CN220659598U - Laser tab cutting and splitting integrated machine - Google Patents

Abstract

The utility model relates to the technical field of pole piece production equipment, in particular to a laser pole piece cutting and slitting integrated machine which comprises a machine table, an unreeling mechanism, a first reel diameter detector, a tape receiving table, a reinforcing rib forming mechanism, a first tension buffering mechanism, a feeding deviation rectifying mechanism, a tape receiving detection mechanism, a laser pole piece cutting device, a waste collecting mechanism, a pole piece dust removing device, a feeding mechanism, a front and back quality detection device, a labeling device, a second tension buffering mechanism, a slitting deviation rectifying mechanism, a slitting device, a pole belt counting mechanism, a double-sided cleaning mechanism, a reeling tension control mechanism, a material pressing mechanism, a second reel diameter detector, a reeling device, a first deviation rectifying sensor, a second deviation rectifying sensor, two unreeling deviation rectifying driving mechanisms and two reeling deviation rectifying driving mechanisms. The utility model discloses a pole ear cutting shaping and pole area cut have not only been realized, the length count of pole area, and tension size, unreel speed and rolling speed's automatic regulation and control can also be realized.

Description

Laser tab cutting and splitting integrated machine

Technical Field

The utility model relates to the technical field of pole piece production equipment, in particular to a laser pole lug cutting and splitting integrated machine.

Background

In the production process of the pole piece, the pole lug needs to be cut and formed on the two side edges of the pole strip, the pole strip is divided into two parts, and then the cut pole strip is cut to cut out a single pole piece. In order to improve the efficiency of cutting the shaped tab and the cutting, an automatic device is generally adopted in the prior art to process the tab belt. Among the existing patents, china patent document with application number 202211688754.1 discloses a laser tab cutting and slitting automation device which comprises a vertical plate, a discharging module, a laser cutting module, a slitting module, a first rolling module and a second rolling module, wherein the discharging module, the laser cutting module, the slitting module, the first rolling module and the second rolling module are arranged on the vertical plate. The device mainly comprises a discharging module, a laser cutting module, a slitting module, a first rolling module and a second rolling module. In the working process, the blank belt is output from the discharging module and passes through the laser cutting module and the slitting module in sequence; the laser cutting module is used for carrying out laser cutting tab modeling on the edges of the blank belt, and the tabs are formed on the edge positions of the two sides of the blank belt; when the material belt passes through the cutting module, the cutting module divides the blank belt into a first material belt and a second material belt along the central line; finally, the first material belt is input into the first winding module, and the second material belt is input into the second winding module. The device can realize online integration of cutting the pole lugs and pole piece slitting, can improve production efficiency and safety, and quality and stability of products, but can not realize length counting of the winding pole strips and automatic regulation and control of tension, unreeling speed and winding speed. Thus, the drawbacks are quite apparent and there is a need to provide a solution.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide a laser tab cutting and cutting integrated machine.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a laser cuts utmost point ear and cuts all-in-one, which comprises a machine bench and unreels the mechanism, first roll diameter detector, connect the area platform, strengthening rib forming mechanism, first tension buffer memory mechanism, pay-off rectifying mechanism, connect the area detection mechanism, laser cuts utmost point ear device, waste collection mechanism, utmost point ear dust collector, feeding mechanism, positive and negative quality detection device, labeling device, second tension buffer memory mechanism, cut rectifying mechanism, cutting device, utmost point area counting mechanism, two-sided cleaning mechanism, rolling tension control mechanism, swager mechanism, second roll diameter detector and coiling mechanism, unreel the quantity of mechanism, the quantity of first roll diameter detector, the quantity of laser cuts utmost point ear device, the quantity of utmost point area counting mechanism, the quantity of two-sided cleaning mechanism, the quantity of rolling tension control mechanism, the quantity of swager mechanism, the quantity of second roll diameter detector and the quantity of coiling mechanism are two, the unwinding mechanism, the first winding diameter detector, the laser tab cutting device, the pole belt counting mechanism, the double-sided cleaning mechanism, the winding tension control mechanism, the material pressing mechanism, the second winding diameter detector and the winding device are respectively arranged in one-to-one correspondence, the first deviation correcting inductors are arranged on two sides of the feeding deviation correcting mechanism, the second deviation correcting inductors are arranged on two sides of the slitting deviation correcting mechanism, the machine is provided with two unwinding deviation correcting driving mechanisms and two winding deviation correcting driving mechanisms, the two unwinding deviation correcting driving mechanisms are respectively in driving connection with the two unwinding mechanisms, the two winding deviation correcting driving mechanisms are respectively in driving connection with the two winding devices, the first winding diameter detector is electrically connected with the unwinding mechanism, the second winding diameter detector is electrically connected with the winding devices, the two first deviation correcting inductors are respectively and electrically connected with the unreeling deviation correcting driving mechanism and the feeding deviation correcting mechanism, the two second deviation correcting inductors are respectively and electrically connected with the reeling deviation correcting driving mechanism and the slitting deviation correcting mechanism, and the strip connection detecting mechanism is electrically connected with the laser tab cutting device.

Further, the machine is rotatably connected with a plurality of guide rollers, and the guide rollers are arranged along the moving direction of the polar belt.

Further, the tab device is cut to laser includes the vacuum conveyor who rotates the setting, set up in the cutting case of board, set up in the adsorption case of cutting incasement, remove set up in the cutting incasement and with the compressing tightly piece of vacuum conveyor's input, install in the cutting case and be used for driving compressing tightly the piece and be close to or keep away from the vacuum conveyor's compress tightly the driver, communicate in the suction piece of cutting case, install in the board and be used for driving the vacuum conveyor and rotate and provide the vacuum conveyor's vacuum conveying actuating mechanism of negative pressure, be located the laser cutter of one side of cutting case and set up in two blowing nozzles of cutting case, cut the silo has all been seted up to the upper and lower both ends face of cutting case, cut the hole that corresponds with the laser cutter, cross silo and cut the hole all with cut the inner chamber intercommunication of case, the input of vacuum conveyor is outstanding to cut incasement, the output of vacuum conveyor is towards waste collection mechanism, the adsorption case is located the input top of vacuum conveyor, form the cutting space between adsorption case and the vacuum conveyor, two blowing nozzles are located two blowing nozzles of blowing mouth, two both sides are located the blowing mouth of blowing mouth.

Further, the laser tab cutting device also comprises a belt dust removing mechanism arranged at one side of the vacuum conveying belt; the belt dust removing mechanism comprises a dust removing box covered outside the vacuum conveying belt, a dust removing brush rotationally connected in the dust removing box, a rotary dust removing driver which is arranged outside the dust removing box and used for driving the dust removing brush to rotate, and a dust removing pipe communicated with the dust removing box.

Further, the slitting device comprises a base, a slitting seat, a slitting rotation driving mechanism, a slitting upper shaft, a slitting lower shaft, a slitting knife, a slitting bottom die, a dismounting pressing block, a limit stop, a quick-release pushing mechanism and two side guide plates, wherein the base is arranged on a machine table, the slitting upper shaft and the slitting lower shaft are parallel and correspondingly rotate up and down to be arranged on the slitting seat, the slitting knife is arranged on the slitting upper shaft, the slitting bottom die is arranged on the slitting lower shaft, the slitting knife is correspondingly matched with the slitting bottom die, the slitting rotation driving mechanism is arranged on the base, two output ends of the slitting rotation driving mechanism are detachably connected with the slitting upper shaft and the slitting lower shaft respectively through a quick-release structure, the rotation driving mechanism is used for driving the slitting upper shaft and the slitting lower shaft to rotate in opposite directions, the limit stop is arranged on one end of the base close to the slitting rotation driving mechanism, the two side guide plates are parallelly arranged on the base, the limit stop is arranged between the two side guide plates, the dismounting pressing block is detachably arranged on one end of the base away from the slitting rotation driving mechanism, an accommodating space is formed between the slitting pressing block and the slitting bottom block, the slitting bottom seat is accommodated in the accommodating space, the accommodating space is arranged on the base, one end of the quick-release pressing block is close to the base to the bottom surface of the slitting bottom wheel and is connected with a plurality of pushing wheels which are in a rolling direction to the opposite to the bottom wheel.

Further, the base is provided with a side pressure positioning mechanism, the side pressure positioning mechanism is located on the outer side of the accommodating space, and the side pressure end of the side pressure positioning mechanism is used for applying pressure towards one side guide plate to the slitting seat.

Further, a plurality of accommodating grooves are concavely formed in the base, the accommodating grooves are respectively in one-to-one correspondence with the bottom wheels, the accommodating grooves are used for accommodating the bottom wheels, and the bottom wall of each accommodating groove is provided with a guide inclined plane.

Further, the slitting device further comprises a base arranged on the machine table, a leveling seat arranged on the base and a position adjusting mechanism arranged on the leveling seat, wherein an adjusting end of the position adjusting mechanism is connected with the base, the base is in sliding connection with the leveling seat, one end of the base is arranged on the machine table, leveling support legs are arranged at the bottom of the other end of the base, the leveling seat is connected with the base through a tension bolt and a locking plate, a plurality of screws are connected with the bottom threads of the leveling seat, the screws are distributed along the side edges of the leveling seat, a top head is arranged at the bottom end of the screws, and the top head is in contact with the top surface of the base.

Further, the winding device comprises a winding mechanism arranged on the machine table and a winding belt pressing mechanism arranged on the machine table, a deviation correcting end of the winding deviation correcting driving mechanism is in driving connection with the winding mechanism, the winding belt pressing mechanism comprises a rotating rod rotatably connected to the machine table, a swinging rod sleeved on the rotating rod, a mounting seat arranged on the swinging rod, a pressing roller rotatably connected to the mounting seat, a gear sleeved at one end of the rotating rod, a rack in sliding connection with the machine table and in meshed transmission with the gear, and a reciprocating driver arranged on the machine table and in driving connection with the rack, the pressing roller is correspondingly arranged with a winding shaft of the winding mechanism, and the detection end of the second winding diameter detector faces the winding shaft of the winding mechanism.

Further, the double-sided cleaning mechanism comprises a cleaning shell arranged on the machine frame, a cleaning driver arranged on the outer side wall of the cleaning shell, two cleaning brushes connected in the cleaning shell in parallel in a rotating mode and two dust collection pieces arranged in the cleaning shell, wherein the two dust collection pieces are respectively positioned below the two cleaning brushes, the cleaning driver is used for driving the two cleaning brushes to rotate in opposite directions, and the cleaning shell is provided with a cleaning groove.

The utility model has the beneficial effects that: in practical application, the pole strip coil is arranged on the unreeling mechanism, the pole strip of the pole strip coil sequentially passes through the first coil diameter detector, the strip receiving table, the reinforcing rib forming mechanism, the first tension buffer mechanism, the feeding deviation correcting mechanism, the strip receiving detecting mechanism, the laser tab cutting device, the waste collecting mechanism, the tab dust removing device, the feeding mechanism, the front and back quality detecting device, the labeling device, the second tension buffer mechanism, the slitting deviation correcting mechanism, the slitting device, the pole strip counting mechanism, the double-sided cleaning mechanism, the winding tension control mechanism, the material pressing mechanism and the second coil diameter detector, and then is wound on a winding reel of the winding mechanism, the feeding mechanism pulls and feeds the pole strip to the feeding mechanism, the reinforcing rib forming mechanism rolls and forms the reinforcing rib on two sides of the pole strip, the first tension buffer mechanism not only provides proper tension to the pole strip, but also can buffer a section of length of the pole strip, the first coil diameter detector detects the diameter of the pole strip coil in real time, and calculates the control center to convert the diameter of the pole strip coil into a coil diameter of the coil to the first coil diameter detecting mechanism, the first coil diameter detecting mechanism is driven by the first coil diameter correcting mechanism, the coil diameter correcting mechanism is driven by the first coil diameter correcting mechanism and the reel diameter correcting mechanism is driven by the reel diameter correcting mechanism, the winding speed of the coil diameter correcting mechanism is changed to the coil diameter detecting the coil diameter of the coil diameter is corrected according to the result of the detected by the first coil diameter detecting mechanism, and the reel is stable, and the reel is fed by the reel speed of the reel is corrected by the driving mechanism, the other first deviation correcting sensor feeds back the detection result to the feeding deviation correcting mechanism after deviation correcting detection on the edge of the polar belt, so that the feeding deviation correcting mechanism corrects and adjusts the feeding position of the polar belt, the position accuracy of the polar belt in moving is ensured, two laser tab cutting devices respectively cut and shape the polar lugs on the two sides of the polar belt, which are provided with reinforcing ribs by rolling, the waste materials generated by tab cutting and shaping are collected by the waste material collecting mechanism, the polar belt cut and shaped with the polar lugs is subjected to dust removal treatment on the polar lug of the polar belt by the polar lug dust removing device, the positive and negative quality detecting device is used for detecting the surface quality of the polar belt after dust removal, the labeling device is used for labeling the unqualified position of the polar belt to identify the unqualified position, the second tension buffering mechanism is used for buffering the polar belt and providing proper tension, a second deviation correcting sensor is used for detecting deviation of the edge position of the polar band and feeding the deviation correcting result back to the slitting and correcting mechanism so that the slitting and correcting mechanism is used for correcting deviation of the polar band, the slitting device is used for slitting the polar band after the correction and correcting mechanism so as to divide the polar band into two parts, the two slit polar bands respectively enter the corresponding polar band counting mechanism, the polar band counting mechanism is used for counting the length of the polar band, the double-sided cleaning mechanism is used for cleaning the front side and the back side of the polar band, the two winding devices are used for winding the slit two polar bands respectively, the other second deviation correcting sensor is used for detecting deviation of the edge of the polar band in the winding process and feeding the deviation correcting result back to the winding and correcting driving mechanism so that the winding and correcting driving mechanism is used for correcting deviation of the winding device, the second winding diameter detector is used for detecting the diameter of the polar band wound on the winding device in real time, the diameter change of the pole strip coil is converted into the winding linear speed of the pole strip coil through program calculation of a control center, and the winding linear speed is fed back to a winding tension control mechanism and a winding device to control the tension applied by the winding tension control mechanism to the pole strip coil and the winding speed of the winding device so as to ensure that the winding speeds of the two winding devices are the same. When the pole belt material on one winding mechanism is used up, the pole belt material on the other winding mechanism is wound on the belt receiving table to carry out connection of the pole belt, the belt receiving detection mechanism detects the connection position on the pole belt and feeds the detection result back to the laser pole lug cutting device, so that the laser pole lug cutting device avoids the connection position of the pole belt to carry out pole lug cutting forming. In addition, according to the detection result of the diameter of the pole belt coil by the second coil diameter detector or/and the counting length of the pole belt by the pole belt counting mechanism, when the diameter of the pole belt coil wound on the winding device reaches a preset value, the corresponding pressing mechanism presses the pole belt and then cuts the pole belt, so that an operator can detach the pole belt coil conveniently. The utility model not only automatically realizes the cutting and forming of the pole lugs and the cutting of the pole strips, but also can realize the automatic regulation and control of the length counting, the tension, the unreeling speed and the reeling speed of the pole strips, and ensures the production quality.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic perspective view of a reinforcing rib forming mechanism according to the present utility model.

Fig. 3 is a schematic perspective view of a slitting device according to the utility model.

Fig. 4 is a schematic perspective view of a slitting unit according to the utility model.

Fig. 5 is a schematic perspective view of the slitting device of the present utility model after hiding the slitting unit.

Fig. 6 is a schematic perspective view of a double-sided cleaning mechanism of the present utility model.

Fig. 7 is a schematic perspective view of a winding belt pressing mechanism of the present utility model.

Fig. 8 is a schematic perspective view of a laser tab cutting device according to the present utility model.

Fig. 9 is a schematic perspective view of another view angle of the laser tab cutting device of the present utility model.

Fig. 10 is a partial cross-sectional view of a laser tab cutting device of the present utility model.

Reference numerals illustrate:

1. a machine table; 11. an unreeling mechanism; 12. a first reel detector; 13. a tape receiving table; 14. a first tension buffer mechanism; 15. a feeding deviation correcting mechanism; 16. a front and back quality detection device; 17. a labeling device; 18. a second tension buffer mechanism; 19. a slitting and correcting mechanism; 2. a reinforcing rib forming mechanism; 21. a base; 22. a roll shaft; 23. a housing; 24. a roll-in driver; 25. a rolling seat; 26. rolling a forming roller; 27. a spacing adjustment module; 3. a slitting device; 30. a base; 301. the accommodating groove; 302. a guide slope; 303. a base; 304. leveling seats; 305. a position adjusting mechanism; 306. leveling the support legs; 307. tensioning a bolt; 308. a lock plate; 309. a screw; 31. cutting the base; 32. a slitting rotation driving mechanism; 33. cutting an upper shaft; 34. dividing and cutting off the shaft; 35. a dividing knife; 36. splitting the bottom die; 37. disassembling and assembling the pressing block; 38. a limit stop; 39. a quick-release pushing mechanism; 391. a side guide; 392. an accommodating space; 393. a bottom wheel; 394. a lateral pressure positioning mechanism; 395. a side wheel; 396. a quick-release structure; 397. a coupling; 398. quick-dismantling the head; 399. quick-dismantling the sleeve; 4. a pole belt counting mechanism; 40. a feeding mechanism; 41. a winding tension control mechanism; 42. a second roll diameter detector; 43. a first deviation correcting sensor; 44. a second deviation correcting sensor; 45. a material pressing mechanism; 46. a guide roller; 47. a tape receiving detection mechanism; 48. a waste collection mechanism; 49. a tab dust removal device; 5. a double-sided cleaning mechanism; 51. cleaning the shell; 52. a cleaning drive; 53. a cleaning brush; 54. a dust collection member; 6. a winding device; 61. a winding mechanism; 62. a winding belt pressing mechanism; 63. a rotating rod; 64. swing rod; 65. a mounting base; 66. a material pressing roller; 67. a gear; 68. a rack; 69. a reciprocating driver; 7. a laser tab cutting device; 70. a dust removing mechanism is arranged; 701. a dust removal box; 702. a dust removing brush; 703. rotating the dust removal driver; 704. a dust removal pipe; 71. a vacuum conveyor belt; 72. cutting the box; 721. a material passing groove; 722. cutting the hole; 723. cutting the space; 73. an adsorption box; 74. a pressing member; 75. a compression driver; 76. a suction member; 77. a vacuum conveying driving mechanism; 78. a laser cutter; 79. an air blowing nozzle; 8. unreeling deviation correcting driving mechanism; 81. and a winding deviation rectifying driving mechanism.

Detailed Description

The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model.

As shown in fig. 1 to 10, the utility model provides a laser pole tab cutting and slitting integrated machine, which comprises a machine table 1, an unreeling mechanism 11, a first roll diameter detector 12, a tape receiving table 13, a reinforcing rib forming mechanism 2, a first tension buffer mechanism 14, a feeding deviation rectifying mechanism 15, a tape receiving detecting mechanism 47, a laser pole tab cutting device 7, a waste collecting mechanism 48, a pole tab dust removing device 49, a feeding mechanism 40, a front and back face quality detecting device 16, a labeling device 17, a second tension buffer mechanism 18, a slitting deviation rectifying mechanism 19, a slitting device 3, a pole tape counting mechanism 4, a double-sided cleaning mechanism 5, a reeling tension control mechanism 41, a material pressing mechanism 45, a second roll diameter detector 42 and a reeling device 6 which are sequentially arranged along the moving direction of a pole tape, the number of unreeling mechanisms 11, the number of first reeling diameter detectors 12, the number of laser pole lug cutting devices 7, the number of pole belt counting mechanisms 4, the number of double-sided cleaning mechanisms 5, the number of reeling tension control mechanisms 41, the number of pressing mechanisms 45, the number of second reeling diameter detectors 42 and the number of reeling devices 6 are two, the unreeling mechanisms 11, the first reeling diameter detectors 12, the laser pole lug cutting devices 7, the pole belt counting mechanisms 4, the double-sided cleaning mechanisms 5, the reeling tension control mechanisms 41, the pressing mechanisms 45, the second reeling diameter detectors 42 and the reeling devices 6 are respectively arranged in a one-to-one correspondence manner, the two sides of the feeding deviation rectifying mechanism 15 are respectively provided with a first deviation rectifying sensor 43, the two sides of the slitting deviation rectifying mechanism 19 are respectively provided with a second deviation rectifying sensor 44, the machine 1 is provided with two unreeling deviation rectifying driving mechanisms 8 and two reeling deviation rectifying driving mechanisms 81, the two unreeling deviation rectifying driving mechanisms 8 are respectively connected with the two unreeling mechanisms 11 in a driving manner, the two winding deviation rectifying driving mechanisms 81 are respectively connected with the two winding devices 6 in a driving way, the first winding diameter detector 12 is electrically connected with the unwinding mechanism 11, the second winding diameter detector 42 is electrically connected with the winding devices 6, the two first deviation rectifying inductors 43 are respectively electrically connected with the unwinding deviation rectifying driving mechanisms 8 and the feeding deviation rectifying mechanisms 15, the two second deviation rectifying inductors 44 are respectively electrically connected with the winding deviation rectifying driving mechanisms 81 and the slitting deviation rectifying mechanisms 19, the strip connection detecting mechanism 47 is electrically connected with the laser tab cutting device 7, and the second winding diameter detector 42 is electrically connected with the material pressing mechanism 45.

In practical application, the pole strip coil is arranged on the unreeling mechanism 11, the pole strip of the pole strip coil sequentially passes through the first coil diameter detector 12, the strip receiving table 13, the reinforcing rib forming mechanism 2, the first tension buffer mechanism 14, the feeding deviation correcting mechanism 15, the strip receiving detecting mechanism 47, the laser pole lug cutting device 7, the waste collecting mechanism 48, the pole lug dust removing device 49, the feeding mechanism 40, the front and back quality detecting device 16, the labeling device 17, the second tension buffer mechanism 18, the slitting deviation correcting mechanism 19, the slitting device 3, the pole strip counting mechanism 4, the double-sided cleaning mechanism 5, the reeling tension control mechanism 41, the material pressing mechanism 45 and the second coil diameter detector 42, then is wound on the reeling shaft of the reeling device 6, the feeding mechanism 40 pulls and feeds the pole strip, the unreeling mechanism 11 unreels the pole strip on the pole strip coil, the reinforcing rib forming mechanism 2 rolls and forms reinforcing ribs on two side edges of the pole strip, the first tension buffer mechanism 14 not only provides proper tension for the polar band, but also buffers a section of length of the polar band, the first roll diameter detector 12 detects the diameter of the polar band roll on the unreeling mechanism 11 in real time, and the diameter change of the polar band roll is converted into the unreeling speed of the polar band roll through the program calculation of the control center, the signal is fed back to the unreeling mechanism 11 according to the buffer and tension providing condition of the polar band by the first tension buffer mechanism 14 and the result that the first roll diameter detector 12 detects the diameter change of the polar band roll, so as to control the unreeling speed of the unreeling mechanism 11, the moving stability of the polar band is ensured, the detection result is fed back to the unreeling driving mechanism 8 after the deviation rectifying detection is carried out on the edge of the polar band, so that the unreeling driving mechanism 8 rectifies and adjusts the unreeling position of the unreeling mechanism 11, the other first deviation correcting sensor 43 feeds back the detection result to the feeding deviation correcting mechanism 15 after deviation correcting detection of the edge of the polar band, so that the feeding deviation correcting mechanism 15 corrects and adjusts the feeding position of the polar band, the position accuracy of the polar band during movement is ensured, two laser tab cutting devices 7 respectively cut and shape the polar lugs on the two sides of the polar band, which are provided with reinforcing ribs by rolling, waste materials generated by tab cutting and shaping are collected by a waste collecting mechanism 48, the polar band with the polar lugs by cutting and shaping is subjected to dust removal treatment on the polar lug of the polar band by a polar lug dust removing device 49, the positive and negative quality detecting device 16 carries out surface quality detection on the polar band after dust removal, a label pasting device 17 pastes labels the disqualified position on the polar band to identify the disqualified position, a second tension buffer mechanism 18 buffers and provides proper tension for the polar band, a second deviation correcting sensor 44 performs deviation correcting detection on the edge position of the polar band, and feeds the deviation correcting detection result back to the slitting and deviation correcting mechanism 19, so that the slitting and deviation correcting mechanism 19 performs deviation correcting adjustment on the polar band, the slitting device 3 slits the deviation-corrected polar band to divide the polar band into two parts, the two slit polar bands respectively enter the corresponding polar band counting mechanism 4, the polar band counting mechanism 4 performs length counting on the polar band, the double-sided cleaning mechanism 5 cleans the front side and the back side of the polar band, the two winding devices 6 respectively wind the slit two polar bands, during the winding process, the other second deviation correcting sensor 44 performs deviation correcting detection on the edge of the polar band, and feeds the deviation correcting detection result back to the winding and deviation correcting driving mechanism 81, so that the winding and deviation correcting driving mechanism 81 performs deviation correcting adjustment on the winding position of the winding device 6, the second winding diameter detector 42 detects the diameter of the pole coil wound on the winding device 6 in real time, and converts the diameter change of the pole coil into the winding linear speed of the pole coil through the program calculation of the control center, and feeds back to the winding tension control mechanism 41 and the winding device 6 to control the tension applied by the winding tension control mechanism 41 to the pole coil and the winding speed of the winding device 6 so as to ensure that the winding speeds of the two winding devices 6 are the same. When the pole strip material roll on one winding mechanism 61 is used up, the pole strip material roll on the other winding mechanism 61 is connected on the strip connecting table 13, the strip connecting detection mechanism 47 detects the connection position on the pole strip and feeds the detection result back to the laser pole lug cutting device 7, so that the laser pole lug cutting device 7 avoids the connection position of the pole strip to carry out pole lug cutting forming. In addition, according to the detection result of the second diameter detector 42 on the diameter of the pole coil or/and the counting length of the pole belt counting mechanism 4 on the pole belt, when the diameter of the pole coil wound on the winding device 6 reaches a preset value, the corresponding pressing mechanism 45 presses the pole belt and then cuts the pole belt, so that an operator can detach the pole belt conveniently. The utility model not only automatically realizes the cutting and forming of the pole lugs and the cutting of the pole strips, but also can realize the automatic regulation and control of the length counting, the tension, the unreeling speed and the reeling speed of the pole strips, and ensures the production quality.

In this embodiment, the machine 1 is rotatably connected with a plurality of guide rollers 46, and the plurality of guide rollers 46 are disposed along the moving direction of the pole belt. The guide rollers 46 play a role in guiding and limiting the movement of the polar belt, and the stability of the movement of the polar belt is improved.

In this embodiment, the laser cutting tab device 7 includes a vacuum conveying belt 71 that rotates and sets up, a cutting box 72 that sets up in board 1, an adsorption box 73 that sets up in cutting box 72, remove and set up in cutting box 72 and with the packing piece 74 of the input of vacuum conveying belt 71, install in cutting box 72 and be used for driving packing piece 74 to be close to or keep away from vacuum conveying belt 71 compress tightly driver 75, connect in the suction piece 76 of cutting box 72, install in board 1 and be used for driving vacuum conveying belt 71 to rotate and provide the vacuum conveying belt 71 with the vacuum conveying mechanism 77, be located the laser cutter 78 of one side of cutting box 72 and set up in two blowing nozzles 79 of cutting box 72, cut the cutting hole 722 that corresponds with laser cutter 78 has all been seted up to one side of cutting box 72, the packing hole 721 and cutting hole 722 all communicate with the inner chamber of cutting box 72, the input of vacuum conveying belt 71 is stretched into cutting box 72, install in the vacuum conveying mechanism 77 and be used for driving vacuum conveying belt 71 to rotate and provide the negative pressure to vacuum conveying belt 71, be located two vacuum conveying mechanism's 723 and be located the vacuum conveying mechanism's side of both sides and be located the vacuum conveying groove 723, can be located the vacuum conveying mechanism is located the vacuum conveying mechanism has been used for forming the vacuum conveying mechanism's 723, and is located the vacuum conveying mechanism is located the both sides and is located the vacuum conveying mechanism has been moved to the vacuum conveying mechanism has been used for the vacuum conveying 71.

In practical application, the polar belt passes through two passing grooves 721 which are correspondingly arranged up and down, the polar belt is attached to the adsorption surface of the adsorption box 73 and the positive conveying surface of the vacuum conveying belt 71, the adsorption box 73 and the vacuum conveying belt 71 are respectively used for sucking the polar belt, the part to be cut of the polar belt is positioned in the cutting space 723 and exposed in the cutting hole 722, two blowing nozzles 79 blow the polar belt in the cutting space 723 to enable the polar belt to be smooth, the compressing driver 75 drives the compressing piece 74 to compress the polar belt on the vacuum conveying belt 71, the stability of the upper side and the lower side of the part to be cut of the polar belt is guaranteed, the stability of the polar belt in cutting is guaranteed, laser emitted by the laser cutter 78 cuts the polar belt at the cutting space 723 through the cutting hole 722 to form polar lugs, in the process of cutting the polar belt, the sucking piece 76 sucks smoke and dust in the cutting box 72, and the like in the cutting box 72 can also suck the smoke and dust in the cutting space, and the dust blowing quality of the two nozzles 79 can guarantee the dust blowing and the like. After the pole lug is cut and formed, the two blowing nozzles 79 blow air to the pole lug on the cut pole belt to ensure that the pole lug is smooth, the compressing driver 75 drives the compressing member 74 to move in the direction away from the pole belt so as to loosen the pole belt, the vacuum conveying driving mechanism 77 drives the vacuum conveying belt 71 to rotate and adsorb the pole belt to synchronously move, the part, with the pole lug, of the pole belt, which is cut and formed is moved away from the cutting space 723, and the part, to be cut, of the pole belt is moved to the cutting space 723 so as to realize the conveying of the pole belt, so that the next pole lug cutting and forming can be conveniently carried out. This laser cuts utmost point ear device 7 not only inhale the utmost point area through adsorption case 73 and vacuum conveyor belt 71 in cutting case 72 the upper and lower both sides tight, still blow towards the portion of waiting of utmost point area through two blowing nozzles 79 in order to smooth-going utmost point area and blow away smog, dust etc. and compress tightly the piece 74 and compress tightly the utmost point area, further improved the stability of utmost point area to the utmost point ear cutting shaping's quality has further been guaranteed.

In this embodiment, the laser tab cutting device 7 further includes a belt dust removing mechanism 70 disposed at one side of the vacuum conveyor belt 71, where the belt dust removing mechanism 70 is used to perform dust removing treatment on the vacuum conveyor belt 71, so as to ensure the cleanliness of the vacuum conveyor belt 71; the dust removing mechanism 70 comprises a dust removing box 701 covered outside the vacuum conveying belt 71, a dust removing brush 702 rotatably connected in the dust removing box 701, a rotary dust removing driver 703 arranged outside the dust removing box 701 and used for driving the dust removing brush 702 to rotate, and a dust removing pipe 704 communicated with the dust removing box 701; the rotary dust removal drive 703 may employ a motor. In practical application, the rotary dust removing driver 703 drives the dust removing brush 702 to rotate, and the rotary dust removing brush 702 cleans the vacuum conveying belt 71 to sweep dust on the vacuum conveying belt 71, and at the same time, the dust removing pipe 704 adsorbs the dust to clean the dust, so that the cleaning of the vacuum conveying belt 71 is ensured.

In this embodiment, the slitting device 3 includes a base 30, a slitting base 31, a slitting rotation driving mechanism 32, a slitting upper shaft 33, a slitting lower shaft 34, a slitting cutter 35, a slitting bottom die 36, a dismounting pressing block 37, a limit stop 38, a quick-release pushing mechanism 39 and two side guide plates 391, wherein the base 30 is disposed on the machine table 1, the slitting upper shaft 33 and the slitting lower shaft 34 are parallel and correspondingly rotatably disposed on the slitting base 31 up and down, the slitting cutter 35 is disposed on the slitting upper shaft 33, the slitting bottom die 36 is disposed on the slitting lower shaft 34, the slitting cutter 35 is correspondingly matched with the slitting bottom die 36, the slitting rotation driving mechanism 32 is disposed on the base 30, two output ends of the slitting rotation driving mechanism 32 are detachably connected with the slitting upper shaft 33 and the slitting lower shaft 34 via the quick-release structure 396, the slitting rotation driving mechanism 32 is configured to drive the slitting upper shaft 33 and the slitting lower shaft 34 to rotate in opposite directions, the limit stop 38 is disposed at one end of the base 30 close to the slitting rotation driving mechanism 32, the two side guide plates 391 are disposed in parallel on the base 30, the limit stop 38 is disposed between the two side guide plates 391, the dismounting press block 37 is detachably disposed at one end of the base 30 far away from the slitting rotation driving mechanism 32, a containing space 392 is formed between the limit stop 38, the dismounting press block 37 and the two side guide plates 391, the slitting seat 31 is contained in the containing space 392, the quick-release pushing mechanism 39 is disposed at one end of the base 30 close to the limit stop 38, a pushing end of the quick-release pushing mechanism 39 is configured to apply a pushing force to the slitting seat 31 far away from the limit stop 38, a plurality of bottom wheels 393 are rotatably connected to a bottom surface of the slitting seat 31, and the plurality of bottom wheels 393 are in rolling contact with the base 30; the slitting rotation driving mechanism 32 includes two slitting drivers, which may be motors, and the two slitting drivers are respectively disposed corresponding to the slitting upper shaft 33 and the slitting lower shaft 34; the quick release pushing mechanism 39 comprises a telescopic driver, and the telescopic driver can adopt an electric cylinder, an air cylinder or an oil cylinder and the like.

In practical application, during assembly, the slitting knife 35 is firstly mounted on the slitting upper shaft 33, the slitting bottom die 36 is mounted on the slitting lower shaft 34, the slitting rotation driving mechanism 32 is mounted on a side vertical plate of the base 30, then the slitting upper shaft 33 and the slitting lower shaft 34 are respectively mounted on the slitting seat 31 through bearings, the slitting knife 35 and the slitting bottom die 36 are correspondingly matched to assemble a slitting unit, then the slitting unit is integrally moved on the base 30 along the two side guide plates 391 until the slitting seat 31 of the slitting unit is abutted against the limit stop 38, then the dismounting pressing block 37 is mounted on the base 30 to press-mount the slitting seat 31 in the accommodating space 392, and after the slitting seat 31 is assembled in place, the slitting upper shaft 33 and the slitting lower shaft 34 are just assembled with the two output ends of the slitting rotation driving mechanism 32 through the corresponding quick-dismantling structure 396, so that the two output ends of the slitting rotation driving mechanism 32 are respectively connected with the upper shaft 33 and the slitting lower shaft 34 in a transmission manner. When the pole piece is cut, the pole piece is arranged between the upper cutting shaft 33 and the lower cutting shaft 34 in a penetrating manner, and the upper cutting shaft 33 and the lower cutting shaft 34 are driven to rotate in opposite directions by the cutting rotation driving mechanism 32, so that the cutting knife 35 is matched with the bottom cutting die 36 to cut the pole piece. When the disassembly is performed, after the disassembly pressing block 37 is disassembled, the quick disassembly pushing mechanism 39 applies pushing force to the slitting seat 31 to push the slitting seat 31 outwards, so that the slitting unit moves outwards along the two side guide plates 391, and the two output ends of the slitting rotation driving mechanism 32 are separated from the slitting upper shaft 33 and the slitting lower shaft 34 respectively, so that the slitting unit can be disassembled easily. In addition, during the process of moving the slitting block 31 relative to the base 30, the bottom wheel 393 rolls on the top surface of the base 30, so that the slitting block 31 can be easily moved. The slitting device 3 can realize integral disassembly and assembly of slitting units, is convenient to disassemble, assemble and maintain, saves time and labor, and greatly reduces labor intensity and maintenance difficulty of operators.

In the present embodiment, the base 30 is provided with a lateral pressure positioning mechanism 394, the lateral pressure positioning mechanism 394 is located outside the accommodating space 392, and a lateral pressure end of the lateral pressure positioning mechanism 394 is used for applying pressure towards one of the side guide plates 391 to the slitting seat 31; the side pressure positioning mechanism 394 includes a plurality of side pressure positioning cylinders arranged along the length direction of one side guide 391. During assembly, after the slitting seat 31 is abutted against the limit stop 38, the lateral pressure positioning mechanism 394 applies lateral pushing force to the slitting seat 31 so as to push the slitting seat 31 against one lateral guide plate 391 to position the slitting seat 31 laterally, and the slitting seat 31 can be limited in the accommodating space 392 through locking the dismounting pressing block 37 at the moment, so that accurate installation of the slitting seat 31 is realized, and the position precision and stability of the slitting seat 31 are improved.

Specifically, one side or two sides of the bottom of the slitting seat 31 are rotatably connected with side wheels 395, and the side wheels 395 are used for rolling and abutting against the side guide plates 391. In the moving process of the slitting seat 31, the side wheels 395 roll against the side guide plates 391, so that friction and abrasion are further reduced, the slitting seat 31 moves more smoothly, and disassembly, assembly and maintenance are easier.

Specifically, the quick-dismantling structure 396 includes a coupling 397 mounted on the upper shaft 33 or the lower shaft 34, a quick-dismantling head 398 mounted on the coupling 397, and a quick-dismantling sleeve 399 mounted on the output end of the slitting rotation driving mechanism 32, wherein the quick-dismantling head 398 can be inserted into the quick-dismantling sleeve 399; the quick release sleeve 399 is mounted at the output of the slitting driver.

In practical application, the quick-release head 398 is inserted into the quick-release sleeve 399 to realize quick assembly of the upper cutting shaft 33 or the lower cutting shaft 34 and the output end of the cutting rotation driving mechanism 32; the quick-release head 398 is pulled out of the quick-release sleeve 399, so that the quick-release of the output ends of the upper slitting shaft 33 or the lower slitting shaft 34 and the slitting rotation driving mechanism 32 can be realized, and the disassembly and the assembly are convenient and efficient.

In this embodiment, a plurality of accommodating grooves 301 are concavely disposed on the base 30, the plurality of accommodating grooves 301 are respectively disposed in one-to-one correspondence with the plurality of bottom wheels 393, the accommodating grooves 301 are used for accommodating the bottom wheels 393, and a guiding inclined plane 302 is disposed on a bottom wall of the accommodating grooves 301. In practical application, after the slitting seat 31 is assembled in place, the bottom wheel 393 is just accommodated in the accommodating groove 301, and the bottom wheel 393 is suspended, so that the bottom surface of the slitting seat 31 contacts with the top surface of the base 30, and the rolling friction can be converted into sliding friction, so that the friction force between the slitting seat 31 and the base 30 is increased, and the slitting seat 31 and the base 30 are assembled more firmly and reliably. When the bottom wheel 393 is removed from the accommodating groove 301 during disassembly, the bottom wheel 393 is in rolling contact with the top surface of the base 30, so that the slitting seat 31 can move relative to the base 30. In addition, through the arrangement of the guiding inclined plane 302, the guiding function is achieved, so that the bottom wheel 393 can conveniently move into or out of the accommodating groove 301, and an operator can feel a feeling of a setback, so that the slitting seat 31 can be known to move in place.

In this embodiment, the slitting device 3 further includes a base 303 installed on the machine table 1, a leveling seat 304 disposed on the base 303, and a position adjusting mechanism 305 installed on the leveling seat 304, an adjusting end of the position adjusting mechanism 305 is connected with the base 30, the base 30 is slidably connected with the leveling seat 304, one end of the base 303 is installed on the machine table 1, a leveling leg 306 is installed at the bottom of the other end of the base 303, the leveling seat 304 is connected with the base 303 via a tightening bolt 307 and a locking plate 308, a plurality of screws 309 are in threaded connection with the bottom of the leveling seat 304, the screws 309 are distributed along the side edges of the leveling seat 304, a top is disposed at the bottom end of the screws 309, and the top abuts against the top surface of the base 303; the position adjustment mechanism 305 may employ an existing linear drive module. In practical application, the stability of supporting the base 303 by adjusting the leveling feet 306 can be ensured according to different conditions of supporting surfaces of different places. When the flatness of the leveling seat 304 needs to be adjusted, the tension bolt 307 and the locking plate 308 are loosened, then the screws 309 at different positions are screwed, so that the screws 309 can move and abut against the base 303 through the jacking heads, the size of a local gap between the leveling seat 304 and the base 303 is adjusted, the levelness of the leveling seat 304 is adjusted, the slitting quality of the polar belt is guaranteed, and after the adjustment is finished, the tension bolt 307 and the locking plate 308 are screwed, so that the base 303 and the base 30 are locked together by the tension bolt 307.

In this embodiment, the winding device 6 includes a winding mechanism 61 disposed on the machine 1 and a winding belt pressing mechanism 62 disposed on the machine 1, where the deviation correcting end of the winding deviation correcting driving mechanism 81 is in driving connection with the winding mechanism 61, and the detection end of the second winding diameter detector 42 faces the winding shaft of the winding mechanism 61. In practical application, the winding mechanism 61 is used for winding the polar belt, and the winding belt pressing mechanism 62 presses the polar belt on a winding shaft of the winding mechanism 61 so as to improve the stability of the winding mechanism 61 for winding the polar belt; the winding deviation correcting driving mechanism 81 is used for driving the winding mechanism 61 to move along with the wound pole coil so as to correct the winding position; the second winding diameter detector 42 detects the diameter of the pole belt wound by the winding shaft of the winding mechanism 61.

Specifically, the winding belt pressing mechanism 62 includes a rotating rod 63 rotatably connected to the machine 1, a swinging rod 64 sleeved on the rotating rod 63, a mounting seat 65 mounted on the swinging rod 64, a pressing roller 66 rotatably connected to the mounting seat 65, a gear 67 sleeved on one end of the rotating rod 63, a rack 68 slidably connected to the machine 1 and meshed with the gear 67 for transmission, and a reciprocating driver 69 mounted on the machine 1 and in driving connection with the rack 68, wherein the reciprocating driver 69 can adopt an air cylinder or a linear motor, etc., and the pressing roller 66 is correspondingly arranged with a winding shaft of the winding mechanism 61. In practical application, the reciprocating driver 69 drives the rack 68 to reciprocate, the reciprocating rack 68 drives the gear 67 to rotate, the rotating gear 67 drives the rotating rod 63 to rotate, the rotating rod 63 drives the swinging rod 64 to swing together with the mounting seat 65 and the pressing roller 66, when the winding mechanism 61 winds the pole belt, the pressing roller 66 presses the pole belt on the winding shaft of the winding mechanism 61, and the pressing roller 66 is in rolling contact with the pole belt, so that the stability of winding the pole belt is improved. When the pole roll needs to be replaced, the nip roll 66 is separated from the pole roll to facilitate replacement of the pole roll.

In this embodiment, the double-sided cleaning mechanism 5 includes a cleaning housing 51 mounted on the frame, a cleaning driver 52 mounted on the outer side wall of the cleaning housing 51, two cleaning brushes 53 rotatably connected in parallel in the cleaning housing 51, and two dust collecting members 54 mounted in the cleaning housing 51, the two dust collecting members 54 being respectively located below the two cleaning brushes 53, the cleaning driver 52 being configured to drive the two cleaning brushes 53 to rotate in opposite directions, the cleaning housing 51 being provided with cleaning grooves; the cleaning drive 52 may employ a motor with two cleaning brushes 53 geared via a gear set. In practical application, the cleaning driver 52 drives the two cleaning brushes 53 to rotate, and the two rotating cleaning brushes 53 clean the front and back surfaces of the polar belt, and at the same time, the two dust collection pieces 54 generate negative pressure to timely suck away dust cleaned by the cleaning brushes 53, so as to ensure the cleanness of the polar belt.

Specifically, the reinforcing rib forming mechanism 2 comprises a base 21 installed on the machine table 1, a roll shaft 22 rotatably connected to the base 21, a shell 23 installed on the machine table 1 and located below the base 21, two rolling drivers 24 respectively arranged on the shell 23, two rolling seats 25 respectively in driving connection with the two rolling drivers 24, and two rolling forming rollers 26 respectively in rotational connection with the two rolling seats 25, wherein a plurality of reinforcing press strips are uniformly arranged on the peripheral wall of the rolling forming rollers 26, and the rolling drivers 24 drive the rolling seats 25 to be close to or far away from the roll shaft 22 together with the rolling forming rollers 26; preferably, the roll forming rollers 26 are disposed to correspond to both sides of the pole belt, respectively, by using a vertically upward cylinder for the roll forming driver 24.

In practical application, the polar band is located between roller 22 and roll forming roller 26, roll forming roller 26 is moved towards the direction that is close to roller 22 to roll forming roller 26 is driven to roll forming roller 26, make roll forming roller 26 compress tightly the polar band on roller 22, at the in-process that the polar band removed, the polar band that removes drives roller 22 and roll forming roller 26 rotation, at roll forming roller 26 pivoted in-process, the reinforcement layering on the roll forming roller 26 carries out roll forming to the side of polar band, make the shaping have the reinforcement rib on the side of polar band, in order to improve the intensity of the side of polar band, prevent to cut into the shaping on the polar band and go out the tab after, the tab turns over easily.

Specifically, the reinforcing rib forming mechanism 2 further comprises a spacing adjusting module 27 mounted on the housing 23, the two rolling drivers 24 are respectively connected with two adjusting ends of the spacing adjusting module 27, and the spacing adjusting module 27 is used for adjusting the spacing between the two rolling drivers 24. In practical application, the interval adjusting module 27 adjusts the interval between the two rolling drivers 24 according to the widths of the different polar bands, thereby adjusting the interval between the two rolling forming rollers 26 so that the two rolling forming rollers 26 can respectively correspond to the two side edges of the polar bands.

All technical features in the embodiment can be freely combined according to actual needs.

The foregoing embodiments are preferred embodiments of the present utility model, and in addition, the present utility model may be implemented in other ways, and any obvious substitution is within the scope of the present utility model without departing from the concept of the present utility model.

Claims (10)

1. The utility model provides a utmost point ear is cut to laser and cutting all-in-one which characterized in that: comprises a machine table, an unreeling mechanism, a first reeling diameter detector, a tape receiving table, a reinforcing rib forming mechanism, a first tension buffer mechanism, a feeding deviation rectifying mechanism, a tape receiving detection mechanism, a laser tab cutting device, a waste collection mechanism, a tab dust removing device, a feeding mechanism, a front and back quality detection device, a labeling device, a second tension buffer mechanism, a slitting deviation rectifying mechanism, a slitting device, a pole tape counting mechanism, a double-sided cleaning mechanism, a reeling tension control mechanism, a material pressing mechanism, a second reeling diameter detector and a reeling device which are sequentially arranged along the moving direction of the pole tape, wherein the number of unreeling mechanisms, the number of the first reeling diameter detectors, the number of the laser tab cutting devices, the number of the pole tape counting mechanisms, the number of the double-sided cleaning mechanisms, the number of the reeling tension control mechanism, the number of the material pressing mechanisms, the number of the second reeling diameter detectors and the number of the reeling devices are two, the unwinding mechanism, the first winding diameter detector, the laser tab cutting device, the pole belt counting mechanism, the double-sided cleaning mechanism, the winding tension control mechanism, the material pressing mechanism, the second winding diameter detector and the winding device are respectively arranged in one-to-one correspondence, the first deviation rectifying inductors are arranged on two sides of the feeding deviation rectifying mechanism, the second deviation rectifying inductors are arranged on two sides of the slitting deviation rectifying mechanism, the machine is provided with two unwinding deviation rectifying driving mechanisms and two winding deviation rectifying driving mechanisms, the two unwinding deviation rectifying driving mechanisms are respectively in driving connection with the two unwinding mechanisms, the two winding deviation rectifying driving mechanisms are respectively in driving connection with the two winding devices, the first winding diameter detector is electrically connected with the unwinding mechanism, the second winding diameter detector is electrically connected with the winding device, the two first deviation rectifying inductors are respectively electrically connected with the unwinding deviation rectifying driving mechanisms and the feeding deviation rectifying mechanisms, the two second deviation correcting inductors are respectively electrically connected with the winding deviation correcting driving mechanism and the slitting deviation correcting mechanism, and the strip receiving detection mechanism is electrically connected with the laser tab cutting device.

2. The laser cutting tab and splitting integrated machine according to claim 1, wherein: the machine is rotationally connected with a plurality of guide rollers, and a plurality of guide rollers are arranged along the moving direction of the polar belt.

3. The laser cutting tab and splitting integrated machine according to claim 1, wherein: the utility model provides a pole ear device is cut to laser, including rotating the vacuum conveyor who sets up, set up in the cutting case of board, set up in the adsorption case of cutting the incasement, remove the setting in the cutting case and with the compressing tightly piece of the input of vacuum conveyor, install in the cutting case and be used for driving compressing tightly the piece and be close to or keep away from the vacuum conveyor's compress tightly the driver, communicate in the suction piece of cutting the case, install in the board and be used for driving the vacuum conveyor and rotate and provide the vacuum conveyor with the vacuum conveying driving mechanism of negative pressure, be located the laser cutter of one side of cutting the case and set up in two blowing nozzles of cutting the case, cut the groove has all been seted up to the upper and lower both ends face of cutting the case, cut the hole that corresponds with the laser cutter has been seted up to one side of cutting the groove, cross the groove and cut the hole all with cut the inner chamber intercommunication of case, the input of vacuum conveyor is outstanding to cut the incasement, the output of vacuum conveyor is towards waste collection mechanism, the adsorption case is located the input top of vacuum conveyor, form the cutting space between adsorption case and the vacuum conveyor, two nozzles are located two both sides and blow the blowing mouth towards the blowing space.

4. A laser cutting tab and splitting integrated machine according to claim 3, characterized in that: the laser tab cutting device also comprises a belt dust removing mechanism arranged at one side of the vacuum conveying belt; the belt dust removing mechanism comprises a dust removing box covered outside the vacuum conveying belt, a dust removing brush rotationally connected in the dust removing box, a rotary dust removing driver which is arranged outside the dust removing box and used for driving the dust removing brush to rotate, and a dust removing pipe communicated with the dust removing box.

5. The laser cutting tab and splitting integrated machine according to claim 1, wherein: the slitting device comprises a base, a slitting seat, a slitting rotation driving mechanism, a slitting upper shaft, a slitting lower shaft, a slitting knife, a slitting bottom die, a dismounting pressing block, a limit stop, a quick-release pushing mechanism and two side guide plates, wherein the base is arranged on a machine table, the slitting upper shaft and the slitting lower shaft are parallel and correspondingly rotate up and down to be arranged on the slitting seat, the slitting knife is arranged on the slitting upper shaft, the slitting bottom die is arranged on the slitting lower shaft, the slitting knife is correspondingly matched with the slitting bottom die, the slitting rotation driving mechanism is arranged on the base, two output ends of the slitting rotation driving mechanism are detachably connected with the slitting upper shaft and the slitting lower shaft respectively through a quick-release structure, the slitting rotation driving mechanism is used for driving the slitting upper shaft and the slitting lower shaft to rotate in opposite directions, the limit stop is arranged at one end of the base close to the slitting rotation driving mechanism, the two side guide plates are parallelly arranged on the base, the limit stop is arranged between the two side guide plates, the dismounting pressing block is detachably arranged at one end of the base far away from the slitting rotation driving mechanism, the limit stop, a containing space is formed between the slitting seat and the two side guide plates, the quick-release pressing block is contained in the containing space, one end close to the slitting rotation driving mechanism is arranged on the base, one end of the quick-release pressing block is connected with the bottom wheel and is far away from the bottom wheel, and is connected with the pushing mechanism, and is far away from the bottom from the pushing mechanism.

6. The integrated laser tab and slit cutting machine of claim 5, wherein: the base is provided with a side pressure positioning mechanism, the side pressure positioning mechanism is positioned at the outer side of the accommodating space, and the side pressure end of the side pressure positioning mechanism is used for applying pressure towards one side guide plate to the slitting seat.

7. The integrated laser tab and slit cutting machine of claim 5, wherein: the base is concavely provided with a plurality of holding grooves, and a plurality of holding grooves set up with a plurality of return pulleys one-to-one respectively, and the holding groove is used for holding the return pulley, and the diapire of holding groove is provided with leads the inclined plane.

8. The integrated laser tab and slit cutting machine of claim 5, wherein: the slitting device further comprises a base arranged on the machine table, a leveling seat arranged on the base and a position adjusting mechanism arranged on the leveling seat, wherein an adjusting end of the position adjusting mechanism is connected with the base, the base is in sliding connection with the leveling seat, one end of the base is arranged on the machine table, leveling support legs are arranged at the bottom of the other end of the base, the leveling seat is connected with the base through a tension bolt and a locking plate, a plurality of screws are connected with the bottom thread of the leveling seat in a threaded manner, the screws are distributed along the side edges of the leveling seat, a top head is arranged at the bottom end of the screws, and the top head is in contact with the top surface of the base.

9. The laser cutting tab and splitting integrated machine according to claim 1, wherein: the winding device comprises a winding mechanism arranged on the machine table and a winding belt pressing mechanism arranged on the machine table, wherein the deviation correcting end of the winding deviation correcting driving mechanism is in driving connection with the winding mechanism, the winding belt pressing mechanism comprises a rotating rod rotatably connected to the machine table, a swinging rod sleeved on the rotating rod, a mounting seat arranged on the swinging rod, a material pressing roller rotatably connected to the mounting seat, a gear sleeved on one end of the rotating rod, a rack in sliding connection with the machine table and in meshed transmission with the gear, and a reciprocating movement driver arranged on the machine table and in driving connection with the rack, and the material pressing roller is correspondingly arranged with a winding shaft of the winding mechanism, and the detection end of the second winding diameter detector faces the winding shaft of the winding mechanism.

10. The laser cutting tab and splitting integrated machine according to claim 1, wherein: the double-sided cleaning mechanism comprises a cleaning shell arranged on the machine frame, a cleaning driver arranged on the outer side wall of the cleaning shell, two cleaning brushes connected in the cleaning shell in parallel in a rotating mode and two dust collection pieces arranged in the cleaning shell, wherein the two dust collection pieces are respectively positioned below the two cleaning brushes, the cleaning driver is used for driving the two cleaning brushes to rotate in opposite directions, and the cleaning shell is provided with a cleaning groove.