CN109888360A - Laminated cell structure and suitable for its split type lamination, the production method of rubberizing - Google Patents

Abstract

The present invention provides a kind of laminated cell structure and suitable for its split type lamination, the production method of rubberizing, belong to the technical field of battery lamination technology；The laminated cell structure includes anode pole piece, cathode pole piece and diaphragm, and the diaphragm is equipped between the adjacent anode pole piece and the cathode pole piece；Laminated cell structure is alternately made in the anode pole piece, the diaphragm, the cathode pole piece and another diaphragm stacking；The split type lamination, rubberizing production method use by each part cycle of laminated cell is stacked constitute laminated cell structure after its rubberizing be handled by split type rubberizing production again.The present invention has efficient lamination and rubberizing processing efficiency, can diaphragm present in the existing lamination of effective solution is uneven, membrane tension is uncontrollable and membrane tension is excessive that diaphragm is be easy to cause to stretch phenomena such as serious, and the case where can efficiently solve inefficient processing during existing lamination and rubberizing.

Description

Laminated cell structure and suitable for its split type lamination, the production method of rubberizing

Technical field

The present invention relates to the technical field of battery lamination technology more particularly to a kind of laminated cell structure and it is suitable for its fission Formula lamination, rubberizing production method.

Background technique

Currently, rectangular cell mainly has winding and lamination production technology.Laminated cell has many advantages, such as and is widely applied In production lithium battery, nickel-metal hydride battery, hydrogen fuel cell and lithium-sulfur cell etc.；Such as: energy density is high, discharge platform and volume ratio Capacity is all higher than winding production technology battery；Internal structure is unified, and reaction rate is relatively uniform；Internal resistance is lower, is equivalent to multiple Small pole piece parallel, reduces internal resistance；High-multiplying power discharge capacity is more, and multi-pole-piece parallel connection is easier to be completed in a short time high current Electric discharge etc..

In laminated cell structure, diaphragm is crucial one of interior layer assembly；Diaphragm is located between anode and cathode, main to make With being to separate positive and negative anodes active material, prevent the two poles of the earth short-circuit due to contact；Furthermore in electrochemical reaction, it is able to maintain necessity Electrolyte, form the mobile channel of ion.Lamination process used by laminated cell at present are as follows: lamination stacking table drives diaphragm left It moves right, moves again to positive lamination after having folded a piece of negative electrode tab, be so recycled to the setting number of plies, then cut off diaphragm, finish up Rubberizing.First existing this lamination process is easy to appear that lamination process septation is uneven, membrane tension is uncontrollable and diaphragm Overtension be easy to cause diaphragm to stretch phenomena such as serious, causes short circuit and other battery bad phenomenons；Second lamination and rubberizing Process velocity it is slow, be difficult to have higher efficiency to break through.

Summary of the invention

In order to solve the above-mentioned technical problems, the present invention provides a kind of laminated cell structure and be suitable for its split type lamination, The production method of rubberizing, with efficient lamination and rubberizing processing efficiency, can present in the existing lamination of effective solution every Film is uneven, membrane tension is uncontrollable and membrane tension is excessive be easy to cause diaphragm to stretch phenomena such as serious, and can efficiently solve During existing lamination and rubberizing the case where inefficient processing.

The invention provides following technical scheme, a kind of laminated cell structure, including anode pole piece, cathode pole piece and diaphragm Piece is equipped with the diaphragm between the adjacent anode pole piece and the cathode pole piece；The anode pole piece, the diaphragm The laminated cell structure is alternately made in piece, the cathode pole piece and another diaphragm stacking.

Preferably, at least one described anode pole piece, at least one described diaphragm and at least one described cathode pole piece Be superimposed an obtained monomer；The monomer replaces with another diaphragm stacking is made the laminated cell structure.

Preferably, the structure type of the monomer is successively by the anode pole piece, the diaphragm and the cathode pole Piece overlapping is arranged；The monomer replaces with another diaphragm stacking is made the laminated cell structure.

Preferably, being respectively the first monomer and second comonomer there are two types of the structure types of the monomer；Described first is single The structure type of body is successively by the anode pole piece, the diaphragm, the cathode pole piece, another diaphragm and another The positive plate overlapping is arranged；The structure type of the second comonomer is successively by the cathode pole piece, the diaphragm, institute Anode pole piece, another diaphragm and another cathode pole piece overlapping is stated to be arranged；First monomer, it is described every The laminated cell structure that diaphragm, the second comonomer and another diaphragm stacking are alternately made.

Suitable for the split type lamination of laminated cell structure described above, the production method of rubberizing, include the following steps,

S1: it is successively supplied by assembly line with the multiple anode pole pieces being uniformly spaced, first group of feeding manipulator Preset multiple anode pole pieces are synchronized into transplanting to first group of positioning table, then again by first group of feeder Tool hand will be in the synchronous transplanting to stacked equipment of multiple anode pole piece and setting corresponding with first group of positioning table On first group of stacked platform；

S2: it is successively supplied by assembly line with the multiple diaphragms being uniformly spaced, second group of feeding manipulator will Preset multiple diaphragms are synchronous to transplant to second group of positioning table, at the same time, is loaded with multiple anode pole pieces Described first group stacked platform is rotated by 90 °, position setting corresponding with second group of positioning table, at this point, the stacked equipment On second group of stacked platform rotate to another a batch of multiple institutes are easily carried on first group of positioning table opposite position State anode pole piece；Then again by second group of feeding manipulator by the synchronous transplanting of multiple diaphragm to described the One group of stacked platform, so that multiple diaphragms are sequentially stacked in the top of multiple anode pole pieces；

S3: it is successively supplied by assembly line with the multiple cathode pole pieces being uniformly spaced, third group feeding manipulator Preset multiple cathode pole pieces are synchronized into transplanting to third group positioning table, at the same time, are loaded with multiple positive poles Described first group stacked platform of piece and diaphragm overlapping body is rotated by 90 ° again, and position is opposite with the third group positioning table Should be arranged, at this point, the third group in stacked equipment be stacked platform rotate to be convenient on first group of positioning table opposite position Another a batch of multiple anode pole pieces are carried, described second group stacked platform is rotated to corresponding with second group of positioning table Another a batch of multiple anode pole pieces and diaphragm overlapping body are easily carried on position；Then again by described Synchronous transplant to described first group of multiple cathode pole piece is stacked platform by three groups of feeding manipulators, so that multiple cathode Pole piece is sequentially stacked the top in multiple anode pole pieces and diaphragm overlapping body；

S4: it is successively supplied by assembly line with the multiple another diaphragms being uniformly spaced, the 4th group of feeding machinery Preset multiple another diaphragms are synchronized transplanting to the 4th group of positioning table by hand, at the same time, are loaded with multiple institutes Anode pole piece, the diaphragm and the stacked platform of cathode pole piece overlapping described first group of body is stated to be rotated by 90 ° again, position with The 4th group of corresponding setting of positioning table, at this point, the 4th group of stacked platform in stacked equipment rotates to described first group and determine Be easily carried another a batch of multiple anode pole pieces on the platform opposite position of position, the third group be stacked platform rotate to institute It states and is easily carried another a batch of multiple anode pole pieces, the diaphragm and described on third group positioning table opposite position Cathode pole piece overlaps body, described second group stacked platform rotate to be easily carried on second group of positioning table opposite position it is another A batch of multiple anode pole pieces and the diaphragm overlap body；It then will again by the 4th group of feeding manipulator Multiple another diaphragm is synchronous to transplant to described first group stacked platform, so that multiple another diaphragms are sequentially stacked In the top of multiple anode pole pieces, the diaphragm and the cathode pole piece overlapping body；

S5: repeating S1 to S4 step, obtain preset multiple laminated cell structures, then the 5th group of manipulator simultaneously Multiple laminated cell structures are transplanted on rubberizing equipment and first group of setting corresponding with the 4th group of positioning table Rubberizing station；

S6: described 90 ° of first group of rubberizing station rotary of multiple laminated cell structures are loaded with, so that the rubberizing is set The synchronous rubberizing in the other side to multiple laminated cell structures of back-up, at the same time, second group of rubberizing of the rubberizing equipment Station rotary to position corresponding with the 4th group of positioning table is easily carried multiple another laminated cell structures；

S7: the first group of rubberizing station for being loaded with the laminated cell structure of multiple unilateral rubberizings is rotated by 90 ° again, is made The rubberizing equipment is obtained respectively to the synchronous rubberizing in the laminated cell structure other side of multiple unilateral rubberizings, at the same time, institute State the third group rubberizing station rotary of rubberizing equipment to position corresponding with the 4th group of positioning table be easily carried it is multiple another The one laminated cell structure, at this point, the rubberizing equipment second group of rubberizing station is loaded with respectively it is multiple another described The synchronous rubberizing in the side of laminated cell structure；

S8: the first group of rubberizing station for being loaded with the laminated cell structure of multiple bilateral rubberizings is rotated by 90 ° again, the Multiple laminated cell structure synchronizations that first group of rubberizing station is loaded with bilateral rubberizing are transplanted to stream by six manipulators Waterline is in case subsequent processing is processed, at the same time, the 4th group of rubberizing station rotary of the rubberizing equipment to described 4th group The corresponding position of positioning table is easily carried multiple another laminated cell structures, at this point, the rubberizing equipment is respectively to institute State the synchronous rubberizing in the other side that third group rubberizing station is loaded with the laminated cell structure of multiple unilateral rubberizings, the rubberizing Equipment is loaded with multiple another laminated cell structure synchronization rubberizings to second group of rubberizing station respectively；It weighs in this way It is multiple to carry out, so that the multiple laminated cell structures for being loaded with bilateral rubberizing are persistently transplanted to assembly line in case subsequent processing adds Work.

The invention has the benefit that be all suitble to should for several laminated cell structures not of the same race that the present invention designs and designing The laminations of several laminated cell structures not of the same race is processed and the process of rubberizing processing split, can effective solution it is existing folded Diaphragm present in piece is uneven, membrane tension is uncontrollable and membrane tension is excessive be easy to cause diaphragm to stretch phenomena such as serious, and The case where inefficient processing during existing lamination and rubberizing can efficiently be solved, so that the processing quality of laminated cell and processing effect Rate is improved, and has the great market competitiveness.

Detailed description of the invention

Fig. 1 is the first stacking alternation method of the invention laminated cell structure；

Fig. 2 is described second of the stacking alternation method of laminated cell structure of invention；

Fig. 3 is the third stacking alternation method of the invention laminated cell structure；

Fig. 4 is to realize that the laminated cell structure lamination production of tri- kinds of overlapped ways of Fig. 1, Fig. 2 and Fig. 3 and its rubberizing produce Split type production technological process；

Description of symbols: 10- laminated cell structure, 11- anode pole piece, another anode pole piece of 11a-, 12- cathode pole Another cathode pole piece of piece, 12a-, 13- diaphragm, another diaphragm of 13a-, 14- monomer, another monomer of 14a-, 14b- first are single Body, 14c- second comonomer, 20- are stacked equipment, first group of feeding manipulator of 21-, second group of feeding manipulator of 22-, 23- third group The 4th group of feeding manipulator of feeding manipulator, 24-, the 5th group of manipulator of 25-, first group of the 6th group of manipulator of 26-, 31- positioning Platform, second group of positioning table of 32-, 33- third group positioning table, the 4th group of positioning table of 34-, first group of 41- stacked platform, second group of 42- Stacked platform, 43- third group are stacked platform, the 4th group of 44- stacked platform, 50- rubberizing equipment, first group of rubberizing station of 51-, 52- second Group rubberizing station, the 4th group of 53- third group rubberizing station, 54- rubberizing station.

Specific embodiment

In order to make goal of the invention of the invention, technical solution and technical effect are more clearly understood, below with reference to specific reality Applying mode, the present invention is described further.It should be understood that specific embodiment described herein, for explaining only the invention, It is not intended to limit the present invention.

Shown in referring to Fig.1, a kind of laminated cell structure 10, including anode pole piece 11, cathode pole piece 12 and diaphragm 13, phase The diaphragm 13 is equipped between the adjacent anode pole piece 11 and the cathode pole piece 12；The anode pole piece 11, it is described every The laminated cell structure is alternately made in diaphragm 13, the cathode pole piece 12 and another diaphragm 13a stacking.

Further, at least one described anode pole piece 11, at least one described diaphragm 13 and at least one is described negative Pole pole piece 12 is superimposed an obtained monomer 14；The monomer 14 replaces with another diaphragm 13a stacking is made described folded Piece core strueture 10.

Referring to shown in Fig. 2, the structure type of the monomer 14 successively by the anode pole piece 11, the diaphragm 13 and The overlapping of cathode pole piece 12 is arranged；The monomer 14 replaces with another diaphragm 13a stacking is made the lamination Core strueture 10.

Referring to shown in Fig. 3, there are two types of the structure types of the monomer 14, is respectively the first monomer 14a and second comonomer 14b；The structure type of the first monomer 14a is successively by the anode pole piece 11, the diaphragm 13, the cathode pole piece 12, another diaphragm 13a and another positive plate 11a overlapping are arranged；The structure shape of the second comonomer 14b Formula is successively by the cathode pole piece 12, the diaphragm 13, the anode pole piece 11, another diaphragm 13a and another The cathode pole piece 12a overlapping is arranged；The first monomer 14a, the diaphragm 13, the second comonomer 14b and The laminated cell structure 10 that another diaphragm 13a stacking is alternately made.

Embodiment 1

Referring to shown in Fig. 4, a kind of split type lamination of laminated cell structure, rubberizing production method, comprising the following steps:

S1: it is successively supplied by assembly line with the multiple anode pole pieces 11 being uniformly spaced, first group of feeding machinery Preset multiple anode pole pieces 11 are synchronized transplanting to first group of positioning table 31, then again by described first by hand 21 Group feeding manipulator 21 will multiple anode pole piece 11 it is synchronous transplant in stacked equipment 20 and with first group of positioning On the stacked platform 41 of first group of the corresponding setting of platform 31；

S2: it is successively supplied by assembly line with the multiple diaphragms 13 being uniformly spaced, second group of feeding manipulator 22 by the synchronous transplanting to second group of positioning table 32 of preset multiple diaphragms 13, at the same time, be loaded with it is multiple it is described just The stacked platform 41 of described first group of pole pole piece 11 is rotated by 90 °, position setting corresponding with second group of positioning table 32, this When, second group of stacked rotation of platform 42 in the stacked equipment 20 to be convenient on first group of positioning table, 31 opposite position Carry another a batch of multiple anode pole pieces 11；Then again by second group of feeding manipulator 22 by multiple institute The synchronous transplanting of diaphragm 13 is stated to described first group stacked platform 41, so that multiple diaphragms 13 are sequentially stacked in multiple described The top of anode pole piece 11；

S3: it is successively supplied by assembly line with the multiple cathode pole pieces 12 being uniformly spaced, third group feeding machinery Preset multiple cathode pole pieces 12 are synchronized transplanting to third group positioning table 33 by hand 23, at the same time, are loaded with multiple institutes It states anode pole piece 11 and the diaphragm 13 and overlaps described first group stacked platform 41 of body and be rotated by 90 ° again, position and described the Three groups of corresponding settings of positioning table 33, at this point, third group in the stacked equipment 20 is stacked the rotation of platform 43 to described first Another a batch of multiple anode pole pieces 11, described second group stacked platform 42 are easily carried on group 31 opposite position of positioning table Rotation to be easily carried on second group of positioning table, 32 opposite position another a batch of multiple anode pole pieces 11 and The diaphragm 13 overlaps body；Then again by the third group feeding manipulator 23 that multiple cathode pole piece 12 is same Step transplanting is to described first group stacked platform 41, so that multiple cathode pole pieces 12 are sequentially stacked in multiple anode pole pieces 11 And the diaphragm 13 overlaps the top of body；

S4: it is successively supplied by assembly line with the multiple another diaphragm 13a being uniformly spaced, the 4th group of feeder Preset multiple another diaphragm 13a are synchronized transplanting to the 4th group of positioning table 34 by tool hand 24, at the same time, are carried There are multiple anode pole pieces 11, the diaphragm 13 and the cathode pole piece 12 to overlap described first group stacked platform 41 of body again It is rotated by 90 °, position setting corresponding with the 4th group of positioning table 34, at this point, the stacked platform 44 of the 4th group in stacked equipment Rotation to another a batch of multiple anode pole pieces 11, institute are easily carried on first group of positioning table, 31 opposite position State third group be stacked the rotation of platform 43 to be easily carried on 33 opposite position of third group positioning table it is another a batch of multiple The anode pole piece 11, the diaphragm 13 and the cathode pole piece 12 overlap body, the described second group stacked rotation of platform 42 to Another a batch of multiple anode pole pieces 11 and the diaphragm are easily carried on second group of positioning table, 32 opposite position Piece 13 overlaps body；Then multiple another diaphragm 13a is synchronized again by the 4th group of feeding manipulator 24 and is moved Plant to described first group stacked platform 41 so that multiple another diaphragm 13a be sequentially stacked in multiple anode pole pieces 11, The diaphragm 13 and the cathode pole piece 12 overlap the top of body；

S5: repeating S1 to S4 step, in specific implementation process, the stacked equipment 20 can using indexing table apparatus or It is that magnetic-levitation device realizes repetitive operation；Obtain preset multiple laminated cell structures 10, then simultaneously the 5th group Manipulator 25 will be opposite in the multiple laminated cell structures 10 transplantings to rubberizing equipment 50 and with the 4th group of positioning table 34 The first group of rubberizing station 51 that should be arranged；

S6: the first group of rubberizing station 51 for being loaded with multiple laminated cell structures 10 is rotated by 90 °, so that the patch Gluing equipment 50 is respectively to the synchronous rubberizing in the side of multiple laminated cell structures 10, at the same time, the rubberizing equipment 50 The second group of rotation of rubberizing station 52 to position corresponding with the 4th group of positioning table 34 is easily carried multiple another described folded Piece core strueture 10；

S7: the first group of rubberizing station 51 for being loaded with the laminated cell structure 10 of multiple unilateral rubberizings rotates again 90 °, so that the rubberizing equipment 50 synchronizes rubberizing to 10 other side of laminated cell structure of multiple unilateral rubberizings respectively, with This simultaneously, the third group rubberizing station 53 of the rubberizing equipment 50 rotation to position corresponding with the 4th group of positioning table 34 Multiple another laminated cell structures 10 are easily carried, at this point, the rubberizing equipment 50 is respectively to second group of rubberizing work Position 52 is loaded with the synchronous rubberizing in side of multiple another laminated cell structures 10；

S8: the first group of rubberizing station 51 for being loaded with the laminated cell structure 10 of multiple bilateral rubberizings rotates again 90 °, multiple laminated cell structures 10 that first group of rubberizing station 51 is loaded with bilateral rubberizing by the 6th manipulator are same Step is transplanted to assembly line in case subsequent processing is processed, and at the same time, the 4th group of rubberizing station 54 of the rubberizing equipment 50 rotates Multiple another laminated cell structures 10 are easily carried to position corresponding with the 4th group of positioning table 34, at this point, institute State the laminated cell structure 10 that rubberizing equipment 50 is loaded with multiple unilateral rubberizings to the third group rubberizing station 53 respectively The synchronous rubberizing in the other side, the rubberizing equipment 50 is respectively loaded with second group of rubberizing station 52 multiple another described folded Piece core strueture 10 synchronizes rubberizing；Repeat in this way, in specific implementation process, the stacked equipment 20, which can use, divides Scale device either magnetic-levitation device realizes repetitive operation；So that being loaded with multiple laminated cell knots of bilateral rubberizing Structure 10 is persistently transplanted to assembly line in case subsequent processing is processed.

Embodiment 2

Referring to shown in Fig. 4, a kind of split type lamination of laminated cell structure, rubberizing production method, comprising the following steps:

S1: it is successively supplied by assembly line with the multiple monomers 14 being uniformly spaced, first group of feeding manipulator 21 Preset multiple monomers 14 are synchronized into transplanting to first group of positioning table 31, then again by first group of feeder Tool hand 21 will be in the synchronous transplanting to stacked equipment of multiple monomer 14 and setting corresponding with first group of positioning table 31 First group of stacked platform 41 on；

S2: it is successively supplied by assembly line with the multiple diaphragms 13 being uniformly spaced, second group of feeding manipulator Preset multiple diaphragms 13 are synchronized transplanting to second group of positioning table 32 by 22, at the same time, are loaded with multiple lists The stacked platform 41 of described first group of body 14 is rotated by 90 °, position setting corresponding with second group of positioning table 32, at this point, institute State second group in the stacked equipment 20 stacked rotation of platform 42 to be easily carried on first group of positioning table, 31 opposite position Another a batch of multiple monomers 14；Then again by second group of feeding manipulator 22 by multiple diaphragm 13 synchronous transplantings are to described first group stacked platform 41, so that multiple diaphragms 13 are sequentially stacked in multiple monomers 14 Top；

S3: it is successively supplied by assembly line with the multiple another monomer 14a being uniformly spaced, third group feeding machinery Preset multiple another monomers 14 are synchronized transplanting to third group positioning table 33 by hand 23, at the same time, are loaded with multiple institutes Described first group stacked platform 41 for stating monomer 14 and the overlapping body of the diaphragm 13 is rotated by 90 ° again, position and the third group The corresponding setting of positioning table 33 is determined at this point, the third group in the stacked equipment 50 is stacked the rotation of platform 43 to described first group Be easily carried another a batch of multiple monomers 14 on 31 opposite position of platform of position, the described second group stacked rotation of platform 42 to Another a batch of multiple monomers 14 and the diaphragm 13 are easily carried on second group of positioning table, 32 opposite position Overlap body；Then multiple another monomer 14a is synchronized into transplanting to institute again by the third group feeding manipulator 23 First group of stacked platform 41 is stated, so that multiple another monomer 14a are sequentially stacked in multiple monomers 14 and the diaphragm The top of 13 overlapping bodies；

S4: it is successively supplied by assembly line with the multiple another diaphragm 13a being uniformly spaced, the 4th group of feeder Preset multiple another diaphragm 13a are synchronized transplanting to the 4th group of positioning table 34 by tool hand 24, at the same time, are carried There is described first group stacked platform 41 of multiple monomers 14, the diaphragm 13 and another monomer 14a overlapping body to revolve again Turn 90 °, position setting corresponding with the 4th group of positioning table 34, at this point, the 4th group of stacked platform in the stacked equipment 44 rotations to another a batch of multiple monomers 14 are easily carried on first group of positioning table, 31 opposite position, it is described Third group be stacked the rotation of platform 43 to another a batch of multiple institutes are easily carried on 33 opposite position of third group positioning table State monomer 14, the diaphragm 13 and another monomer 14a overlapping body, the described second group stacked rotation of platform 42 is to described the It is easily carried another a batch of multiple monomers 14 on two groups of 32 opposite positions of positioning table and the diaphragm 13 overlaps body； Then multiple another diaphragm 14a is synchronized into transplanting to described first again by the 4th group of feeding manipulator 24 The stacked platform 41 of group, so that multiple another diaphragm 13a are sequentially stacked in multiple monomers 14, the diaphragm 13 and another The top of the one monomer 14a overlapping body；

S5: S1 is repeated to S4 step, obtains preset multiple laminated cell structures 10, then while the 5th group mechanical Hand 25 by the multiple laminated cell structures 10 transplantings to rubberizing equipment 50 and with described 4th group positioning table 34 is corresponding sets The first group of rubberizing station 51 set；

The S6 to S8 of subsequent step is not just repeated one by one again with embodiment 1.

Embodiment 3

Referring to shown in Fig. 4, a kind of split type lamination of laminated cell structure, rubberizing production method, comprising the following steps:

S1: it is successively supplied by assembly line with the multiple first monomer 14b being uniformly spaced, first group of feeding machinery Hand 21 is by the synchronous transplanting to first group of positioning table 31 of preset multiple first monomer 14b, then again by described the One group of feeding manipulator 21 will be determined in the synchronous transplanting to stacked equipment 20 of multiple first monomer 14b and with described first group On the stacked platform 41 of first group of the position corresponding setting of platform 31；

S2: it is successively supplied by assembly line with the multiple diaphragms 13 being uniformly spaced, second group of feeding manipulator 22 by the synchronous transplanting to second group of positioning table 32 of preset multiple diaphragms 13, at the same time, is loaded with multiple described the The stacked platform 41 of described first group of one monomer 14b is rotated by 90 °, position setting corresponding with second group of positioning table 32, this When, second group of stacked platform rotation 42 in the stacked equipment 20 to be convenient on first group of positioning table, 31 opposite position Carry another a batch of multiple first monomer 14b；It then will be multiple again by second group of feeding manipulator 22 The synchronous transplanting of the diaphragm 13 is to described first group stacked platform 41, so that multiple diaphragms 13 are sequentially stacked in multiple institutes State the top of the first monomer 14b；

S3: it is successively supplied by assembly line with the multiple second comonomer 14c being uniformly spaced, third group feeding machinery Preset multiple second comonomer 14c are synchronized transplanting to third group positioning table 33 by hand 23, at the same time, are loaded with multiple institutes It states the first monomer 14b and the diaphragm 13 and overlaps described first group stacked platform 41 of body and be rotated by 90 ° again, position and described the Three groups of corresponding settings of positioning table 33, at this point, third group in the stacked equipment 20 is stacked the rotation of platform 43 to described first Another a batch of multiple first monomer 14b, described second group stacked platform are easily carried on group 31 opposite position of positioning table 42 rotations to another a batch of first monomer 14b and institute are easily carried on second group of positioning table, 32 opposite position It states diaphragm 13 and overlaps body；Then again by the third group feeding manipulator 33 that multiple second comonomer 14c is same Step transplanting is to described first group stacked platform 41, so that multiple second comonomer 14c are sequentially stacked in multiple first monomers 14b and the diaphragm 13 overlap the top of body；

S4: it is successively supplied by assembly line with the multiple another diaphragm 13a being uniformly spaced, the 4th group of feeder Preset multiple another diaphragm 13a are synchronized transplanting to the 4th group of positioning table 34 by tool hand 24, at the same time, are carried There is described first group stacked platform 41 of multiple first monomer 14b, the diaphragm 13 and second comonomer 14c overlapping body It is rotated by 90 ° again, position setting corresponding with the 4th group of positioning table 34, at this point, the 4th group in the stacked equipment 20 The stacked rotation of platform 44 to another a batch of multiple described first are easily carried on first group of positioning table, 31 opposite position Monomer 14b, the third group be stacked platform 43 rotation to be easily carried on 33 opposite position of third group positioning table it is another Multiple first monomer 14b, the diaphragm 13 and the second comonomer 14c of batch overlap body, and described second group stacked The rotation of platform 42 to another a batch of multiple first monomers are easily carried on second group of positioning table, 32 opposite position 14b and the diaphragm 13 overlap body；Then again by the 4th group of feeding manipulator 24 by it is multiple it is another it is described every The synchronous transplanting of diaphragm 13a is to described first group stacked platform 41, so that multiple another diaphragm 14a are sequentially stacked in multiple institutes State the top of the first monomer 14b, the diaphragm 13 and second comonomer 14c overlapping body；

S5: S1 is repeated to S4 step, obtains preset multiple laminated cell structures 10, then while the 5th group mechanical Hand 25 by the multiple laminated cell structures 10 transplantings to rubberizing equipment 50 and with described 4th group positioning table 34 is corresponding sets The first group of rubberizing station 51 set；

The S6 to S8 of subsequent step is not just repeated one by one again with embodiment 1.

In conclusion several laminated cell structures not of the same race of the present invention and designing and being all suitble to this several not of the same race The lamination of laminated cell structure is processed and the process of rubberizing processing split, so that lamination processing and rubberizing processing realize Past renaturation constantly supplies and cooked mode, compared to the lamination techniques of current art, in the processing quality and processing of laminated cell Efficiency is improved, and has the great market competitiveness.

The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that Specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, exist Under the premise of not departing from present inventive concept, architectural form cans be flexible and changeable, can be with derivative series product.It only makes several Simple deduction or replace all shall be regarded as belonging to present invention scope of patent protection determined by the appended claims.

Claims (5)

1. a kind of laminated cell structure, including anode pole piece, cathode pole piece and diaphragm, the adjacent anode pole piece and described The diaphragm is equipped between cathode pole piece；It is characterized by: the anode pole piece, the diaphragm, the cathode pole piece and The laminated cell structure is alternately made in another diaphragm stacking.

2. laminated cell structure as described in claim 1, it is characterised in that: at least one described anode pole piece, at least one The diaphragm and at least one described cathode pole piece are superimposed an obtained monomer；The monomer and another diaphragm lamella The laminated cell structure is made in stack of alternating.

3. laminated cell structure as claimed in claim 2, it is characterised in that: the structure type of the monomer successively by it is described just Pole pole piece, the diaphragm and cathode pole piece overlapping are arranged；The monomer and another diaphragm stacking are handed over For the laminated cell structure is made.

4. laminated cell structure as claimed in claim 2, it is characterised in that: there are two types of the structure types of the monomer, point It Wei not the first monomer and second comonomer；The structure type of first monomer is successively by the anode pole piece, the diaphragm, institute Cathode pole piece, another diaphragm and another positive plate overlapping is stated to be arranged；The structure shape of the second comonomer Formula is successively by the cathode pole piece, the diaphragm, the anode pole piece, another diaphragm and another cathode pole Piece overlapping is arranged；First monomer, the diaphragm, the second comonomer and another diaphragm stacking alternating The laminated cell structure of system.

5. being suitable for the production method of the split type lamination of any one of the claim 1-4 laminated cell structure, rubberizing, feature It is: includes the following steps,

S1: it is successively supplied by assembly line with the multiple anode pole pieces being uniformly spaced, first group of feeding manipulator will be pre- If the synchronous transplanting to first group of positioning table of multiple anode pole pieces on, then again by first group of feeding manipulator By in the synchronous transplanting to stacked equipment of multiple anode pole piece and setting corresponding with first group of positioning table first On the stacked platform of group；

S2: successively being supplied by assembly line has the multiple diaphragms being uniformly spaced, and second group of feeding manipulator will be preset The synchronous transplanting to second group of positioning table of multiple diaphragms on, at the same time, be loaded with the described of multiple anode pole pieces First group of stacked platform is rotated by 90 °, position setting corresponding with second group of positioning table, at this point, in the stacked equipment Second group of stacked platform rotate to be easily carried on first group of positioning table opposite position it is another it is a batch of it is multiple it is described just Pole pole piece；

Then the synchronous transplanting of multiple diaphragm to described first is stacked again by second group of feeding manipulator Platform is set, so that multiple diaphragms are sequentially stacked in the top of multiple anode pole pieces；

S3: it is successively supplied by assembly line with the multiple cathode pole pieces being uniformly spaced, third group feeding manipulator will be pre- If the synchronous transplanting to third group positioning table of multiple cathode pole pieces on, at the same time, be loaded with multiple anode pole pieces and Described first group stacked platform of the diaphragm overlapping body is rotated by 90 ° again, and position is corresponding with the third group positioning table to be set Set, at this point, the third group in stacked equipment be stacked platform rotate to be easily carried on first group of positioning table opposite position Another a batch of multiple anode pole pieces, described second group stacked platform rotate to second group of positioning table opposite position On be easily carried another a batch of multiple anode pole pieces and diaphragm overlapping body；

Then multiple cathode pole piece is synchronized into transplanting to described first group again by the third group feeding manipulator Stacked platform, so that multiple cathode pole pieces, which are sequentially stacked, overlaps the upper of body in multiple anode pole pieces and the diaphragm Side；

S4: it is successively supplied by assembly line with the multiple another diaphragms being uniformly spaced, the 4th group of feeding manipulator will In the synchronous transplanting to the 4th group of positioning table of preset multiple another diaphragms, at the same time, be loaded with it is multiple it is described just Pole pole piece, the diaphragm and the stacked platform of cathode pole piece overlapping described first group of body are rotated by 90 ° again, position with it is described The 4th group of corresponding setting of positioning table, at this point, the 4th group of stacked platform in stacked equipment rotate to first group of positioning table It is easily carried another a batch of multiple anode pole pieces on opposite position, the third group is stacked platform and rotates to described the Another a batch of multiple anode pole pieces, the diaphragm and the cathode are easily carried on three groups of positioning table opposite positions Pole piece overlaps body, described second group stacked platform rotate to be easily carried another batch on second group of positioning table opposite position Secondary multiple anode pole pieces and the diaphragm overlap body；

Then multiple another diaphragm is synchronized into transplanting to described first again by the 4th group of feeding manipulator The stacked platform of group, so that multiple another diaphragms are sequentially stacked in multiple anode pole pieces, the diaphragm and described negative The top of pole pole piece overlapping body；

S5: S1 is repeated to S4 step, obtains preset multiple laminated cell structures, then the 5th group of manipulator will be more simultaneously A laminated cell structure is transplanted on rubberizing equipment and first group of rubberizing of setting corresponding with the 4th group of positioning table Station；

S6: being loaded with described 90 ° of first group of rubberizing station rotary of multiple laminated cell structures, so that the rubberizing equipment point The synchronous rubberizing in the other side to multiple laminated cell structures, at the same time, second group of rubberizing station of the rubberizing equipment Rotation to position corresponding with the 4th group of positioning table is easily carried multiple another laminated cell structures；

S7: the first group of rubberizing station for being loaded with the laminated cell structure of multiple unilateral rubberizings is rotated by 90 ° again, so that institute Rubberizing equipment is stated respectively to the synchronous rubberizing in the laminated cell structure other side of multiple unilateral rubberizings, at the same time, the patch The third group rubberizing station rotary of gluing equipment to position corresponding with the 4th group of positioning table is easily carried multiple another institutes Laminated cell structure is stated, at this point, the rubberizing equipment is loaded with multiple another laminations to second group of rubberizing station respectively The synchronous rubberizing in the side of core strueture；

S8: the first group of rubberizing station for being loaded with the laminated cell structure of multiple bilateral rubberizings is rotated by 90 ° again, the 6th machine Multiple laminated cell structure synchronizations that first group of rubberizing station is loaded with bilateral rubberizing are transplanted to assembly line by tool hand In case subsequent processing is processed, at the same time, the 4th group of rubberizing station rotary of the rubberizing equipment to the 4th group of positioning The corresponding position of platform is easily carried multiple another laminated cell structures, at this point, the rubberizing equipment is respectively to described Three groups of rubberizing stations are loaded with the synchronous rubberizing in the other side of the laminated cell structure of multiple unilateral rubberizings, the rubberizing equipment Multiple another laminated cell structure synchronization rubberizings are loaded with to second group of rubberizing station respectively.