production capacity is realized, after die cutting is finished, the cutting platform slides to the blanking workbench, the cut coil material is transferred through a slidable material taking part, and the cut coil material is completely grabbed and transferred at one time by adopting a fourth vacuum suction plate, the blanking efficiency is improved.

Description

Automatic die cutting equipment

Technical Field

The utility model relates to the technical field of fuel cells, in particular to automatic die cutting equipment.

Background

In the field of fuel cell production, a Gas Diffusion Layer (Gas Diffusion Layer) of a coil or sheet needs to be cut to meet the requirements of a cell. At the present stage, the gas diffusion layer slitting equipment mostly adopts cutting die slitting or laser cutting. In the cutting die cutting scheme, a single-blade cutting die is adopted for cutting, and automatic die cutting equipment for single-blade cutting in production is not used temporarily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide automatic die cutting equipment with high die cutting efficiency and good quality aiming at the defects in the prior art.

The utility model discloses automatic die cutting equipment which comprises a coil feeding device, a die cutting device and a discharging device, wherein the coil feeding device comprises a discharging roller, a compression deviation correcting mechanism and a conveying mechanism, the conveying mechanism comprises a material grabbing component and a driving component, the material grabbing component comprises a first material grabbing part and a second material grabbing part which are arranged at intervals, the driving component is in transmission connection with the material grabbing component so as to drive the first material grabbing part and the material grabbing part to synchronously move in the same direction, a coil is sleeved on the discharging roller, the material grabbing component grabs a material belt, and the compression deviation correcting mechanism is arranged between the discharging roller and the material grabbing component and used for correcting the belt;

the die cutting device comprises a die cutting workbench, a cutting platform and a cutting mechanism, wherein the cutting mechanism comprises a support frame, a first driving piece, a die cutting plate and a cutting die, the cutting platform is slidably arranged on the die cutting workbench, a third vacuum suction plate for tightly sucking a gas diffusion layer is arranged on the cutting platform, the support frame is erected on the die cutting workbench, the die cutting plate is arranged above the die cutting workbench and can move up and down relative to the die cutting workbench, the first driving piece is arranged on the support frame and is in transmission connection with the die cutting plate so as to drive the die cutting plate to move up and down, and the cutting die is detachably arranged on the die cutting plate; the cutting die comprises a template and a plurality of blades arranged on the lower surface of the template;

the blanking device comprises a blanking workbench and a material taking mechanism, the cutting platform can slide to the blanking workbench, the material taking mechanism comprises a material taking support and a material taking part, the material taking support is fixedly arranged on the blanking workbench, the material taking part can slide to be arranged on the material taking support, the material taking part comprises a sliding plate, a second driving part and a fourth vacuum suction plate, the sliding plate can slide to be arranged on the material taking support, the second driving part is arranged on the sliding plate, and the second driving part is connected with the fourth vacuum suction plate in a transmission mode to drive the fourth vacuum suction plate to move up and down.

Further, the first material grabbing part comprises a first mounting plate and a first vacuum suction plate which can move up and down and is arranged on the lower surface of the first mounting plate; the second material grabbing part comprises a second mounting plate and a second vacuum suction plate which can move up and down and is arranged on the lower surface of the second mounting plate.

Further, first grabbing piece includes third mounting panel, first splint, first extensible member, two second splint and two second extensible members, but first splint through the installation of first extensible member up-and-down motion the below of third mounting panel, two the second splint set up respectively the below at the both ends of first splint, the second extensible member sets up on the third mounting panel, and with the transmission of second splint is connected, with the drive second splint up-and-down motion.

Further, the pressing deviation correcting mechanism and the conveying mechanism are arranged on the feeding workbench; two ends of the third mounting plate and the second mounting plate are fixedly connected through two connecting plates; the driving assembly comprises two electric sliding rails arranged on the feeding workbench, electric sliding blocks are arranged on the electric sliding rails, and the two connecting plates are arranged on the electric sliding rails in a sliding manner through the electric sliding blocks.

Furthermore, guide rollers are arranged on two sides of the pressing deviation rectifying mechanism, a guide plate is further arranged at one end, close to the discharging roller, of the feeding workbench, and the strip material is placed on the guide plate; and a protective film winding mechanism is further arranged below one side of the discharging roller close to the pressing deviation rectifying mechanism.

Further, the cutting die is detachably mounted on the die cutting plate through a mounting assembly; the mounting assembly comprises two cylinder chucks which are respectively arranged on two sides of the die cutting plate so as to clamp or loosen the cutting die.

Furthermore, a drawing handle is arranged on the template; the first driving piece comprises an electric cylinder or an air cylinder, and the driving end of the first driving piece is in transmission connection with the die cutting plate; a fixed plate is fixedly arranged on the support frame, and the electric cylinder or the air cylinder is fixed on the fixed plate; the fixed plate is provided with a plurality of first guide holes, first guide rods are arranged in the first guide holes, and the bottom ends of the first guide rods are fixedly connected with the die-cutting plate.

Furthermore, one side of getting the material support is equipped with the slide rail, one side slidable of slide sets up on the slide rail, the opposite side of getting the material support is equipped with the second guide bar, but the opposite side of slide is established through the slider cover outside the second guide bar, drive actuating cylinder setting and be in get on the material support, and with the slider transmission is connected, in order to drive the slider moves along the guide bar.

Further, get material piece and still include driving plate and two at least guide posts, be equipped with two at least second guiding holes on the slide, the gliding setting of guide post is in the second guiding hole of one-to-one from top to bottom, the driving plate links firmly the bottom of guide post, the fourth vacuum suction disc sets firmly through the erection column the below of driving plate, the both ends of erection column respectively with vacuum suction disc and driving plate are connected fixedly.

Furthermore, a pair of slideways arranged at intervals are arranged on the blanking workbench and the die cutting workbench, and the cutting platform can be slidably arranged on the slideways so as to slide back and forth between the blanking workbench and the die cutting workbench; the blanking workbench is located at the position between the pair of the slideways and is provided with a first photoelectric sensor and a second photoelectric sensor, the first photoelectric sensor and the second photoelectric sensor are arranged at intervals along the length extending direction of the slideways, and a shielding plate is arranged below the cutting platform and used for shielding light source signals of the first photoelectric sensor or the second photoelectric sensor.

The position of a strip material is corrected in real time through the compression correction mechanism, the material grabbing component comprises the first material grabbing part and the second material grabbing part which are arranged at intervals, stable and accurate grabbing of the strip material is achieved, subsequent cutting quality and cutting efficiency are improved, the material grabbing component grabs a coil material to the cutting platform on the die cutting workbench, the first driving piece drives the die cutting plate to move downwards, the cutting die cuts the gas diffusion layers on the cutting platform, the cutting die is detachably mounted on the die cutting plate, the cutting die can be replaced according to actual production requirements, the gas diffusion layers with different sizes and different quantities can be cut, and the production capacity is flexible. After the cross cutting, cut the platform and slide to the unloading workstation on, get the material spare through slidable, realize being shifted to another station from a station by the coil stock of cutting to through adopting the fourth vacuum suction disc to once only all snatch the transfer with the coil stock after the cross cutting, improved the efficiency of unloading.

Drawings

FIG. 1 is a schematic structural view of an automatic die cutting apparatus of the present invention;

FIG. 2 is a schematic structural view of a coil feeding device according to the present invention;

FIG. 3 is a schematic structural diagram of a conveying mechanism of a coil feeding device according to the present invention;

FIG. 4 is a schematic structural view of an embodiment of the first grasping element according to the present invention;

FIG. 5 is a schematic view of the structure of the die cutting device of the present invention;

FIG. 6 is an enlarged view of a portion of the die cutting apparatus of the present invention;

FIG. 7 is a schematic structural view of a blanking device of the present invention;

fig. 8 is a schematic structural position diagram of the blanking tray, the first photoelectric sensor and the second photoelectric sensor of the utility model;

1. a coil feeding device; 11. a discharging roller; 12. a pressing deviation rectifying mechanism; 13. a conveying mechanism; 131. A material grabbing component; 1311. a first grasping member; 13111. a third mounting plate; 13112. a first splint; 13113. a first telescoping member; 13114. a second splint; 13115. a second telescoping member; 13116. a first mounting plate; 13117. a first vacuum pickup plate; 13118. a connecting plate; 1312. a second grasping member; 13121. a second mounting plate; 13122. a second vacuum pickup plate; 132. a drive assembly; 1321. an electrical slide rail; 1322. an electrical slider; 14. a feeding workbench; 15. a guide roller; 16. a guide plate; 17. a protective film winding mechanism;

2. a die cutting device; 21. a die cutting workbench; 22. a cutting platform; 23. a cutting mechanism; 231. a support frame; 232. a first driving member; 233. die cutting the plate; 234. cutting the die; 2341. a template; 2342. a pull handle; 24. mounting the component; 241. a cylinder chuck; 25. a fixing plate; 251. a first guide hole; 26. a first guide bar; 27. a third vacuum suction plate;

3. a blanking device; 31. a blanking workbench; 33. a material taking mechanism; 331. a material taking bracket; 332. taking a material part; 3321. a slide plate; 33211. a second guide hole; 3322. a second driving member; 3323. a fourth vacuum suction plate; 3324. a drive plate; 3325. a guide post; 333. a slide rail; 334. a second guide bar; 335. mounting a column; 336. a slider; 337. a driving cylinder; 34. a slideway; 35. a first photosensor; 36. a second photosensor; 37. a shielding plate.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 2, an automatic die cutting device comprises a coil feeding device 1, a die cutting device 2 and a blanking device 3, wherein the coil feeding device 1 comprises a blanking roller 11, a pressing deviation correcting mechanism 12 and a conveying mechanism 13, the conveying mechanism 13 comprises a material grabbing component 131 and a driving component 132, the material grabbing component 131 comprises a first material grabbing piece 1311 and a second material grabbing piece 1312 which are arranged at intervals, the driving component 132 is in transmission connection with the material grabbing component 131 to drive the first material grabbing piece 1311 and the material grabbing to synchronously move in the same direction, the coil is sleeved on the blanking roller 11, the material grabbing component 131 grabs the material belt, and the pressing deviation correcting mechanism 12 is arranged between the blanking roller 11 and the material grabbing component 131 and is used for correcting the belt;

as shown in fig. 5 and 6, the die cutting device 2 includes a die cutting table 21, a cutting platform 22 and a cutting mechanism 23, the cutting mechanism 23 includes a supporting frame 231, a first driving member 232, a die cutting plate 233 and a cutting die 234, the cutting platform 22 is slidably disposed on the die cutting table 21, the cutting platform 22 is provided with a third vacuum suction plate 27 for tightly sucking the gas diffusion layer, the supporting frame 231 is erected on the die cutting table 21, the die cutting plate 233 is disposed above the die cutting table 21 and can move up and down relative to the die cutting table 21, the first driving member 232 is disposed on the supporting frame 231 and is in transmission connection with the die cutting plate 233 to drive the die cutting plate 233 to move up and down, and the cutting die 234 is detachably mounted on the die cutting plate 233; the cutting die 234 includes a die plate 2341 and a plurality of blades provided on a lower surface of the die plate 2341;

as shown in fig. 7, the blanking device 3 includes a blanking workbench 31 and a material taking mechanism 33, the cutting platform 22 is slidable on the blanking workbench 31, the material taking mechanism 33 includes a material taking support 331 and a material taking member 332, the material taking support 331 is fixed on the blanking workbench 31, the material taking member 332 is slidably disposed on the material taking support 331, the material taking member 332 includes a sliding plate 3321, a second driving member 3322 and a fourth vacuum suction plate 3323, the sliding plate 3321 is slidably disposed on the material taking support 331, the second driving member 3322 is disposed on the sliding plate 3321, and the second driving member 3322 is in transmission connection with the fourth vacuum suction plate 3323 to drive the fourth vacuum suction plate 3323 to move up and down.

According to the utility model, the position of the belt material is corrected in real time through the pressing correction mechanism 12, the material grabbing component 131 comprises the first material grabbing component 1311 and the second material grabbing component 1312 which are arranged at intervals, stable and accurate grabbing of the belt material is realized, subsequent cutting quality and cutting efficiency are improved, the coil material is grabbed to the cutting platform 22 on the die cutting workbench 21 by the material grabbing component 131, the die cutting plate 233 is driven by the first driving component 232 to move downwards, so that the gas diffusion layers on the cutting platform 22 are cut by the cutting die 234, the cutting die 234 is detachably mounted on the die cutting plate 233, the cutting die 234 can be replaced according to actual production requirements, so that the gas diffusion layers with different sizes and quantities are cut, and the production capacity is flexible. After the die cutting is finished, the cutting platform 22 slides to the blanking workbench 31, the material taking part 332 can slide, the cut coil materials are transferred to another station from one station, and the fourth vacuum suction plate 3323 is used for grabbing and transferring all the die-cut coil materials at one time, so that the blanking efficiency is improved.

As shown in fig. 4, the first material gripping member 1311 may have various structures, which are not limited herein, and in an implementation manner, the first material gripping member 1311 may include a first mounting plate 13116 and a first vacuum suction plate 13117 disposed on a lower surface of the first mounting plate 13116 and movable up and down, and the strip material is sucked by the first vacuum suction plate 13117, where the first vacuum suction plate 13117 moves up and down relative to the first mounting plate 13116, which may be implemented in various manners, such as: by means of an air cylinder, the air cylinder is provided on the first mounting plate 13116, and the first vacuum suction plate 13117 is provided at the driving end of the air cylinder.

As shown in fig. 3, in another practical manner, the first gripper 1311 may include a third mounting plate 13111, a first clamping plate 13112, a first telescopic member 13113, two second clamping plates 13114 and two second telescopic members 13115, the first clamping plate 13112 is mounted below the third mounting plate 13111 through a first telescopic member 13113, the two second clamping plates 13114 are respectively disposed below two ends of the first clamping plate 13112, and the second telescopic member 13115 is disposed on the third mounting plate 13111 and is in transmission connection with the second clamping plate 13114 to drive the second clamping plate 13114 to move up and down, so that the second clamping plate 13114 and the first clamping plate 13112 clamp the strap to grip the strap.

As shown in fig. 3, the second gripper 1312 may have various structures, which are not limited herein, and in an implementation manner, the second gripper 1312 may include a second mounting plate 13121 and a second vacuum suction plate 13122 disposed on a lower surface of the second mounting plate 13121 and movable up and down, and the web may be sucked by the second vacuum suction plate 13122, where the second vacuum suction plate 13122 moves up and down relative to the second mounting plate 13121, which may be implemented in various manners, such as: by means of an air cylinder, the air cylinder is provided on the second mounting plate 13121, and the second vacuum suction plate 13122 is provided at the driving end of the air cylinder.

The pressing deviation correcting mechanism 12 and the conveying mechanism 13 can be arranged on the feeding workbench 14. There are various structures of the driving assembly 132, and in this embodiment, both ends of the third mounting plate 13111 and the second mounting plate 13121 are connected and fixed by two connecting plates 13118. The driving assembly 132 includes two electric sliding rails 1321 disposed on the feeding table 14, an electric slider 1322 is disposed on the electric sliding rail 1321, the two connecting plates 13118 are slidably disposed on the electric sliding rail 1321 through the electric slider 1322, and the electric slider 1322 drives the conveying mechanism 13 to slide on the electric sliding rail 1321. The feeding workbench 14 may further be provided with a synchronous belt (not shown in the figure), when the belt moves, the belt and the synchronous belt move relatively still, so as to avoid direct contact between the belt and the feeding workbench 14, and during movement, sliding friction is generated to damage the belt.

The two sides of the pressing deviation rectifying mechanism 12 can be provided with guide rollers 15, so that the belt material can be guided conveniently.

When the feeding workbench 14 is at a certain distance from the discharging roller 11, a guide plate 16 can be further arranged at one end of the feeding workbench 14 close to the discharging roller 11, and the strip is placed on the guide plate 16, so that the strip is convenient to guide and transport.

When the device is used for feeding gas diffusion layer coil stock, a protective film winding mechanism 17 can be further arranged below one side of the discharging roller 11 close to the pressing deviation rectifying mechanism 12. The material discharging roller 11 is used for automatically discharging the gas diffusion layer coil material, and the protective film winding mechanism 17 is used for collecting the plastic film of the gas diffusion layer.

As shown in fig. 5, the cutting die 234 may be detachably mounted on the die plate 233 in various ways, which are not limited herein, and in this embodiment, the cutting die 234 may be detachably mounted on the die plate 233 by the mounting assembly 24.

The structure of the mounting assembly 24 is various, and is not limited herein, in this embodiment, the mounting assembly 24 may include two cylinder clamps 241, the two cylinder clamps 241 are respectively disposed at both sides of the die-cutting plate 233 to clamp or release the cutting die 234, when the cutting die 234 needs to be replaced, the cylinder clamps 241 release the cutting die 234, a worker takes out the cutting die 234 and then puts a new cutting die 234, and the cylinder clamps 241 clamp the cutting die 234.

The structure of the cutting die 234 may be varied, and is not limited herein, and in this embodiment, the cutting die 234 may include a template 2341 and a plurality of blades provided on a lower surface of the template 2341, such that a plurality of gas diffusion layers are cut at a time by a single cutting die 234.

The template 2341 can be provided with a pulling handle 2342, so that the cutting die 234 can be conveniently held and replaced.

The first driving member 232 has various structures, which are not limited herein, and in this embodiment, the first driving member 232 may include an electric cylinder or an air cylinder, a driving end of the electric cylinder or the air cylinder is in transmission connection with the die-cutting plate 233, and the electric cylinder or the air cylinder drives the die-cutting plate 233 to move up and down.

The supporting frame 231 may be fixedly provided with a fixing plate 25, and an electric cylinder or an air cylinder is fixed on the fixing plate 25. The fixing plate 25 may be provided with a plurality of first guide holes 251, the first guide rods 26 are disposed in the first guide holes 251, the bottom ends of the first guide rods 26 are fixedly connected to the die-cutting plate 233, and the die-cutting plate 233 is convenient to move up and down by the arrangement of the first guide rods 26 and the first guide holes 251.

The cutting platform 22 is provided with a third vacuum suction plate 27 for tightly sucking the gas diffusion layer, so that the die cutting is facilitated.

The cutting platform 22 can be arranged on the die cutting workbench 21 in a sliding mode, and after cutting is finished, the cut gas diffusion layer is discharged.

The upper surface of the die-cutting plate 233 may be further provided with a plurality of reinforcing ribs to ensure the structural stability thereof.

As shown in fig. 7, there are various ways in which the sliding plate 3321 can be slidably disposed on the material taking support 331, in this embodiment, a sliding rail 333 is disposed on one side of the material taking support 331, one side of the sliding plate 3321 can be slidably disposed on the sliding rail 333, a second guiding rod 334 is disposed on the other side of the material taking support 331, the other side of the sliding plate 3321 is sleeved outside the second guiding rod 334 by a slidable block 336, and the driving cylinder 337 is disposed on the material taking support 331 and is in transmission connection with the slidable block 336 to drive the slidable block 336 to move along the second guiding rod 334.

The mode that second driving piece 3322 and fourth vacuum suction plate 3323 transmission are connected has the multiple, in this embodiment, it can also include driving plate 3324 and two at least guide post 3325 to get material piece 332, be equipped with two at least second guiding holes 33211 on the slide 3321, the gliding setting in the second guiding hole 33211 of one-to-one about the guide post 3325 can, driving plate 3324 links firmly the bottom at guide post 3325, fourth vacuum suction plate 3323 sets firmly in the below of driving plate 3324 through erection column 335, the both ends of erection column 335 are connected fixedly with fourth vacuum suction plate 3323 and driving plate 3324 respectively. The second driving piece 3322 drives the transmission plate 3324 to move up and down, and the fourth vacuum suction plate 3323 moves up and down along with the transmission plate 3324, so that the second driving piece 3322 drives the transmission plate 3324 to move up and down more stably through the guide posts 3325.

There are various ways in which the cutting platform 22 is slidably disposed on the blanking table 31 and the die cutting table 21, in this embodiment, a pair of spaced slideways 34 are disposed on the blanking table 31 and the die cutting table 21, and the cutting platform 22 is slidably disposed on the slideways 34 to slide back and forth between the blanking table 31 and the die cutting table 21.

As shown in fig. 8, a first photosensor 35 and a second photosensor 36 are disposed at a position of the blanking workbench 31 between the pair of slideways 34, the first photosensor 35 and the second photosensor 36 are disposed at intervals along a length extending direction of the slideways 34, a shielding plate 37 is disposed below the cutting platform 22 for shielding a light source signal of the first photosensor 35 or the second photosensor 36, when the cutting platform 22 moves to the shielding plate 37 to shield the first photosensor 35, the cutting platform is a normal working signal, the die cutting device can normally operate, and when the cutting platform 22 moves to the shielding plate 37 to shield the second photosensor 36, the cutting platform is a pause working signal, the die cutting device can pause operation, so that sufficient time can be left, and a worker can take out a material on the cutting platform 22.

The above is not relevant and is applicable to the prior art.

While certain specific embodiments of the present invention have been described in detail by way of illustration, it will be understood by those skilled in the art that the foregoing is illustrative only and is not limiting of the scope of the utility model, as various modifications or additions may be made to the specific embodiments described and substituted in a similar manner by those skilled in the art without departing from the scope of the utility model as defined in the appending claims. It should be understood by those skilled in the art that any modifications, equivalents, improvements and the like made to the above embodiments in accordance with the technical spirit of the present invention are included in the scope of the present invention.

Claims (10)

1. An automatic die cutting equipment which characterized in that: the automatic material grabbing device comprises a coil feeding device, a die cutting device and a blanking device, wherein the coil feeding device comprises an emptying roller, a compression deviation correcting mechanism and a conveying mechanism, the conveying mechanism comprises a material grabbing component and a driving component, the material grabbing component comprises a first material grabbing part and a second material grabbing part which are arranged at intervals, the driving component is in transmission connection with the material grabbing component to drive the first material grabbing part and the material grabbing part to synchronously move in the same direction, a coil is sleeved on the emptying roller, the material grabbing component grabs a material belt, and the compression deviation correcting mechanism is arranged between the emptying roller and the material grabbing component and used for correcting the belt;

the die cutting device comprises a die cutting workbench, a cutting platform and a cutting mechanism, wherein the cutting mechanism comprises a support frame, a first driving piece, a die cutting plate and a cutting die, the cutting platform is slidably arranged on the die cutting workbench, a third vacuum suction plate for tightly sucking a gas diffusion layer is arranged on the cutting platform, the support frame is erected on the die cutting workbench, the die cutting plate is arranged above the die cutting workbench and can move up and down relative to the die cutting workbench, the first driving piece is arranged on the support frame and is in transmission connection with the die cutting plate so as to drive the die cutting plate to move up and down, and the cutting die is detachably arranged on the die cutting plate; the cutting die comprises a template and a plurality of blades arranged on the lower surface of the template;

the blanking device comprises a blanking workbench and a material taking mechanism, the cutting platform can slide to the blanking workbench, the material taking mechanism comprises a material taking support and a material taking part, the material taking support is fixedly arranged on the blanking workbench, the material taking part can slide to be arranged on the material taking support, the material taking part comprises a sliding plate, a second driving part and a fourth vacuum suction plate, the sliding plate can slide to be arranged on the material taking support, the second driving part is arranged on the sliding plate, and the second driving part is in transmission connection with the fourth vacuum suction plate to drive the fourth vacuum suction plate to move up and down.

2. An automatic die cutting apparatus as claimed in claim 1, wherein: the first material grabbing piece comprises a first mounting plate and a first vacuum suction plate which can move up and down and is arranged on the lower surface of the first mounting plate; the second material grabbing part comprises a second mounting plate and a second vacuum suction plate which can move up and down and is arranged on the lower surface of the second mounting plate.

3. An automatic die cutting apparatus as claimed in claim 1, wherein: first grabbing piece includes third mounting panel, first splint, first extensible member, two second splint and two second extensible members, but first splint are installed through first extensible member up-and-down motion the below of third mounting panel, two the second splint set up respectively the below at the both ends of first splint, the second extensible member sets up on the third mounting panel, and with the transmission of second splint is connected, with the drive second splint up-and-down motion.

4. An automatic die cutting apparatus as claimed in claim 3, wherein: the pressing deviation correcting mechanism and the conveying mechanism are arranged on the feeding workbench; two ends of the third mounting plate and the second mounting plate are fixedly connected through two connecting plates; the driving assembly comprises two electric sliding rails arranged on the feeding workbench, an electric sliding block is arranged on each electric sliding rail, and the two connecting plates are arranged on the electric sliding rails in a sliding mode through the electric sliding blocks.

5. An automatic die cutting apparatus as claimed in claim 4, wherein: guide rollers are arranged on two sides of the pressing deviation rectifying mechanism, a guide plate is further arranged at one end, close to the discharging roller, of the feeding workbench, and a strip material is placed on the guide plate; and a protective film winding mechanism is arranged below one side of the compressing and deviation rectifying mechanism, which is close to the discharging roller.

6. An automatic die cutting apparatus as claimed in claim 1, wherein: the cutting die is detachably arranged on the die cutting plate through a mounting assembly; the mounting assembly comprises two cylinder chucks which are respectively arranged on two sides of the die cutting plate so as to clamp or loosen the cutting die.

7. An automatic die cutting apparatus as claimed in claim 5, wherein: the template is provided with a drawing handle; the first driving piece comprises an electric cylinder or an air cylinder, and the driving end of the first driving piece is in transmission connection with the die cutting plate; a fixed plate is fixedly arranged on the support frame, and the electric cylinder or the air cylinder is fixed on the fixed plate; the fixed plate is provided with a plurality of first guide holes, first guide rods are arranged in the first guide holes, and the bottom ends of the first guide rods are fixedly connected with the die-cutting plate.

8. An automatic die cutting apparatus as claimed in claim 1, wherein: get one side of material support and be equipped with the slide rail, one side slidable of slide sets up on the slide rail, the opposite side of getting the material support is equipped with the second guide bar, but the opposite side of slide is established through the slider cover outside the second guide bar, drive actuating cylinder setting and be in get on the material support, and with the slider transmission is connected, in order to drive the slider moves along the guide bar.

9. An automatic die cutting apparatus as claimed in claim 8, wherein: get material piece and still include driving plate and two at least guide posts, be equipped with two at least second guiding holes on the slide, the gliding setting of guide post is in the second guiding hole of one-to-one, the driving plate links firmly the bottom of guide post, the fourth vacuum suction disc sets firmly through the erection column the below of driving plate, the both ends of erection column respectively with fourth vacuum suction disc and driving plate are connected fixedly.

10. An automatic die cutting apparatus as claimed in claim 9, wherein: the blanking workbench and the die cutting workbench are provided with a pair of slideways arranged at intervals, and the cutting platform can be arranged on the slideways in a sliding manner so as to slide back and forth between the blanking workbench and the die cutting workbench; the blanking workbench is provided with a first photoelectric sensor and a second photoelectric sensor at positions between the pair of slideways, the first photoelectric sensor and the second photoelectric sensor are arranged at intervals along the length extending direction of the slideways, and a shielding plate is arranged below the cutting platform and used for shielding light source signals of the first photoelectric sensor or the second photoelectric sensor.

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