CN113636145A

CN113636145A - Stacking mechanism for large-size lithium battery pole pieces

Info

Publication number: CN113636145A
Application number: CN202110752860.0A
Authority: CN
Inventors: 刘一磊
Original assignee: Jiangsu Hengyutai Intelligent Equipment Co ltd
Current assignee: Jiangsu Hengyutai Intelligent Equipment Co ltd
Priority date: 2021-07-02
Filing date: 2021-07-02
Publication date: 2021-11-12

Abstract

The invention discloses a stacking mechanism of large-size lithium battery pole pieces, which comprises a first fixed base, a second fixed base and a third fixed base, wherein a conveying assembly is arranged at the top of the first fixed base; folding mechanism includes two first linear slide rails, two all the cover is equipped with first slider, two on the first linear slide rail first slider top all is fixed and is equipped with first electric telescopic handle, two first electric telescopic handle removes the relative one side of end and all fixes and is equipped with second electric telescopic handle. According to the invention, each pole piece can be independently stored in the independent storage space through the folding mechanism, and then a plurality of stored pole pieces are stacked, so that the pole pieces are convenient to convey, store and use, the pole pieces are prevented from being polluted, and the pole pieces are better protected.

Description

Stacking mechanism for large-size lithium battery pole pieces

Technical Field

The invention relates to the field of lithium battery pole piece processing equipment, in particular to a stacking mechanism of a large-size lithium battery pole piece.

Background

With the development of the microelectronic technology in the twentieth century, miniaturized devices are increasing day by day, the size of the devices is reduced, so that high requirements are provided for a power supply, the size of a lithium battery can be compressed to be small, but the function of storing electric energy is superior, so that the lithium battery enters a large-scale practical stage, and the lithium battery is widely applied to mobile phones, notebook computers, electric tools, electric vehicles, street lamp standby power supplies, navigation lamps and small household appliances at present, wherein a lithium battery pole piece is an important part of the lithium battery and is divided into a positive pole piece and a negative pole piece, the positive pole piece is generally coated with slurry containing lithium ions on aluminum platinum, the negative pole piece is coated with slurry mainly containing graphite on copper platinum, and the positive pole piece and the negative pole piece are separated by using diaphragm paper when the lithium battery pole piece is manufactured and then are stored.

At present, but its when in-service use, original battery pole piece stacking mechanism accomodates a plurality of pole pieces and piles together, can not adopt the mode of independent space storage with single pole piece, and is effective to the protection effect of pole piece, also has inconveniently when the later stage is taken the use, and the leakproofness is not good after unsealing, and remaining pole piece is polluted by the dust easily, influences the use.

Therefore, it is necessary to invent a stacking mechanism for large-sized lithium battery pole pieces to solve the above problems.

Disclosure of Invention

The invention aims to provide a stacking mechanism of large-size lithium battery pole pieces, each pole piece can be independently stored in an independent storage space through a folding mechanism, and then a plurality of stored pole pieces are stacked, so that the subsequent conveying, storage and use are facilitated, the pole pieces are prevented from being polluted, the pole pieces are better protected, and the defects in the technology are overcome.

In order to achieve the above purpose, the invention provides the following technical scheme: a stacking mechanism for large-size lithium battery pole pieces comprises a first fixed base, a second fixed base and a third fixed base, wherein the first fixed base is arranged between the second fixed base and the third fixed base, a conveying assembly is arranged at the top of the first fixed base, a folding mechanism is arranged on the first fixed base, a first conveying assembly is arranged on the second fixed base, and a second conveying assembly is arranged on the third fixed base;

the folding mechanism comprises two first linear slide rails, the two first linear slide rails are respectively arranged at the front end and the rear end of a first fixed base, a first slide block is sleeved on each of the two first linear slide rails, a first electric telescopic rod is fixedly arranged at the top end of each of the two first slide blocks, a second electric telescopic rod is fixedly arranged on one side, opposite to the moving end of each of the two first electric telescopic rods, a second linear slide rail is fixedly arranged at the front end of each of the first linear slide rails and at the rear end of each of the first linear slide rails, a second slide block is sleeved on each of the two second linear slide rails, a third electric telescopic rod is fixedly arranged at the top end of each of the two second slide blocks, a fourth electric telescopic rod is fixedly arranged on one side, opposite to the moving end of each of the two third electric telescopic rods, and a fixed shaft is fixedly arranged at the top end of the first fixed base;

the first transportation assembly comprises two third linear sliding rails, the two third linear sliding rails are respectively arranged at the front end and the rear end of the first fixed base and the second fixed base, two third sliding blocks are respectively sleeved on the two third linear sliding rails, first supporting rods are respectively fixedly arranged at the top ends of the four third sliding blocks, and first top supporting plates are fixedly arranged at the top ends of the four first supporting rods;

the second transportation subassembly includes two fourth linear slide rails, two fourth linear slide rails are established respectively at both ends around first unable adjustment base and third unable adjustment base, two all the cover is equipped with two fourth sliders, four on the fourth linear slide rail fourth slider top is all fixed and is equipped with the second bracing piece, four the fixed second top supporting plate that is equipped with in second bracing piece top.

Preferably, the conveying assembly comprises a fixed roller, a first guide wheel, a tightening roller, a second guide wheel and an adjusting roller.

Preferably, the tightening roller is arranged on one side of the fixed roller, and the adjusting roller is arranged on one side of the tightening roller.

Preferably, first leading wheel is established between fixed roller and first leading wheel, the second leading wheel is established in first leading wheel one side, the second leading wheel is established between tighten up roller and adjusting roller, first leading wheel and second leading wheel are established in fixed roller, tighten up roller and adjusting roller bottom.

Preferably, the outer end of the fixed roller is sleeved with a diaphragm roll.

Preferably, one end of the diaphragm wound on the diaphragm roll sequentially penetrates through the bottom end of the first guide wheel, the top end of the tightening roller, the bottom end of the second guide wheel and the top end of the adjusting roller, and one end of the diaphragm wound on the diaphragm roll sequentially penetrates through and is fixed at the outer end of the fixed shaft in an S shape from one side of the two fourth electric telescopic rods and one side of the two second electric telescopic rods.

Preferably, first bamboo joint formula electric putter is all fixed to first top backup pad and second top backup pad bottom.

Preferably, a first adsorption block is fixedly arranged at the bottom end of the moving end of the first bamboo joint type electric push rod at the bottom end of the first top supporting plate, a first heating frame is fixedly arranged at the outer end of the first adsorption block, and the bottom end of the first adsorption block and the bottom end of the first heating frame are positioned on the same horizontal line.

Preferably, a first adsorption block is fixedly arranged at the bottom end of the moving end of the first bamboo joint type electric push rod at the bottom end of the second top supporting plate, a second heating frame is fixedly arranged at the outer end of the first adsorption block, and the bottom end of the first adsorption block and the bottom end of the second heating frame are positioned on the same horizontal line.

Preferably, the bottom ends of the first fixing base, the second fixing base and the third fixing base are all fixedly provided with two bottom supporting tables.

In the technical scheme, the invention provides the following technical effects and advantages:

1. the first slide block slides on the first linear slide rail and drives the first electric telescopic rod and the second electric telescopic rod to slide along the first linear slide rail, the second slide block slides on the second linear slide rail and drives the third electric telescopic rod and the fourth electric telescopic rod to move along the second linear slide rail, the second electric telescopic rod and the fourth electric telescopic rod are utilized to fold the diaphragm, the third slide block slides on the third linear slide rail and drives the first supporting rod, the first top supporting plate, the first bamboo joint type electric push rod, the first adsorption block and the first heating frame to move together to the top of the first fixed base, the fourth slide block slides on the fourth linear slide rail and drives the second supporting rod, the second top supporting plate, the first bamboo joint type electric push rod, the first adsorption block and the second heating frame to move together to the top of the first fixed base, and the pole piece is placed on the diaphragm, compared with the prior art, each pole piece can be independently stored in an independent storage space, and then a plurality of stored pole pieces are stacked, so that the subsequent conveying, storage and use are facilitated, the pole pieces are prevented from being polluted, and the pole pieces are better protected;

2. can adsorb the pole piece through first adsorption piece and first adsorption piece, through first bamboo joint formula electric putter control first adsorption piece, first heating frame, first adsorption piece and second heating frame reciprocate, can heat the bonding together with upper and lower two-layer diaphragm through first heating frame and second heating frame work, be convenient for seal single pole piece, every pole piece all has the space of independent storage, the in-process of using at the later stage just can not appear unsealing the not good condition that leads to the contaminated condition of pole piece after sealing, safety, and it is also more convenient to use.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a perspective view of the delivery assembly of the present invention;

FIG. 3 is a perspective view of a first stationary base, a second stationary base, and a third stationary base of the present invention;

FIG. 4 is a perspective view of a first stationary base and a second stationary base of the present invention;

FIG. 5 is a perspective view of a second stationary base and a third stationary base of the present invention;

FIG. 6 is a perspective view of a first stationary base of the present invention;

FIG. 7 is a perspective view of a first stationary base of the present invention;

fig. 8 is a perspective view of a first adsorption block of the present invention.

Description of reference numerals:

the device comprises a fixed roller 1, a first guide wheel 2, a take-up roller 3, a second guide wheel 4, an adjusting roller 5, a diaphragm roll 6, a first fixed base 7, a second fixed base 8, a third fixed base 9, a fixed shaft 10, a first linear slide rail 11, a first slide block 12, a first electric telescopic rod 13, a second electric telescopic rod 14, a second linear slide rail 15, a second slide block 16, a third electric telescopic rod 17, a fourth electric telescopic rod 18, a third linear slide rail 19, a third slide block 20, a first support rod 21, a first top support plate 22, a fourth linear slide rail 23, a fourth slide block 24, a second support rod 25, a second top support plate 26, a first bamboo joint type electric push rod 27, a first adsorption block 28, a first heating frame 29, a first adsorption block 30, a second heating frame 31 and a bottom support table 32.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

The invention provides a stacking mechanism of large-size lithium battery pole pieces, which comprises a first fixed base 7, a second fixed base 8 and a third fixed base 9, wherein the first fixed base 7 is arranged between the second fixed base 8 and the third fixed base 9, the top of the first fixed base 7 is provided with a conveying assembly, the first fixed base 7 is provided with a folding mechanism, the second fixed base 8 is provided with a first conveying assembly, and the third fixed base 9 is provided with a second conveying assembly;

the folding mechanism comprises two first linear sliding rails 11, the two first linear sliding rails 11 are respectively arranged at the front end and the rear end of a first fixing base 7, first sliding blocks 12 are sleeved on the two first linear sliding rails 11, first electric telescopic rods 13 are fixedly arranged at the top ends of the two first sliding blocks 12, second electric telescopic rods 14 are fixedly arranged on the opposite sides of the moving ends of the two first electric telescopic rods 13, second linear sliding rails 15 are fixedly arranged at the front ends of the first linear sliding rails 11 and the rear ends of the first linear sliding rails 11, second sliding blocks 16 are sleeved on the two second linear sliding rails 15, third electric telescopic rods 17 are fixedly arranged at the top ends of the two second sliding blocks 16, fourth electric telescopic rods 18 are fixedly arranged on the opposite sides of the moving ends of the two third electric telescopic rods 17, and a fixing shaft 10 is fixedly arranged at the top end of the first fixing base 7;

the first transportation assembly comprises two third linear sliding rails 19, the two third linear sliding rails 19 are respectively arranged at the front end and the rear end of the first fixed base 7 and the second fixed base 8, two third sliding blocks 20 are respectively sleeved on the two third linear sliding rails 19, first supporting rods 21 are respectively fixedly arranged at the top ends of the four third sliding blocks 20, and first top supporting plates 22 are fixedly arranged at the top ends of the four first supporting rods 21;

the second transportation subassembly includes two fourth linear slide rails 23, two fourth linear slide rails 23 establish both ends around first unable adjustment base 7 and third unable adjustment base 9 respectively, two all the cover is equipped with two fourth sliders 24, four on the fourth linear slide rail 23 the 24 tops of fourth slider are all fixed and are equipped with second bracing piece 25, four the fixed second top supporting plate 26 that is equipped with in second bracing piece 25 top.

Further, in the above technical solution, the conveying assembly includes a fixed roller 1, a first guide wheel 2, a take-up roller 3, a second guide wheel 4 and an adjusting roller 5, the fixed roller 1 is used for fixing the diaphragm roll 6, the first guide wheel 2 and the second guide wheel 4 both perform guiding and reversing functions, the take-up roller 3 is used for taking up the diaphragm, and the adjusting roller 5 is used for adjusting the flatness of the diaphragm.

Further, in the above technical solution, the take-up roll 3 is arranged on one side of the fixed roll 1, the adjusting roll 5 is arranged on one side of the take-up roll 3, the fixed roll 1 is used for fixing the diaphragm roll 6, the take-up roll 3 is used for taking up the diaphragm, and the adjusting roll 5 is used for adjusting the flatness of the diaphragm.

Further, in the above technical solution, the first guide wheel 2 is arranged between the fixed roller 1 and the first guide wheel 2, the second guide wheel 4 is arranged on one side of the first guide wheel 2, the second guide wheel 4 is arranged between the take-up roller 3 and the adjustment roller 5, the first guide wheel 2 and the second guide wheel 4 are arranged at the bottom of the fixed roller 1, the take-up roller 3 and the adjustment roller 5, and the first guide wheel 2 and the second guide wheel 4 both play a role in guiding and reversing.

Further, in the above technical scheme, the outer end of the fixed roller 1 is sleeved with the diaphragm roll 6, the diaphragm roll 6 is a diaphragm rolled up into a roll, and the diaphragm roll 6 is sleeved at the outer end of the fixed roller 1, so that the diaphragm is conveniently conveyed to form the flow linear processing.

Further, in the above technical solution, one end of the diaphragm on the diaphragm roll 6 sequentially passes through the bottom end of the first guide wheel 2, the top end of the tightening roller 3, the bottom end of the second guide wheel 4 and the top end of the adjusting roller 5, one end of the diaphragm on the diaphragm roll 6 sequentially passes through and is fixed at the outer end of the fixed shaft 10 in an S-shape from one side of the two fourth electric telescopic rods 18 and one side of the two second electric telescopic rods 14, the two fourth electric telescopic rods 18 and the two second electric telescopic rods 14 are used for folding the diaphragm, and each pole piece is placed so that the diaphragm can be folded, so that the single pole piece can be stored in a single space, and the diaphragm can be used and transported more conveniently at a later stage and well protected.

The implementation mode is specifically as follows: when the electric folding device is used, the first sliding block 12 slides on the first linear slide rail 11 and drives the first electric telescopic rod 13 and the second electric telescopic rod 14 to slide along the first linear slide rail 11, the second sliding block 16 slides on the second linear slide rail 15 and drives the third electric telescopic rod 17 and the fourth electric telescopic rod 18 to move along the second linear slide rail 15, pole pieces are placed at the top ends of the second fixed base 8 and the third fixed base 9, at the moment, the second sliding block 16, the third electric telescopic rod 17 and the fourth electric telescopic rod 18 are parked at one side close to the third fixed base 9, the first sliding block 12, the first electric telescopic rod 13 and the second electric telescopic rod 14 are parked at one side close to the second fixed base 8, at the moment, the second electric telescopic rod 14 is parked at the bottom of the fourth electric telescopic rod 18, and then the third sliding block 20 slides on the third linear slide rail 19 and drives the first support rod 21, The first top supporting plate 22, the first bamboo joint type electric push rod 27, the first adsorption block 28 and the first heating frame 29 move together to the top of the first fixed base 7, the pole piece is placed on the diaphragm, the third slide block 20 is restored to the initial position, the second electric telescopic rod 14 is started to retract and retract, the second electric telescopic rod 14 has no supporting force on the diaphragm, the first slide block 12 slides on the first linear slide rail 11 and drives the first electric telescopic rod 13 and the second electric telescopic rod 14 to slide along the first linear slide rail 11, when the second electric telescopic rod 14 is parked at the side close to the third fixed base 9, the second electric telescopic rod 14 is started, the second electric telescopic rod 14 works and extends, at the moment, the second electric telescopic rod 14 has supporting force on the diaphragm, the first slide block 12 slides on the first linear slide rail 11 and drives the first electric telescopic rod 13 and the second electric telescopic rod 14 to slide along the first linear slide rail 11, at this time, the second slider 16, the third electric telescopic rod 17 and the fourth electric telescopic rod 18 are parked at one side close to the third fixed base 9, the first slider 12, the first electric telescopic rod 13 and the second electric telescopic rod 14 are parked at one side close to the second fixed base 8, at this time, the fourth electric telescopic rod 18 is parked at the bottom of the second electric telescopic rod 14, then the fourth slider 24 slides on the fourth linear slide rail 23 and drives the second support rod 25, the second top support plate 26, the first bamboo joint type electric push rod 27, the first adsorption block 30 and the second heating frame 31 to move to the top of the first fixed base 7 together, the pole piece is placed on the diaphragm, the fourth slider 24 is restored to the initial position, the fourth electric telescopic rod 18 is started to retract and retract, the fourth electric telescopic rod 18 has no supporting force on the diaphragm, the second slider 16 slides on the second linear slide rail 15 and drives the third electric telescopic rod 17 and the fourth electric telescopic rod 18 to slide along the second linear slide rail 15 Sliding, when the fourth electric telescopic rod 18 is parked at one side close to the second fixed base 8, starting the fourth electric telescopic rod 18, the fourth electric telescopic rod 18 is extended, at this time, the fourth electric telescopic rod 18 has a supporting force on the diaphragm, then the second sliding block 16 slides on the second linear sliding rail 15 and drives the third electric telescopic rod 17 and the fourth electric telescopic rod 18 to slide along the second linear sliding rail 15, the second sliding block 16, the third electric telescopic rod 17 and the fourth electric telescopic rod 18 are parked at one side close to the third fixed base 9, the first sliding block 12, the first electric telescopic rod 13 and the second electric telescopic rod 14 are parked at one side close to the second fixed base 8, at this time, the fourth electric telescopic rod 18 should be parked at the top of the second electric telescopic rod 14, so that a single pole piece can be stored in a single space by means of alternate circulation, each pole piece can be individually stored in a single storage space by means of a folding mechanism, pile up a plurality of pole pieces of accomodating again, be convenient for follow-up transport, storage and use, avoid the pole piece to be contaminated, better protection pole piece, this embodiment has specifically solved among the prior art original battery pole piece stacking mechanism and has accomodate a plurality of pole pieces and pile together, can not adopt the mode of independent space storage with a single pole piece, effective to the protection effect of pole piece, also there is inconvenience when the later stage is taken the use, the leakproofness is not good after unsealing, remaining pole piece is polluted by the dust easily, influence the problem of use.

The invention provides a stacking mechanism of large-size lithium battery pole pieces as shown in fig. 1-8, wherein the bottom ends of a first top supporting plate 22 and a second top supporting plate 26 are both fixedly provided with a first bamboo joint type electric push rod 27, one of the first bamboo joint type electric push rods 27 is used for connecting the first top supporting plate 22 and a first adsorption block 28, one of the first bamboo joint type electric push rods 27 can drive the first adsorption block 28 and a first heating frame 29 to move up and down when working, the other first bamboo joint type electric push rod 27 is used for connecting the second top supporting plate 26 and a first adsorption block 30, and the first bamboo joint type electric push rod 27 can drive the first adsorption block 30 and a second heating frame 31 to move up and down when working.

Further, in the above technical solution, the first bamboo joint type electric push rod 27 at the bottom end of the first top support plate 22 is fixedly provided with a first adsorption block 28 at the bottom end of the moving end, the outer end of the first adsorption block 28 is fixedly provided with a first heating frame 29, the bottom end of the first adsorption block 28 and the bottom end of the first heating frame 29 are on the same horizontal line, the first adsorption block 28 is used for adsorbing a pole piece, so that the pole piece is conveyed from the second fixing base 8 to the first fixing base 7, and then the pole piece is accommodated and isolated through a membrane, and the membrane is heated through the operation of the first heating frame 29, so that the membrane on the upper layer and the membrane on the lower layer are bonded together, and a single pole piece is sealed.

Further, in the above technical solution, the bottom end of the moving end of the first bamboo joint type electric push rod 27 at the bottom end of the second top supporting plate 26 is fixedly provided with the first adsorption block 30, the outer end of the first adsorption block 30 is fixedly provided with the second heating frame 31, the bottom end of the first adsorption block 30 and the bottom end of the second heating frame 31 are on the same horizontal line, the first adsorption block 30 is used for adsorbing a pole piece, so that the pole piece is conveyed to the first fixing base 7 from the third fixing base 9, and then the pole piece is accommodated and isolated through the diaphragm, and the diaphragm is heated through the operation of the second heating frame 31, so that the diaphragm on the upper layer and the diaphragm on the lower layer are bonded together, and a single pole piece is sealed.

Further, in above-mentioned technical scheme, first unable adjustment base 7, second unable adjustment base 8 and the 9 bottom of third unable adjustment base are all fixed and are equipped with two bottom supporting platforms 32, and a plurality of bottom supporting platforms 32 play the effect of support to first unable adjustment base 7, second unable adjustment base 8 and third unable adjustment base 9, avoid with ground contact, and highly suitable staff's work and observation of also being convenient for, and it is more convenient.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims

1. The utility model provides a jumbo size lithium-ion battery pole piece's stacking mechanism, includes first unable adjustment base (7), second unable adjustment base (8) and third unable adjustment base (9), establish between second unable adjustment base (8) and third unable adjustment base (9) first unable adjustment base (7), first unable adjustment base (7) top is equipped with transport assembly, its characterized in that: a folding mechanism is arranged on the first fixed base (7), a first transportation assembly is arranged on the second fixed base (8), and a second transportation assembly is arranged on the third fixed base (9);

the folding mechanism comprises two first linear sliding rails (11), the two first linear sliding rails (11) are respectively arranged at the front end and the rear end of a first fixed base (7), first sliding blocks (12) are respectively sleeved on the two first linear sliding rails (11), first electric telescopic rods (13) are respectively fixedly arranged at the top ends of the two first sliding blocks (12), second electric telescopic rods (14) are respectively fixedly arranged at the opposite sides of the moving ends of the two first electric telescopic rods (13), second linear sliding rails (15) are respectively fixedly arranged at the front ends of the first linear sliding rails (11) and the rear ends of the first linear sliding rails (11) at the front ends, second sliding blocks (16) are respectively sleeved on the two second linear sliding rails (15), third electric telescopic rods (17) are respectively fixedly arranged at the top ends of the two second sliding blocks (16), fourth electric telescopic rods (18) are respectively fixedly arranged at the opposite sides of the moving ends of the two third electric telescopic rods (17), a fixed shaft (10) is fixedly arranged at the top end of the first fixed base (7);

the first transportation assembly comprises two third linear sliding rails (19), the two third linear sliding rails (19) are respectively arranged at the front end and the rear end of the first fixed base (7) and the second fixed base (8), two third sliding blocks (20) are respectively sleeved on the two third linear sliding rails (19), first supporting rods (21) are respectively fixedly arranged at the top ends of the four third sliding blocks (20), and first top supporting plates (22) are fixedly arranged at the top ends of the four first supporting rods (21);

second transportation subassembly includes two fourth linear slide rails (23), two fourth linear slide rails (23) are established both ends, two around first unable adjustment base (7) and third unable adjustment base (9) respectively all the cover is equipped with two fourth slider (24), four on fourth linear slide rail (23) fourth slider (24) top is all fixed and is equipped with second bracing piece (25), four second bracing piece (25) top is fixed and is equipped with second top backup pad (26).

2. The stacking mechanism for pole pieces of lithium batteries with large size as claimed in claim 1, wherein: the conveying assembly comprises a fixed roller (1), a first guide wheel (2), a tightening roller (3), a second guide wheel (4) and an adjusting roller (5).

3. The stacking mechanism for large-size lithium battery pole pieces as claimed in claim 2, wherein: the tightening roller (3) is arranged on one side of the fixed roller (1), and the adjusting roller (5) is arranged on one side of the tightening roller (3).

4. The stacking mechanism for large-size lithium battery pole pieces as claimed in claim 3, wherein: first leading wheel (2) are established between fixed roller (1) and first leading wheel (2), second leading wheel (4) are established in first leading wheel (2) one side, establish between tighten up roller (3) and adjusting roller (5) second leading wheel (4), establish in fixed roller (1), tighten up roller (3) and adjusting roller (5) bottom first leading wheel (2) and second leading wheel (4).

5. The stacking mechanism for large-size lithium battery pole pieces as claimed in claim 2, wherein: the outer end of the fixed roller (1) is sleeved with a diaphragm roll (6).

6. The stacking mechanism for large-size lithium battery pole pieces as claimed in claim 3, wherein: one end of a diaphragm on the diaphragm roll (6) sequentially penetrates through the bottom end of the first guide wheel (2), the top end of the tightening roller (3), the bottom end of the second guide wheel (4) and the top end of the adjusting roller (5), and one end of the diaphragm on the diaphragm roll (6) sequentially penetrates through and is fixed at the outer end of the fixed shaft (10) in an S shape from one side of two fourth electric telescopic rods (18) and one side of two second electric telescopic rods (14).

7. The stacking mechanism for pole pieces of lithium batteries with large size as claimed in claim 1, wherein: and the bottom ends of the first top supporting plate (22) and the second top supporting plate (26) are respectively fixedly provided with a first bamboo joint type electric push rod (27).

8. The stacking mechanism for large-size lithium battery pole pieces as claimed in claim 5, wherein: the bottom end of the moving end of a first bamboo joint type electric push rod (27) at the bottom end of the first top supporting plate (22) is fixedly provided with a first adsorption block (28), the outer end of the first adsorption block (28) is fixedly provided with a first heating frame (29), and the bottom end of the first adsorption block (28) and the bottom end of the first heating frame (29) are positioned on the same horizontal line.

9. The stacking mechanism for large-size lithium battery pole pieces as claimed in claim 5, wherein: the bottom end of the moving end of the first bamboo joint type electric push rod (27) at the bottom end of the second top supporting plate (26) is fixedly provided with a first adsorption block (30), the outer end of the first adsorption block (30) is fixedly provided with a second heating frame (31), and the bottom end of the first adsorption block (30) and the bottom end of the second heating frame (31) are positioned on the same horizontal line.

10. The stacking mechanism for pole pieces of lithium batteries with large size as claimed in claim 1, wherein: the bottom ends of the first fixing base (7), the second fixing base (8) and the third fixing base (9) are all fixedly provided with two bottom supporting tables (32).