CN112621835B - Aluminum foil slitting equipment for lithium battery and working method of aluminum foil slitting equipment - Google Patents

Abstract

The invention discloses aluminum foil slitting equipment for a lithium battery and a working method thereof. The beneficial effects of the invention are as follows: the hydraulic cylinder II on the pushing and cutting seat drives the cutter to move downwards through the hydraulic column II, the aluminum foil is cut into sections through the cutter, the cut aluminum foil is placed into a falling box for storage, the automation degree of the aluminum foil cutting operation by the equipment is high, and the aluminum foil is respectively cut through a plurality of sliding mechanisms arranged on the lead screw, so that the aluminum foil cutting efficiency of the equipment is greatly improved; when the aluminum foil moves to one end of the top plate, which is close to the hanging frame, the first hydraulic cylinder pushes the pressing plate to move downwards through the first hydraulic cylinder, the aluminum foil is pressed through the pressing plate, two sides of the aluminum foil are respectively clamped and blocked through the two partition plates, so that the moving track of the aluminum foil is more accurate, and the precision and quality of cutting of the aluminum foil by the cutter are greatly improved.

Description

Aluminum foil slitting equipment for lithium battery and working method of aluminum foil slitting equipment

Technical Field

The invention relates to aluminum foil slitting equipment for lithium batteries, in particular to aluminum foil slitting equipment for lithium batteries and a working method thereof, and belongs to the technical field of application of the aluminum foil slitting equipment for the lithium batteries.

Background

In the lithium battery processing production process, the aluminum foil is indispensable, and the aluminum foil is usually used as an anode current collector of the lithium ion battery, so that the lithium battery has better electric conduction, current collection and discharge performance, and before the aluminum foil is wound into the lithium battery, the aluminum foil is required to be cut into sections by cutting equipment so as to ensure that the aluminum foil sections can be wound into the lithium battery more quickly and more firmly.

The aluminum foil slitting equipment for the lithium battery still has very big defect when using, and the aluminum foil slitting equipment for the lithium battery is low to the degree of automation that the aluminum foil slit the processing, uses time and energy waste, and is slow to the efficiency that the aluminum foil slit the processing, and the aluminum foil slitting equipment for the lithium battery is current after to the aluminum foil section of cutting, and the surface of aluminum foil end is uneven, often has the uplift, very inconvenient aluminum foil section later stage coiling to the lithium battery in, the aluminum foil slitting equipment for the lithium battery of current is poor to the precision that the aluminum foil slit, the quality of slitting is low, and can only cut the aluminum foil of appointed width, and the limitation of use is very big.

Disclosure of Invention

The invention aims to solve the problems that the existing aluminum foil slitting equipment for the lithium battery still has great defects when in use, the existing aluminum foil slitting equipment for the lithium battery has low automation degree of aluminum foil slitting treatment, time and labor are wasted when in use, and the efficiency of the aluminum foil slitting treatment is low; after the aluminum foil is cut into sections by the existing aluminum foil cutting equipment for the lithium battery, the surface of the aluminum foil end is uneven and often has bulges, so that the aluminum foil section is not convenient to wind into the lithium battery in the later period; the aluminum foil slitting equipment for the lithium battery has the advantages that the aluminum foil slitting equipment for the lithium battery is poor in aluminum foil slitting precision and low in slitting quality, and can only slit aluminum foils with specified widths, so that the use limitation is very high.

The aim of the invention can be achieved by the following technical scheme: the aluminum foil slitting equipment for the lithium battery comprises a supporting platform, a first motor and a plurality of sliding mechanisms, wherein mounting plates are arranged at two ends above the supporting platform, the first motor is sleeved in the middle of one mounting plate, one end of the first motor is rotationally connected with a lead screw through an output shaft, and the lead screw is in threaded connection with the plurality of sliding mechanisms through threads;

the sliding mechanism comprises a rolling clamping frame I, a rolling clamping frame II, a bracket II and a pushing and cutting seat, wherein the rolling clamping frame I is arranged at the bottom of the sliding mechanism, the bracket I is arranged above the rolling clamping frame I, a falling box with a hollow cuboid structure is arranged on one side of the bracket I, the rolling clamping frame II is arranged above the bracket I, the bracket II is arranged above the rolling clamping frame II, and the pushing and cutting seat is welded at one end of the rolling clamping frame I;

the middle parts of the two sides of the rolling clamping frame I are provided with a plurality of first engaging teeth at equal intervals, two ends of the bottom of the bracket I are provided with a motor II, the bottom of the motor II is rotationally connected with a first gear through an output shaft, and the two first gears are respectively engaged with the first engaging teeth of the two sides of the rolling clamping frame I;

a plurality of second engaging teeth are arranged in the middle of the two sides of the rolling clamping frame at equal intervals, a third motor is arranged on the two sides of the bottom of the second bracket, a second gear is connected below the third motor in a rotating mode through an output shaft, and the two second gears are respectively engaged with the second engaging teeth on the two sides of the rolling clamping frame;

the second bracket comprises a top plate, a foil feeding assembly and a hanging frame, the top plate is positioned above the middle of the second bracket, one end of the top plate is provided with the foil feeding assembly, two partition plates are welded in parallel on the middle of the upper end surface of the top plate, one end of the top plate, far away from the foil feeding assembly, is provided with the hanging frame, the middle of the hanging frame is provided with a first hydraulic cylinder in a penetrating manner, and the lower part of the first hydraulic cylinder is movably connected with a pressing plate through a first hydraulic column;

the foil feeding assembly comprises a welding frame, a motor IV and a winding sleeve, wherein the welding frame is welded on the side wall of one side of the top plate, one end of the welding frame is provided with the motor IV, one end of the motor IV is rotationally connected with a rotating shaft through an output shaft, and the middle part of the rotating shaft is penetrated and sleeved with the winding sleeve;

the top of the pushing and cutting seat is provided with a supporting plate, a plurality of third engaging teeth are arranged in the middle of the side wall of one side of the supporting plate at equal intervals, one side of the supporting plate is provided with a moving frame, a second hydraulic cylinder is arranged above the moving frame, a cutter is movably connected below the second hydraulic cylinder through a second hydraulic column, an infrared sensor is arranged above the cutter, and the infrared sensor is used for detecting the joint of the scanned aluminum foil and the end part of the top plate, so that the cutter can cut the aluminum foil into a falling box more accurately and rapidly;

the bottom of one side of the moving rack, which is far away from the hydraulic cylinder II, is provided with a motor V, and a gear III is connected below the motor V through an output shaft in a rotating way and meshed with the gear III.

The invention further technically improves that: both ends all are provided with the slide shaft between two mounting panels, roll and press from both sides a bottom both sides frame both sides all to be provided with the sleeve with slide shaft looks adaptation, the sleeve is hollow cylindrical structure, and the slide shaft runs through the sleeve, guarantees that motor one is more steady, firm when driving the slide mechanism through the lead screw and remove.

The invention further technically improves that: the nut is welded in the middle of the bottom of the rolling clamping frame I, the nut is screwed onto the screw rod, the motor drives the screw rod I to rotate, and the screw rod I drives the nut and the sliding mechanism to adjust and move forwards and backwards under the action of threads.

The invention further technically improves that: the middle of the bottom of the bracket I is provided with a buckling pin I with a T-shaped cross section, and the upper part of the middle of the rolling clamping frame I is provided with a sliding groove I.

The invention further technically improves that: the second buckling leg with the T-shaped cross section is arranged in the middle of the second bottom of the bracket, the second sliding groove is arranged above the middle of the second rolling clamping frame, the second buckling leg is connected to the second sliding groove, the second bracket is ensured to move more stably and firmly, and the stability of the equipment in working is greatly improved.

The invention further technically improves that: the pressing plate is parallel to the upper end face of the top plate, the pressing plate is perpendicular to the first hydraulic column, the first hydraulic cylinder pushes the pressing plate to move downwards through the first hydraulic column, the aluminum foil is pressed through the pressing plate, the two sides of the aluminum foil are respectively clamped and blocked through the two partition plates, the moving track of the aluminum foil is more accurate, the aluminum foil is prevented from rising during moving, and the precision and quality of cutting of the aluminum foil by the cutter are greatly improved.

The invention further technically improves that: the aluminum foil rolling sleeve is characterized in that the middle of the rolling sleeve is of a cylindrical structure, the cross section of the rolling sleeve is of an I-shaped structure, blocking covers are arranged on two sides of the rolling sleeve and are fixedly connected with the middle of the rolling sleeve in a threaded mode, after the blocking covers are detached, the aluminum foil is rolled and sleeved on the rolling sleeve, a motor is convenient to drive the rolling sleeve to rotate, and the aluminum foil is conveyed to move on a top plate.

The invention further technically improves that: the section of cutter is right triangle structure, move and adorn the frame below perpendicular welding in middle part has the baffle, and baffle one side welding has the knot foot III that the cross-section is T shape structure, and the backup pad middle part is provided with the spout III, and detains the foot III and be connected to in the spout III, guarantees to move the frame and move more steadily, firm on pushing away cutting seat.

The application method of the aluminum foil slitting equipment for the lithium battery specifically comprises the following steps:

step one: the motor drives the screw rod to rotate, the screw rod drives the nut and the sliding mechanism to adjust back and forth through the action of threads, the lithium battery is sleeved on the winding sleeve through the aluminum foil coil, and then the aluminum foil on the aluminum foil coil is pulled and put on the top plate;

step two: the motor IV on the foil feeding assembly drives the rotating shaft to rotate anticlockwise, the aluminum foil on the aluminum foil coil is conveyed to be close to the falling box, the first hydraulic cylinder pushes the pressing plate to move downwards through the first hydraulic column, the aluminum foil is pressed through the pressing plate, and two sides of the aluminum foil are respectively clamped and blocked through the two separation plates;

step three: the hydraulic cylinder on the pushing and cutting seat drives the cutter to move downwards through the hydraulic column II, the aluminum foil is cut into sections through the cutter, the cut aluminum foil is placed into the falling box for storage, the motor II drives the gear I to mesh with the gear I to roll, and the positions of the bracket I, the falling box and the bracket II are moved left and right.

Compared with the prior art, the invention has the beneficial effects that:

1. when the aluminum foil slitting device is used, the motor drives the screw rod to rotate, the screw rod drives the nut and the sliding mechanism to adjust back and forth through the action of threads, the aluminum foil coil of the lithium battery is sleeved on the coil sleeve, the aluminum foil on the aluminum foil coil is pulled and placed on the top plate, then the motor four on the foil feeding assembly drives the rotating shaft to rotate anticlockwise, the aluminum foil on the aluminum foil coil is transmitted to be close to the blanking box, the hydraulic cylinder on the push-cutting seat drives the cutter to move downwards through the hydraulic column two, the cut aluminum foil is cut by the cutter, the cut aluminum foil is placed in the blanking box for storage, the automation degree of the aluminum foil slitting operation by the device is high, and the aluminum foil is slit by the sliding mechanisms arranged on the screw rod, so that the aluminum foil slitting efficiency of the device is greatly improved.

2. The first motor drives the sliding mechanism through the lead screw and adjusts the activity around to the second motor drives the first meshing tooth of gear one and rolls, control the position of first, box and bracket two of adjusting of removal, it is very convenient to guarantee that the staff is rolled up or is taken out by the aluminium foil of segmentation to dismouting aluminium foil on the sliding mechanism, and the aluminium foil is when removing the one end that the roof is close to the stores pylon, hydraulic cylinder one promotes the clamp plate through hydraulic cylinder one and moves down, paste the aluminium foil through the clamp plate and paste the aluminium foil, and press from both sides the aluminium foil through two baffles respectively, make the removal orbit of aluminium foil more accurate, avoid the aluminium foil to rise when removing, and very big improvement cutter to aluminium foil cutting's precision and quality.

3. The motor III drives the gear to mesh with the tooth II to roll, drives the bracket II to integrally move and adjust back and forth, drives the aluminum foil to adjust the position, ensures that the equipment has higher precision and more suitable cutting position for slitting aluminum foils with different widths, and the motor V on the pushing and cutting seat drives the gear to mesh with the tooth III to roll, drives the cutter to move and adjust left and right, ensures that the cutter has more suitable cutting position for the aluminum foils, and the hydraulic cylinder I drives the pressing plate to move and adjust up and down, ensures that the pressing plate can paste and press aluminum foils with different thicknesses, ensures that the quality of slitting aluminum foils with different types on the equipment is better, and the surface of the slit aluminum foils is smoother; the equipment has good social benefit and is suitable for popularization and use.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

Fig. 1 is a schematic perspective view of the whole structure of the present invention.

FIG. 2 is a schematic diagram of a sliding mechanism according to the present invention.

FIG. 3 is a cross-sectional view of the roller clamp frame of the present invention.

FIG. 4 is a schematic view of a bracket structure according to the present invention

Fig. 5 is a schematic view of a bracket structure of the present invention.

Fig. 6 is an enlarged schematic view of the detail of the area a in fig. 2 according to the present invention.

FIG. 7 is a schematic view of a foil feeding assembly according to the present invention.

FIG. 8 is a schematic view of a pushing and cutting seat according to the present invention.

Fig. 9 is a front view of a baffle plate of the present invention.

In the figure: 1. a support platform; 2. a mounting plate; 3. a first motor; 4. a screw rod; 5. a slide shaft; 6. a sliding mechanism; 7. rolling a first clamping frame; 8. a first tooth; 9. a first chute; 10. a nut; 11. a bracket I; 12. falling the box; 13. a rolling clamping frame II; 14. a bracket II; 15. pushing and cutting the base; 16. buckling a first foot; 17. a second motor; 18. a first gear; 19. a top plate; 20. a foil feed assembly; 21. a partition plate; 22. a hanging rack; 23. a first hydraulic cylinder; 24. a first hydraulic column; 25. a pressing plate; 26. buckling a second foot; 27. a third motor; 28. a second gear; 29. a second tooth; 30. a second chute; 31. welding a frame; 32. a fourth motor; 33. a rotating shaft; 34. a winding sleeve; 35. a support plate; 36. tooth III; 37. a moving and loading frame; 38. a second hydraulic cylinder; 39. a hydraulic column II; 40. a cutter; 41. a fifth motor; 42. a third gear; 43. a chute III; 44. a baffle; 45. and (3) buckling a third foot.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, an aluminum foil slitting device for lithium batteries comprises a carrying platform 1, a first motor 3 and a plurality of sliding mechanisms 6, wherein mounting plates 2 are arranged at two ends above the carrying platform 1, the middle part of one mounting plate 2 is sleeved with the first motor 3, one end of the first motor 3 is rotationally connected with a lead screw 4 through an output shaft, and the lead screw 4 is in threaded connection with the plurality of sliding mechanisms 6 through threads;

the sliding mechanism 6 comprises a first rolling clamping frame 7, a second rolling clamping frame 13, a second bracket 14 and a pushing and cutting seat 15, the first rolling clamping frame 7 is arranged at the bottom of the sliding mechanism 6, a first bracket 11 is arranged above the first rolling clamping frame 7, a falling box 12 with a hollow cuboid structure is arranged on one side of the first bracket 11, the second rolling clamping frame 13 is arranged above the first bracket 11, the second bracket 14 is arranged above the second rolling clamping frame 13, and one end of the first rolling clamping frame 7 is welded with the pushing and cutting seat 15;

the middle parts of the two sides of the first rolling clamping frame 7 are provided with a plurality of first engaging teeth 8 at equal intervals, two ends of the bottom of the first bracket 11 are provided with a second motor 17, the bottom of the second motor 17 is rotationally connected with a first gear 18 through an output shaft, and the two first gears 18 are respectively engaged with the first engaging teeth 8 on the two sides of the first rolling clamping frame 7;

a plurality of second engaging teeth 29 are arranged in the middle of the two sides of the second rolling clamping frame 13 at equal intervals, a third motor 27 is arranged on the two sides of the bottom of the second bracket 14, a second gear 28 is connected below the third motor 27 through rotation of an output shaft, and the two second gears 28 are respectively engaged with the second engaging teeth 29 on the two sides of the second rolling clamping frame 13;

the bracket II 14 comprises a top plate 19, a foil feeding assembly 20 and a hanging frame 22, the top plate 19 is positioned above the middle part of the bracket II 14, one end of the top plate 19 is provided with the foil feeding assembly 20, the middle part of the upper end surface of the top plate 19 is welded with two partition plates 21 in parallel, one end of the top plate 19 far away from the foil feeding assembly 20 is provided with the hanging frame 22, the middle part of the hanging frame 22 is provided with a first hydraulic cylinder 23 in a penetrating way, and the lower part of the first hydraulic cylinder 23 is movably connected with a pressing plate 25 through a first hydraulic column 24;

the foil feeding assembly 20 comprises a welding frame 31, a motor four 32 and a winding sleeve 34, wherein the welding frame 31 is welded on one side wall of the top plate 19, one end of the welding frame 31 is provided with the motor four 32, one end of the motor four 32 is rotationally connected with a rotating shaft 33 through an output shaft, and the middle part of the rotating shaft 33 is in penetrating and sleeved with the winding sleeve 34;

the top of the pushing and cutting seat 15 is provided with a supporting plate 35, a plurality of three engaging teeth 36 are arranged at equal intervals in the middle of the side wall of one side of the supporting plate 35, one side of the supporting plate 35 is provided with a moving frame 37, a second hydraulic cylinder 38 is arranged above the moving frame 37, a cutter 40 is movably connected below the second hydraulic cylinder 38 through a second hydraulic column 39, an infrared sensor is arranged above the cutter 40, and the joint of the scanned aluminum foil and the end part of the top plate 19 is detected through the infrared sensor with the model of OS137-3, so that the cutter 40 can cut the aluminum foil into the drop box 12 more accurately and rapidly;

wherein, the bottom of one side of the movable rack 37 far away from the hydraulic cylinder II 38 is provided with a motor V41, and a gear III 42 is connected below the motor V41 through the rotation of an output shaft, and the gear III 42 is meshed with the gear III 36.

Both ends all are provided with slide shaft 5 between two mounting panels 2, roll clamp frame 7 bottom both sides all be provided with slide shaft 5 looks adaptation's sleeve, the sleeve is hollow cylindrical structure, and slide shaft 5 runs through the sleeve, guarantees that motor one 3 is more steady, firm when driving slide mechanism 6 through lead screw 4 and remove.

A nut 10 is welded in the middle of the bottom of the rolling clamping frame I7, the nut 10 is screwed on the screw rod 4, the motor I3 drives the screw rod I4 to rotate, and the screw rod I4 drives the nut 10 and the sliding mechanism 6 to adjust and move forwards and backwards through the screw thread effect.

The middle of the bottom of the bracket I11 is provided with a buckling pin I16 with a T-shaped cross section, and the upper part of the middle of the rolling clamping frame I7 is provided with a chute I9, and the buckling pin I16 is connected into the chute I9, so that the bracket I11 is ensured to be more stable when moving integrally.

The middle of the bottom of the bracket II 14 is provided with the buckling leg II 26 with a T-shaped cross section, the upper part of the middle of the rolling clamping frame II 13 is provided with the sliding groove II 30, and the buckling leg II 26 is connected to the inside of the sliding groove II 30, so that the bracket II 14 can move more stably and firmly, and the stability of the equipment in working is greatly improved.

The clamp plate 25 is parallel with the up end of roof 19, and clamp plate 25 is perpendicular with hydraulic pressure post one 24, and hydraulic cylinder one 23 promotes clamp plate 25 downwardly moving through hydraulic pressure post one 24, pastes the pressure aluminium foil through clamp plate 25 to press from both sides the aluminium foil through two baffles 21 respectively, make the removal orbit of aluminium foil more accurate, avoid the aluminium foil to rise when removing, and very big improvement cutter 40 to aluminium foil cutting's precision and quality.

The middle part of the coil sleeve 34 is of a cylindrical structure, the section of the coil sleeve 34 is of an I-shaped structure, both sides of the coil sleeve 34 are provided with baffle covers, the baffle covers are fixedly connected with the middle part of the coil sleeve 34 in a threaded manner, after the baffle covers are disassembled, the aluminum foil coil is sleeved on the coil sleeve, the motor four 32 is convenient to drive the coil sleeve 34 to rotate, and the aluminum foil is transmitted to move on the top plate 19.

The cross section of cutter 40 is right triangle structure, and the perpendicular welding of lower below the middle part of movable mounting 37 has baffle 44, and the welding of baffle 44 one side has the knot foot third 45 that the cross section is T shape structure, and backup pad 35 middle part is provided with spout third 43, and detains foot third 45 and be connected to spout third 43, guarantees that movable mounting 37 moves more steadily, firm on pushing and cutting seat 15.

The application method of the aluminum foil slitting equipment for the lithium battery specifically comprises the following steps:

step one: the first motor 3 drives the screw rod 4 to rotate, the screw rod 4 drives the nut 10 and the sliding mechanism 6 to adjust back and forth through the screw thread, the lithium battery is sleeved on the winding sleeve 34 through the aluminum foil coil, and then the aluminum foil on the aluminum foil coil is pulled and put on the top plate 19;

step two: the motor IV 32 on the foil feeding assembly 20 drives the rotating shaft 33 to rotate anticlockwise, the aluminum foil on the aluminum foil coil is conveyed to be close to the falling box 12, the first hydraulic cylinder 23 pushes the pressing plate 25 to move downwards through the first hydraulic column 24, the aluminum foil is pasted through the pressing plate 25, and two sides of the aluminum foil are respectively clamped through the two partition plates 21;

step three: the second hydraulic cylinder 38 on the pushing and cutting seat 15 drives the cutter 40 to move downwards through the second hydraulic cylinder 39, the cut aluminum foil is cut by the cutter 40, the cut aluminum foil is placed into the drop box 12 for storage, the second motor 17 drives the first gear 18 to engage with the first meshing gear 8 to roll, and the positions of the first bracket 11, the drop box 12 and the second bracket 14 are moved left and right.

When the aluminum foil cutting machine is used, the first motor 3 drives the screw rod 4 to rotate, the screw rod 4 drives the nut 10 and the sliding mechanism 6 to move back and forth through the screw thread effect, the aluminum foil on the aluminum foil roll is pulled and placed on the top plate 19 through the aluminum foil roll sleeved on the roll sleeve 34, then the fourth motor 32 on the foil feeding assembly 20 drives the rotating shaft 33 to rotate anticlockwise, the aluminum foil on the aluminum foil roll is conveyed to be close to the falling box 12, the second hydraulic cylinder 38 on the pushing and cutting seat 15 drives the cutter 40 to move downwards through the second hydraulic cylinder 39, the aluminum foil is cut into sections through the cutter 40, and the cut aluminum foil is placed in the falling box 12 for storage;

the first motor 3 drives the sliding mechanism 6 to adjust and move forwards and backwards through the lead screw 4, the second motor 17 drives the first gear 18 to mesh with the first gear 8 to roll, the first adjusting bracket 11, the drop box 12 and the second bracket 14 are moved left and right, when the aluminum foil moves to one end of the top plate 19 close to the hanging frame 22, the first hydraulic cylinder 23 pushes the pressing plate 25 to move downwards through the first hydraulic column 24, the aluminum foil is adhered and pressed through the pressing plate 25, and two partition plates 21 respectively clamp and block two sides of the aluminum foil, so that the moving track of the aluminum foil is more accurate, the aluminum foil is prevented from rising during moving, and the precision and quality of cutting the aluminum foil by the cutter 40 are greatly improved;

the third motor 27 drives the gear 28 to mesh with the second meshing gear 29 to roll, the second bracket 14 is driven to move and adjust the whole bracket back and forth, the aluminum foil adjusting position is driven, the fifth motor 41 on the push-cut seat 15 drives the third gear 42 to mesh with the third meshing gear 36 to roll, the cutter 40 is driven to move and adjust left and right, and the first hydraulic cylinder 23 drives the pressing plate 25 to move and adjust up and down.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (2)

1. The utility model provides a lithium cell is with aluminium foil cutting equipment, includes support platform (1), motor one (3) and a plurality of slide mechanism (6), its characterized in that: mounting plates (2) are arranged at two ends above the carrying platform (1), a motor I (3) is sleeved in the middle of one mounting plate (2), one end of the motor I (3) is rotationally connected with a screw rod (4) through an output shaft, and the screw rod (4) is in threaded connection with a plurality of sliding mechanisms (6) through threads;

the sliding mechanism (6) comprises a first rolling clamping frame (7), a second rolling clamping frame (13), a second bracket (14) and a pushing and cutting seat (15), the first rolling clamping frame (7) is arranged at the bottom of the sliding mechanism (6), a first bracket (11) is arranged above the first rolling clamping frame (7), a falling box (12) with a hollow cuboid structure is arranged on one side of the first bracket (11), a second rolling clamping frame (13) is arranged above the first bracket (11), the second bracket (14) is arranged above the second rolling clamping frame (13), and the pushing and cutting seat (15) is welded at one end of the first rolling clamping frame (7);

the middle parts of the two sides of the first rolling clamping frame (7) are provided with a plurality of first meshing teeth (8) at equal intervals, two ends of the bottom of the first bracket (11) are provided with a second motor (17), the bottom of the second motor (17) is rotationally connected with a first gear (18) through an output shaft, and the two first gears (18) are respectively meshed with the first meshing teeth (8) on the two sides of the first rolling clamping frame (7);

a plurality of second meshing teeth (29) are arranged in the middle of two sides of the second rolling clamping frame (13) at equal intervals, a third motor (27) is arranged on two sides of the bottom of the second bracket (14), a second gear (28) is connected below the third motor (27) through an output shaft in a rotating mode, and the two second gears (28) are meshed with the second meshing teeth (29) on two sides of the second rolling clamping frame (13) respectively;

the bracket II (14) comprises a top plate (19), a foil feeding assembly (20) and a hanging frame (22), the top plate (19) is positioned above the middle part of the bracket II (14), one end of the top plate (19) is provided with the foil feeding assembly (20), two partition plates (21) are welded in parallel at the middle part of the upper end surface of the top plate (19), one end of the top plate (19) far away from the foil feeding assembly (20) is provided with the hanging frame (22), the middle part of the hanging frame (22) is provided with a first hydraulic cylinder (23) in a penetrating manner, and a pressing plate (25) is movably connected below the first hydraulic cylinder (23) through a first hydraulic cylinder (24);

the foil feeding assembly (20) comprises a welding frame (31), a motor IV (32) and a winding sleeve (34), wherein the welding frame (31) is welded on one side wall of the top plate (19), one end of the welding frame (31) is provided with the motor IV (32), one end of the motor IV (32) is connected with a rotating shaft (33) through an output shaft in a rotating mode, and the middle of the rotating shaft (33) is connected with the winding sleeve (34) in a penetrating and sleeving mode;

the pushing and cutting device is characterized in that a supporting plate (35) is arranged at the top of the pushing and cutting seat (15), a plurality of three engaged teeth (36) are arranged at the middle part of one side wall of the supporting plate (35) at equal intervals, a moving and loading frame (37) is arranged on one side of the supporting plate (35), a second hydraulic cylinder (38) is arranged above the moving and loading frame (37), and a cutter (40) is movably connected below the second hydraulic cylinder (38) through a second hydraulic column (39);

the bottom of one side of the movable rack (37) far away from the hydraulic cylinder II (38) is provided with a motor III (41), a gear III (42) is connected below the motor III (41) in a rotating way through an output shaft, and the gear III (42) is meshed with the gear III (36);

sliding shafts (5) are arranged at two ends between the two mounting plates (2), sleeves matched with the sliding shafts (5) are arranged at two sides of the bottom of the first rolling clamping frame (7), the sleeves are of hollow cylindrical structures, and the sliding shafts (5) penetrate through the sleeves;

a nut (10) is welded in the middle of the bottom of the first rolling clamping frame (7), and the nut (10) is screwed on the screw rod (4);

a buckling foot I (16) with a T-shaped cross section is arranged in the middle of the bottom of the bracket I (11), a sliding groove I (9) is arranged above the middle of the rolling clamping frame I (7), and the buckling foot I (16) is connected into the sliding groove I (9);

a second buckling leg (26) with a T-shaped cross section is arranged in the middle of the bottom of the second bracket (14), a second sliding chute (30) is arranged above the middle of the second rolling clamping frame (13), and the second buckling leg (26) is connected to the inside of the second sliding chute (30);

the pressing plate (25) is parallel to the upper end face of the top plate (19), and the pressing plate (25) is perpendicular to the first hydraulic column (24);

the middle part of the winding sleeve (34) is of a cylindrical structure, and the section of the winding sleeve (34) is of an I-shaped structure;

the section of cutter (40) is right triangle structure, move dress frame (37) middle part below perpendicular welding has baffle (44), and baffle (44) one side welding has the knot foot third (45) that the cross-section is T shape structure, and backup pad (35) middle part is provided with spout third (43), and detains foot third (45) and be connected to in spout third (43).

2. A method of using the aluminum foil slitting apparatus for lithium batteries according to claim 1, comprising the steps of:

step one: the first motor (3) drives the screw rod (4) to rotate, the screw rod (4) drives the nut (10) and the sliding mechanism (6) to adjust back and forth through the action of threads, the lithium battery is sleeved on the winding sleeve (34) through the aluminum foil winding, and then the aluminum foil on the aluminum foil winding is pulled and put on the top plate (19);

step two: a motor IV (32) on the foil feeding assembly (20) drives a rotating shaft (33) to rotate anticlockwise, aluminum foils on the aluminum foil coil are conveyed to be close to a falling box (12), a hydraulic cylinder I (23) pushes a pressing plate (25) to move downwards through a hydraulic column I (24), the aluminum foils are adhered and pressed through the pressing plate (25), and two sides of the aluminum foils are respectively clamped and blocked through two separation plates (21);

step three: a second hydraulic cylinder (38) on the pushing and cutting seat (15) drives a cutter (40) to move downwards through a second hydraulic column (39), the aluminum foil is cut into sections through the cutter (40), the cut aluminum foil is placed into a falling box (12) for storage, a second motor (17) drives a first gear (18) to mesh with a first meshing tooth (8) to roll, and the positions of the first bracket (11), the falling box (12) and the second bracket (14) are moved left and right.