CN220659628U - Double-station laser pole cutting earphone - Google Patents

Abstract

The utility model relates to the technical field of battery pole belt processing, in particular to a double-station laser pole cutting earphone which comprises a frame, two pole belt unreeling mechanisms, two unreeling deviation rectifying driving mechanisms, two reel diameter detectors, a belt receiving platform, a plurality of belt guiding rollers, a tension buffer mechanism, a pole belt deviation rectifying platform, a plurality of deviation rectifying sensors, a feeding mechanism, a belt receiving detector, two laser pole ear cutting devices, a waste collecting mechanism and a pole ear double-sided dust removing device, wherein the belt receiving detectors are respectively and electrically connected with the two laser pole ear cutting devices, and the two reel diameter detectors are respectively and electrically connected with the two pole belt unreeling mechanisms in a one-to-one correspondence. The utility model discloses a can cut the shaping to the both sides limit of polar band automatically, the removal stability and the moving accuracy height of polar band have improved the fashioned quality of polar ear cutting, and can carry out two-sided dust removal to the polar ear after cutting the shaping.

Description

Double-station laser pole cutting earphone

Technical Field

The utility model relates to the technical field of battery pole belt processing, in particular to a double-station laser pole cutting earphone.

Background

Before the pole strip is cut to form pole pieces, the pole lugs are needed to be cut and formed on the pole strip; in the existing tab cutting and forming of battery electrode strips, most of the tabs are cut and formed on the electrode strips in a laser cutting mode. With the development of society and the advancement of technology, the tab is generally cut and formed on the tab belt by an automatic device. In the prior art, the chinese patent document with application number 201621169370.9 discloses a multi-lug laser die-cutting machine, which comprises a first laser cutting device for cutting a first lug on a first side edge of a substrate and a second laser cutting device for cutting a second lug on a second side edge of the substrate; the first laser cutting device comprises a first laser generator, a first laser cutting head, a first laser dust collection nozzle, a first power component and a first moving component; the first laser generator is connected to the first laser cutting head to generate laser, the first laser cutting head is connected to the first moving assembly to move along with the first moving assembly, the first power assembly is connected to the first moving assembly to drive the first moving assembly to move, and the first laser dust suction nozzle is arranged at the cutting position of the first laser cutting head to absorb polar powder generated in the cutting process. Although this patent document can automatically cut and mold the two side edges of the pole belt to form the pole lugs, after the pole lugs are cut and molded, the pole lugs on the pole belt cannot be cleaned and dedusted, so that dust, burrs and the like remain on the pole lugs. 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 double-station laser pole cutting earphone.

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

the utility model provides a pair of polar earphone is cut to duplex position laser, which comprises a frame, set up in the two polar bands of frame from top to bottom correspondingly unreels the mechanism, install in the frame and respectively with two polar bands unreel the mechanism drive connection two unreel and rectify actuating mechanism, install in the frame and respectively be located two reel diameter detectors of the output of two polar bands unreel the mechanism, set up in two polar bands unreel one side of mechanism and be located two polar bands and unreel the mechanism between take the platform, rotate and connect in the frame and be located a plurality of conduction band roller between take platform and the polar bands unreel the mechanism, set up in the tension buffer mechanism of taking the output of platform, set up in the polar bands of tension buffer mechanism and rectify the platform, install in the frame and with polar bands rectify the platform and unreel a plurality of rectifying sensor of actuating mechanism electricity connection, install in the frame and be used for carrying the feeding mechanism of polar bands, set up in the polar bands of the output of table connect the area detector, set up in two laser tab devices that connect the output of the area detector side by side, set up in the tab device connects two tab devices that connect in two tab devices that the output of tab devices and two tab devices are connected with two laser tab devices one-to-one side respectively.

Further, the double-station laser pole cutting earphone further comprises a pole ear rolling reinforcing mechanism which is arranged on the frame and positioned between the tape splicing platform and the tension buffering mechanism.

Further, the tab double-sided dust removing device comprises a tab double-sided cleaning mechanism, a front air knife dust removing mechanism and a back air knife dust removing mechanism which are sequentially arranged on the frame.

Further, the laser cuts utmost point ear device including rotate the vacuum conveyor who sets up, set up in the cutting case of frame, set up in the adsorption case of cutting incasement, remove set up in cutting incasement and with the compressing tightly piece of the input of vacuum conveyor, install in 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 frame and be used for driving the vacuum conveyor and rotate and provide the vacuum conveyor and carry the vacuum delivery 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 cuts 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 suddenly stretched to cutting 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 towards the blowing mouth of blowing space.

Further, the vacuum conveying driving mechanism comprises a vacuum box arranged on the frame, a rotary driver arranged on one side of the vacuum box, and a first driving wheel and a second driving wheel which are respectively connected to two ends of the vacuum box in a rotary mode, wherein the rotary driver is used for driving the first driving wheel or/and the second driving wheel to rotate, one end of the vacuum box protrudes into the cutting box, the vacuum conveying belt is sleeved outside the first driving wheel and the second driving wheel in a transmission mode, a plurality of vacuum holes are formed in two sides of the vacuum box, and the vacuum holes face towards the vacuum conveying belt respectively.

Further, the vacuum conveying driving mechanism further comprises a material guide piece arranged on the vacuum box, and the material guide piece is positioned outside the cutting box and above the waste collection mechanism; the material guiding piece comprises a connecting plate detachably connected with the vacuum box and an arc guiding plate connected with the connecting plate, and a diversion gap is formed between the arc guiding plate and the vacuum conveying belt.

Further, the laser tab cutting device further comprises a cutting seat arranged on the frame and a distance adjusting mechanism arranged on the cutting seat, an adjusting end of the distance adjusting mechanism is connected with the laser cutter, and the cutting box is arranged on the cutting seat.

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

Further, the two-sided cleaning mechanism of utmost point ear is including installing in the first interval adjustment module of frame and two-sided cleaning modules that are connected with two regulation ends of first interval adjustment module respectively, and first interval adjustment module is used for adjusting the interval between two-sided cleaning modules.

Further, the tab roll-in strengthening mechanism is including installing in the pedestal of frame, rotate the roller of connecting in the pedestal, install in the frame and be located the casing of the below of pedestal, set up respectively in two roll-in drivers of casing, respectively with two roll-in drivers drive two roll-in seats of being connected and rotate respectively and connect in two roll-in shaping rollers of two roll-in seats, the perisporium of roll-in shaping roller is provided with a plurality of reinforcement layering uniformly, roll-in drivers drive roll-in seat is close to or keeps away from the roller with roll-in shaping roller.

The utility model has the beneficial effects that: in practical application, in the two polar band unreeling mechanisms, when one polar band unreeling mechanism is in a use state, the other polar band unreeling mechanism is in a standby state; the pole belt unreeling mechanism is provided with a pole belt material roll, the pole belt unreeling mechanism drives the pole belt material roll to rotate, so that the pole belt is released from the pole belt roll, the pole belt is wound by a plurality of guide belt rollers, and is converted into the linear velocity of the pole belt material roll during unreeling through a roll diameter detector, a belt receiving platform, a tension buffering mechanism, a pole belt deviation correcting table, a plurality of deviation correcting sensors, a feeding mechanism, a belt receiving detector, two laser pole ear cutting devices and a pole ear double-sided dust removing device, the two laser pole ear cutting devices are respectively aligned to two side edges of the pole belt, in the process, the feeding mechanism drives the pole belt to move so as to realize traction and conveying of the pole belt, the roll diameter detector detects the diameter of the pole belt material roll in real time, the control center calculates the diameter change of the pole belt material roll is converted into the linear velocity of the pole belt material roll during unreeling, the tension buffering mechanism provides tension for the pole belt, according to the conditions of buffering and providing tension for the polar belt by the tension buffering mechanism and the result of detecting the diameter by the winding diameter detector, a signal is fed back to the corresponding polar belt unwinding mechanism to control the speed of releasing the polar belt by the polar belt unwinding mechanism, so that the movement stability of the polar belt is ensured, in the process of moving the polar belt, the deviation correcting sensor detects the belt edge of the polar belt and feeds back the deviation correcting detection result to the polar belt deviation correcting table and the unwinding deviation correcting driving mechanism, so that the polar belt deviation correcting table corrects the polar belt, the unwinding deviation correcting driving mechanism drives the polar belt unwinding mechanism to adjust the position of the polar belt, thereby ensuring the position accuracy and stability of the polar belt, the belt receiving detector detects the belt receiving position of the polar belt and feeds back the detection result to the two laser tab cutting devices, so that the laser tab cutting devices do not cut the belt receiving position of the polar belt, two laser cut utmost point ear devices respectively carry out utmost point ear cutting shaping to the both sides limit of utmost point area to cut shaping department utmost point ear at the both sides limit of utmost point area, waste material that cuts out gets into waste collection mechanism, collects the waste material through waste collection mechanism, and it gets into utmost point ear two-sided dust collector to cut into the utmost point area that has utmost point ear, and the two-sided dust collector of utmost point ear carries out front dust removal and reverse side dust removal to the utmost point ear on the utmost point area, in order to realize dust removal treatment. When the pole belt material roll on the pole belt unreeling mechanism in a use state is ready to run out or runs out, the pole belt tail material of the pole belt material roll and the pole belt of the pole belt material roll on the pole belt unreeling mechanism in a standby state are connected on the belt receiving platform, so that the material receiving of the upper pole belt material roll and the lower pole belt material roll is realized, and the replacement and the belt receiving of the pole belt material roll are convenient and efficient. According to the utility model, the two side edges of the polar band can be automatically cut and molded, the movement stability and the movement precision of the polar band are high, the quality of the cutting and molding of the polar band is improved, and the double-sided dust removal can be carried out on the polar band after the cutting and molding.

Drawings

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

Fig. 2 is a schematic perspective view of a laser tab cutting device according to the present utility model.

Fig. 3 is a schematic perspective view of another view angle of the laser tab cutting device of the present utility model.

Fig. 4 is a cross-sectional view of a laser tab cutting device of the present utility model.

Fig. 5 is a schematic perspective view of a lug double-sided dust removing device of the present utility model.

Fig. 6 is a schematic perspective view of a tab roll reinforcement mechanism according to the present utility model.

Reference numerals illustrate:

1. a frame; 11. a tape guide roller; 12. a tension buffer mechanism; 13. a pole belt deviation correcting table; 14. a correction sensor; 15. a feeding mechanism; 16. a taping detector; 17. a tape receiving and pressing mechanism; 2. a polar band unreeling mechanism; 3. unreeling deviation correcting driving mechanism; 4. a roll diameter detector; 5. a tape splicing platform; 6. a laser tab cutting device; 60. a dust removing mechanism is arranged; 601. a dust removal box; 602. a brush; 603. rotating the dust removal driver; 604. a dust removal pipe; 61. a vacuum conveyor belt; 611. cutting a base; 612. a distance adjusting mechanism; 62. cutting the box; 621. a material passing groove; 622. cutting the hole; 623. cutting the space; 63. an adsorption box; 64. a pressing member; 65. a compression driver; 66. a suction member; 67. a vacuum conveying driving mechanism; 671. a vacuum box; 672. a rotary driver; 673. a first driving wheel; 674. a second driving wheel; 675. a material guide; 676. a connecting plate; 677. an arc guide plate; 68. a laser cutter; 69. an air blowing nozzle; 7. a waste collection mechanism; 8. a pole lug double-sided dust removing device; 81. a pole lug double-sided cleaning mechanism; 811. a first spacing adjustment module; 812. a double-sided cleaning module; 813. a cleaning seat; 814. a double-sided cleaning unit; 815. cleaning the suction hood; 816. a cleaning brush; 817. a cleaning rotator; 82. a front air knife dust removing mechanism; 83. a back air knife dust removing mechanism; 9. a tab roll reinforcing mechanism; 91. a base; 92. a roll shaft; 93. a housing; 94. a roll-in driver; 95. a rolling seat; 96. rolling a forming roller; 97. reinforcing battens; 98. and a second interval adjusting module.

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 6, the dual-station laser pole cutting earphone provided by the utility model comprises a frame 1, two pole strip unreeling mechanisms 2 which are arranged on the frame 1 in a vertically corresponding manner, two unreeling deviation rectifying driving mechanisms 3 which are arranged on the frame 1 and are respectively in driving connection with the two pole strip unreeling mechanisms 2, two roll diameter detectors 4 which are arranged on the frame 1 and are respectively positioned at the output ends of the two pole strip unreeling mechanisms 2, a strip receiving platform 5 which is arranged on one side of the two pole strip unreeling mechanisms 2 and is positioned between the two pole strip unreeling mechanisms 2, a plurality of guide belt rollers 11 which are rotatably connected to the frame 1 and are positioned between the strip receiving platform 5 and the pole strip unreeling mechanisms 2, a tension buffer mechanism 12 which is arranged at the output ends of the strip receiving platform 5, a pole strip deviation rectifying table 13 which is arranged at the output ends of the tension buffer mechanism 12, a plurality of deviation rectifying sensors 14 which are arranged on the frame 1 and are respectively electrically connected with the pole strip deviation rectifying tables 13 and the unreeling driving mechanisms 3, a feeding mechanism 15 which is arranged on the frame 1 and is used for conveying the pole strip, a strip receiving lug detector 16 which is arranged on one side of the two pole strip unreeling mechanisms 2 and is positioned between the two pole strip unreeling mechanisms 2, a laser pole strip cutting device 6 which is arranged on one side of the two pole strip cutting devices 6 and is respectively connected with the two pole strip cutting devices 6, and a laser pole strip cutting device which is arranged on one side of the two sides of the two pole strip cutting devices 6, and the laser cutting device is respectively arranged at one side of the end 6, and the two strip cutting devices are respectively corresponding to the end 6.

In practical application, in the two pole belt unreeling mechanisms 2, when one pole belt unreeling mechanism 2 is in a use state, the other pole belt unreeling mechanism 2 is in a standby state; the pole belt unreeling mechanism 2 is provided with a pole belt material roll, the pole belt unreeling mechanism 2 drives the pole belt material roll to rotate, so that the pole belt is released from the pole belt roll, the pole belt is wound by a plurality of guide belt rollers 11, and is converted into the linear speed of the pole belt material roll when being unreeled by a roll diameter detector 4, a belt receiving platform 5, a tension buffer mechanism 12, a pole belt deviation correcting table 13, a plurality of deviation correcting sensors 14, a feeding mechanism 15, a belt receiving detector 16, two laser pole lug cutting devices 6 and a pole lug double-sided dust removing device 8, the two laser pole lug cutting devices 6 are respectively aligned with two side edges of the pole belt, in the process, the feeding mechanism 15 drives the pole belt to move so as to realize traction and transportation of the pole belt, the diameter detector 4 detects the diameter of the pole belt material roll in real time, the diameter change of the pole belt material roll is converted into the linear speed of the pole belt material roll when the pole belt is unreeled by program calculation of a control center, the tension buffer mechanism 12 provides tension for the pole belt, the device can buffer a section of polar band, feed back signals to the corresponding polar band unreeling mechanism 2 according to the buffer and tension providing conditions of the polar band by the tension buffer mechanism 12 and the diameter detecting result of the reel diameter detector 4, so as to control the speed of the polar band unreeling mechanism 2 for releasing the polar band, ensure the moving stability of the polar band, the deviation rectifying sensor 14 detects the band edge of the polar band in the moving process of the polar band, feeds back the deviation rectifying detection result to the polar band deviation rectifying table 13 and the unreeling deviation rectifying driving mechanism 3, enables the polar band deviation rectifying table 13 to rectify the polar band, the unreeling deviation rectifying driving mechanism 3 drives the polar band unreeling mechanism 2 to carry out position adjustment so as to adjust the unreeling position of the polar band, ensure the position accuracy and stability of the polar band, the band receiving detector 16 checks the band receiving position of the polar band, and feeds back the detection result to the two laser tab cutting devices 6, the tab device 6 is cut to the strip connection position on the tab strip in a non-cutting manner, the tab devices 6 are used for respectively cutting and forming the tabs on the two sides of the tab strip, so that the tabs on the two sides of the tab strip are cut and formed, the cut waste enters the waste collection mechanism 7, the waste is collected through the waste collection mechanism 7, the tab strip cut into the tab strip with the tab strip enters the tab double-sided dust removal device 8, and the tab double-sided dust removal device 8 is used for carrying out front dust removal and back dust removal on the tab strip so as to realize dust removal treatment. When the pole belt material roll on the pole belt unreeling mechanism 2 in a use state is ready to run out or run out, the pole belt tail material of the pole belt material roll and the pole belt of the pole belt material roll on the pole belt unreeling mechanism 2 in a standby state are connected on the belt receiving platform 5, so that the material receiving of the previous pole belt material roll and the next pole belt material roll is realized, and the replacement and the belt receiving of the pole belt material roll are convenient and efficient. According to the utility model, the two side edges of the polar band can be automatically cut and molded, the movement stability and the movement precision of the polar band are high, the quality of the cutting and molding of the polar band is improved, and the double-sided dust removal can be carried out on the polar band after the cutting and molding.

In this embodiment, the dual-station laser pole cutting earphone further includes a pole ear roll-in reinforcing mechanism 9 mounted on the frame 1 and located between the tape splicing platform 5 and the tension buffer mechanism 12. In the process that the polar band removed, polar band is through polar ear roll-in strengthening mechanism 9, and polar ear roll-in strengthening mechanism 9 carries out roll-in shaping to polar band's both sides limit to roll-in shaping goes out wavy stiffening rib on polar band's both sides limit, can strengthen the intensity of polar band's both sides limit, thereby can improve follow-up laser and cut polar ear device 6 and carry out polar ear cutting fashioned stability and quality to polar band, improved the polar ear intensity after the follow-up cutting shaping, make the polar ear be difficult to buckle.

In this embodiment, the tab roll-in reinforcing mechanism 9 includes a base 91 mounted on the frame 1, a roll shaft 92 rotatably connected to the base 91, a housing 93 mounted on the frame 1 and located below the base 91, two roll-in drivers 94 respectively disposed on the housing 93, two roll-in seats 95 respectively in driving connection with the two roll-in drivers 94, and two roll-in forming rolls 96 respectively in rotational connection with the two roll-in seats 95, wherein a plurality of reinforcing press strips 97 are uniformly disposed on the peripheral wall of the roll-in forming rolls 96, and the roll-in drivers 94 drive the roll-in seats 95 to approach or separate from the roll shaft 92 with the roll-in forming rolls 96; preferably, the roll-in driver 94 may employ a vertically upward cylinder, and two roll-in forming rolls 96 are respectively disposed corresponding to both side edges of the pole belt.

In practical application, the polar band is located between roller 92 and roll forming roller 96, roll driver 94 drive roll forming roller 96 removes towards the direction that is close to roller 92 for roll forming roller 96 compresses tightly the polar band on roller 92, at the in-process that the polar band removed, the polar band drive roller 92 that removes and roll forming roller 96 rotate, at roll forming roller 96 pivoted in-process, the side of polar band is roll-formed to the reinforcement layering 97 on the roll forming roller 96, 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.

Specifically, the tab roll-in reinforcing mechanism 9 further includes a second pitch adjustment module 98 mounted on the housing 93, and the two roll-in drivers 94 are respectively connected to two adjustment ends of the second pitch adjustment module 98, and the second pitch adjustment module 98 is used for adjusting a pitch between the two roll-in drivers 94. In practical application, the second interval adjusting module 98 adjusts the interval between the two rolling drivers 94 according to the widths of the different polar bands, thereby adjusting the interval between the two rolling forming rollers 96 so that the two rolling forming rollers 96 can respectively correspond to the two side edges of the polar bands.

In this embodiment, the tab double-sided dust removing device 8 includes a tab double-sided cleaning mechanism 81, a front air knife dust removing mechanism 82, and a back air knife dust removing mechanism 83, which are sequentially disposed on the frame 1. After the tab is cut and formed, the front and back surfaces of the tab are cleaned and dedusted by the tab double-surface cleaning mechanism 81, then the front surface secondary dust removal is performed on the tab by the front surface air knife dust removal mechanism 82, and the back surface secondary dust removal is performed on the tab by the back surface air knife dust removal mechanism 83.

In this embodiment, the laser tab device 6 includes a vacuum conveying belt 61 rotatably disposed, a cutting box 62 disposed in the frame 1, an adsorption box 63 disposed in the cutting box 62, a pressing member 64 movably disposed in the cutting box 62 and connected to an input end of the vacuum conveying belt 61, a pressing driver 65 disposed in the cutting box 62 and used for driving the pressing member 64 to approach or separate from the vacuum conveying belt 61, a suction member 66 disposed in the cutting box 62, a vacuum conveying driving mechanism 67 disposed in the frame 1 and used for driving the vacuum conveying belt 61 to rotate and provide negative pressure to the vacuum conveying belt 61, a laser cutter 68 disposed on one side of the cutting box 62, and two air blowing nozzles 69 disposed in the cutting box 62, a material passing groove 621 disposed on both upper and lower end surfaces of the cutting box 62, a cutting hole 622 corresponding to the laser cutter 68 disposed on one side of the cutting box 62, a material passing groove 621 and the cutting hole being communicated with an inner cavity of the cutting box 62, an input end of the vacuum conveying belt 61 protruding into the cutting box 62, an output end 7 of the vacuum conveying belt 61 protruding toward the vacuum conveying belt 61, and a waste material collecting nozzle 69 disposed on both sides of the vacuum conveying belt 61 facing the vacuum conveying groove 623, and the adsorption nozzles 69 disposed on both sides of the vacuum conveying belt collecting nozzle 69.

In practical application, the polar belt passes through two passing grooves 621 which are correspondingly arranged up and down, the polar belt is attached to the adsorption surface of the adsorption box 63 and the positive conveying surface of the vacuum conveying belt 61, the adsorption box 63 and the vacuum conveying belt 61 are respectively used for sucking the polar belt, the part to be cut of the polar belt is positioned at the cutting space 623 and exposed in the cutting hole 622, two blowing nozzles 69 blow the polar belt in the cutting space 623, the polar belt is smooth, the compacting driver 65 drives the compacting piece 64 to compact the polar belt on the vacuum conveying belt 61, 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 68 cuts the polar belt at the cutting space 623 through the cutting hole 622, so that a polar lug is cut on the polar belt, in the process of cutting the polar belt, the sucking piece 66 sucks the cutting box 62 to suck smoke and the like in the cutting box 62, and the two blowing nozzles 69 can also guarantee the dust blowing quality and the like. After the tab is cut and formed, the two blowing nozzles 69 blow air to the tab on the cut tab belt to ensure that the tab is flat, the pressing driver 65 drives the pressing piece 64 to move in a direction away from the tab belt so as to loosen the tab belt, the vacuum conveying driving mechanism 67 drives the vacuum conveying belt 61 to rotate and adsorb the tab belt to synchronously move, so that the portion, with the tab, of the tab belt, to be cut is moved away from the cutting space 623, and the portion, to be cut, of the tab belt is moved to the cutting space 623 so as to realize conveying of the tab belt, so that the tab belt is cut and formed next time. This utmost point ear device 6 is cut to laser not only inhale the utmost point area through adsorption case 63 and vacuum conveyor belt 61 in cutting case 62 the upper and lower both sides tight, still blow towards the portion of waiting of utmost point area through two blowing nozzles 69 in order to smooth-going utmost point area and blow away smog, dust etc. and compress tightly the utmost point area 64, has further improved the stability of utmost point area to the utmost point ear cutting shaping's quality has further been guaranteed.

Specifically, the connection end of the adsorption tank 63 and the connection ends of the two blowing nozzles 69 protrude outside the cutting tank 62; this structural design is convenient for the adsorption tank 63 to communicate with the external negative pressure mechanism, and is also convenient for the blowing nozzle 69 to communicate with the external positive pressure mechanism.

In this embodiment, the vacuum conveying driving mechanism 67 includes a vacuum box 671 installed on the frame 1, a rotation driver 672 installed on one side of the vacuum box 671, and a first driving wheel 673 and a second driving wheel 674 respectively rotatably connected to two ends of the vacuum box 671, wherein the rotation driver 672 is used for driving the first driving wheel 673 or/and the second driving wheel 674 to rotate, one end of the vacuum box 671 protrudes into the cutting box 62, the vacuum conveying belt 61 is drivingly sleeved outside the first driving wheel 673 and the second driving wheel 674, a plurality of vacuum holes are provided on two sides of the vacuum box 671, the vacuum holes face the vacuum conveying belt 61 respectively, and the rotation driver 672 can adopt a motor.

In practical application, the rotation driver 672 drives the second driving wheel 674 to rotate, and the second driving wheel 674 and the first driving wheel 673 cooperate to drive the vacuum conveying belt 61 to rotate, so that the vacuum box 671 provides negative pressure for the vacuum conveying belt 61 in the process of rotating the vacuum conveying belt 61, so that the vacuum conveying belt 61 sucks the polar belt to move, and the stability of conveying the polar belt is improved.

In this embodiment, the vacuum conveying driving mechanism 67 further includes a material guiding member 675 installed in the vacuum box 671, and the material guiding member 675 is located outside the cutting box 62 and above the waste collecting mechanism 7; after the tab tape is cut, the tab tape with the tab cut is output along the guide member 675, and the cut waste is output by the vacuum conveyor 61 so that the waste is output separately from the tab tape with the tab cut. Specifically, the guide member 675 includes a connection plate 676 detachably connected to the vacuum box 671 and an arc guide plate 677 connected to the connection plate 676, with a shunt gap between the arc guide plate 677 and the vacuum conveyor 61. In practical application, cut the utmost point area that has the utmost point ear and export along leading arc board 677, leading arc board 677 plays the effect of direction to the utmost point ear on the utmost point area, avoids the utmost point ear on the utmost point area to take place to buckle when removing, and the waste material is exported via the reposition of redundant personnel clearance to realize waste material and cut the utmost point area separation and the separately output that have the utmost point ear, be convenient for collect the waste material.

In this embodiment, the laser tab cutting device 6 further includes a cutting seat 611 mounted on the frame 1 and a distance adjusting mechanism 612 mounted on the cutting seat 611, an adjusting end of the distance adjusting mechanism 612 is connected with the laser cutter 68, and the cutting box 62 is mounted on the cutting seat 611; the laser cutter 68 and the distance adjusting mechanism 612 may each employ a corresponding existing device, and will not be described herein. The laser focal length of the laser cutter 68 is adjusted by the distance adjusting mechanism 612 according to different types and specifications of polar bands so as to meet different laser cutting requirements, and the universality is good.

In this embodiment, the laser tab cutting device 6 further includes a belt dust removing mechanism 60 disposed on one side of the vacuum conveyor belt 61; the belt dust removing mechanism 60 comprises a dust removing box 601 covered outside the vacuum conveying belt 61, a brush 602 rotatably connected in the dust removing box 601, a rotary dust removing driver 603 arranged outside the dust removing box 601 and used for driving the brush 602 to rotate, and a dust removing pipe 604 communicated with the dust removing box 601; preferably, the rotary dust removing driver 603 may employ a motor, and the dust removing tank 601 communicates with a negative pressure mechanism.

In practical application, the rotary dust removing driver 603 drives the brush 602 to rotate, the rotary brush 602 cleans the surface of the vacuum conveyer belt 61, and at the same time, the dust removing box 601 adsorbs dust and the like cleaned by the brush 602 to achieve the effect of removing dust from the vacuum conveyer belt 61.

In this embodiment, the tab double-sided cleaning mechanism 81 includes a first spacing adjustment module 811 mounted on the frame 1 and two double-sided cleaning modules 812 respectively connected to two adjustment ends of the first spacing adjustment module 811, where the first spacing adjustment module 811 is used for adjusting a spacing between the two double-sided cleaning modules 812. In practical application, the first interval adjusting module 811 is used for adjusting the distance between the two double-sided cleaning modules 812, so that the two double-sided cleaning modules 812 respectively correspond to two side edges of the pole belt, and the two double-sided cleaning modules 812 can accurately and efficiently clean the two lugs on the two side edges of the pole belt.

Specifically, the double-sided cleaning module 812 includes a cleaning seat 813 installed on the frame 1 and two double-sided cleaning units 814 installed on the cleaning seat 813, a cleaning gap is formed between the two double-sided cleaning units 814, the two double-sided cleaning units 814 are correspondingly arranged up and down, the double-sided cleaning units 814 include a cleaning suction hood 815 installed on the cleaning seat 813, a cleaning brush 816 rotatably connected in the cleaning suction hood 815, and a cleaning rotator 817 installed on the cleaning suction hood 815 and used for driving the cleaning brush 816 to rotate, and the cleaning rotator 817 can adopt a motor. In practical application, the pole strip of the movable cut-off type pole lug passes through the cleaning gap, the cleaning rotator 817 drives the cleaning brush 816 to rotate, the rotating cleaning brush 816 cleans the pole lug of the pole strip, and the cleaning suction hood 815 adsorbs dust cleaned out in the cleaning process to realize cleaning and dust removal.

Specifically, the double-station laser pole cutting earphone further comprises a tape receiving and pressing mechanism 17 arranged on the frame 1, wherein the tape receiving and pressing mechanism 17 is positioned at the input end of the tape receiving platform 5; when the strip splicing platform 5 splices the strip, the strip splicing pressing mechanism 17 compresses the pole strip in the strip splicing state, so that the stability of the strip splicing is ensured.

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 (8)

1. A double-station laser pole cutting earphone is characterized in that: the device comprises a frame (1), two pole belt unreeling mechanisms (2) which are arranged on the frame (1) up and down correspondingly, two unreeling correction driving mechanisms (3) which are arranged on the frame (1) and are respectively connected with the two pole belt unreeling mechanisms (2) in a driving way, two reel diameter detectors (4) which are arranged on the frame (1) and are respectively positioned at the output ends of the two pole belt unreeling mechanisms (2), a belt receiving platform (5) which is arranged on one side of the two pole belt unreeling mechanisms (2) and is positioned between the two pole belt unreeling mechanisms (2), a plurality of guide belt rollers (11) which are connected on the frame (1) in a rotating way and are positioned between the belt receiving platform (5) and the pole belt unreeling mechanisms (2), a tension buffer mechanism (12) which is arranged at the output ends of the belt receiving platform (5), a pole belt correction table (13) which is arranged at the output ends of the tension buffer mechanism (12), a plurality of correction sensors (14) which are arranged on the frame (1) and are electrically connected with the pole belt correction table (13) and the unreeling correction driving mechanism (3), and a feeding device (16) which is arranged at the output ends of the frame (16) and is arranged at the output ends of the laser detector (16) which is arranged on the frame (1) and is arranged at the output ends of the belt receiving platform (16) The device comprises a waste collection mechanism (7) arranged below the output end of a laser tab cutting device (6) and a tab double-sided dust removal device (8) arranged on one side of the output end of the laser tab cutting device (6), wherein a strip receiving detector (16) is respectively and electrically connected with the two laser tab cutting devices (6), and two rolling diameter detectors (4) are respectively and electrically connected with two tab unreeling mechanisms (2) in a one-to-one correspondence manner.

2. The dual-station laser pole cutting headset of claim 1, wherein: the double-station laser pole cutting earphone further comprises a pole ear rolling reinforcing mechanism (9) which is arranged on the frame (1) and positioned between the tape receiving platform (5) and the tension buffer mechanism (12).

3. The dual-station laser pole cutting headset of claim 1, wherein: the lug double-sided dust removing device (8) comprises a lug double-sided cleaning mechanism (81), a front air knife dust removing mechanism (82) and a back air knife dust removing mechanism (83) which are sequentially arranged on the frame (1).

4. The dual-station laser pole cutting headset of claim 1, wherein: the laser cutting tab device (6) comprises a vacuum conveying belt (61) which is rotatably arranged, a cutting box (62) which is arranged on a frame (1), an adsorption box (63) which is arranged in the cutting box (62), a pressing piece (64) which is arranged in the cutting box (62) and is connected with the input end of the vacuum conveying belt (61), a pressing driver (65) which is arranged on the cutting box (62) and is used for driving the pressing piece (64) to be close to or far away from the vacuum conveying belt (61), a suction piece (66) which is communicated with the cutting box (62), a vacuum conveying driving mechanism (67) which is arranged on the frame (1) and is used for driving the vacuum conveying belt (61) to rotate and provide negative pressure for the vacuum conveying belt (61), a laser cutting device (68) which is arranged on one side of the cutting box (62) and two nozzles (69) which are arranged on the cutting box (62), a material passing groove (621) is formed in the upper end and the lower end of the cutting box (62), a cutting hole (622) which corresponds to the laser cutting device (68) is formed in one side of the cutting box (62), the waste material is communicated with the vacuum conveying mechanism (61) to the inner cavity (61) which is arranged in the vacuum conveying mechanism (61), the adsorption box (63) is located above the input end of the vacuum conveying belt (61), a cutting space (623) is formed between the adsorption box (63) and the vacuum conveying belt (61), two blowing nozzles (69) are located on two sides of the material passing groove (621), and the blowing ends of the two blowing nozzles (69) face the cutting space (623).

5. The dual-station laser pole cutting headset of claim 4, wherein: the vacuum conveying driving mechanism (67) comprises a vacuum box (671) arranged on the frame (1), a rotary driver (672) arranged on one side of the vacuum box (671) and a first driving wheel (673) and a second driving wheel (674) which are respectively connected to two ends of the vacuum box (671) in a rotary mode, the rotary driver (672) is used for driving the first driving wheel (673) or/and the second driving wheel (674) to rotate, one end of the vacuum box (671) protrudes into the cutting box (62), the vacuum conveying belt (61) is sleeved outside the first driving wheel (673) and the second driving wheel (674) in a transmission mode, a plurality of vacuum holes are formed in two sides of the vacuum box (671), and the vacuum holes face the vacuum conveying belt (61) respectively.

6. The dual-station laser pole cutting headset of claim 5, wherein: the vacuum conveying driving mechanism (67) further comprises a material guide member (675) arranged on the vacuum box (671), and the material guide member (675) is positioned outside the cutting box (62) and above the waste collecting mechanism (7); the material guiding piece (675) comprises a connecting plate (676) detachably connected with the vacuum box (671) and an arc guiding plate (677) connected with the connecting plate (676), wherein a diversion gap is arranged between the arc guiding plate (677) and the vacuum conveying belt (61).

7. The dual-station laser pole cutting headset of claim 4, wherein: the laser cutting tab device (6) further comprises a cutting seat (611) arranged on the frame (1) and a distance adjusting mechanism (612) arranged on the cutting seat (611), an adjusting end of the distance adjusting mechanism (612) is connected with the laser cutter (68), and the cutting box (62) is arranged on the cutting seat (611).

8. The dual-station laser pole cutting headset of claim 1, wherein: the laser tab cutting device (6) further comprises a belt dust removing mechanism (60) arranged on one side of the vacuum conveying belt (61); the dust removing mechanism (60) comprises a dust removing box (601) covered outside the vacuum conveying belt (61), a brush (602) rotationally connected in the dust removing box (601), a rotary dust removing driver (603) which is arranged outside the dust removing box (601) and used for driving the brush (602) to rotate, and a dust removing pipe (604) communicated with the dust removing box (601).