CN206322805U - Laminating machine - Google Patents
Laminating machine Download PDFInfo
- Publication number
- CN206322805U CN206322805U CN201621458834.8U CN201621458834U CN206322805U CN 206322805 U CN206322805 U CN 206322805U CN 201621458834 U CN201621458834 U CN 201621458834U CN 206322805 U CN206322805 U CN 206322805U
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- China
- Prior art keywords
- module
- station
- pole piece
- feeding
- material storehouse
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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- Battery Electrode And Active Subsutance (AREA)
Abstract
The utility model is related to lithium battery processing field, more particularly to laminating machine, including pole piece material storehouse module, feeding module, paste pole piece module, one stack platform module, one puts barrier film module and a housing, material storehouse module is arranged on the base plate of housing, the feeding module is arranged at directly over material storehouse module, the patch pole piece module is arranged at directly over feeding module, the pole piece material storehouse module, the feeding module and the patch pole piece module are provided with two, one pole piece material storehouse module, one feeding module and a patch pole piece module constitute one group of lamination sequence, two groups of lamination sequences are respectively arranged at the both sides of the stack platform module, and it is equal with the distance of the stack platform module, the feeding module is multiple-station rotation feeding module, it includes a rotary work station, the rotary work station has multiple stations worked independently from each other;The processing efficiency of the laminating machine is higher.
Description
【Technical field】
The utility model is related to lithium battery processing field, more particularly to laminating machine.
【Background technology】
The internal structure of lithium battery includes some positive electrode pole pieces and negative electrode pole piece stacked gradually, positive and negative electrode pole piece
Between separated with barrier film, the processing of positive and negative electrode pole piece needs to carry out in different station, the lithium battery of processing two stations it
Between carry out linear positioning, positioning distance, simultaneously because needing to carry out the paster of multiple positive and negative electrode pole piece, by repeatedly putting
After big effect so that lithium battery lamination processing efficiency is not high.
Meanwhile, laminating machine obtain electrode plates before, it is necessary to complete from material storehouse obtain electrode plates, brush blow electrode plates,
And the operation such as the positioning of electrode plates, directly mounted after electrode plates with facilitating attachment module directly to be obtained, and prior art
Middle aforesaid operations are completed in a station, are unfavorable for improving production efficiency.
In manufacture field, the operating efficiency of machine is particularly important, to the pursuit of operating efficiency by all manufacturing enterprises
Seek assiduously, therefore, two problems of above-mentioned two need further to be improved.
【Utility model content】
In order to overcome above mentioned problem, the utility model proposes the laminating machine using rotary work station feeding.
The utility model solve above-mentioned technical problem provide a kind of technical scheme be:A kind of laminating machine is provided, to right
The lamination of electrode plates, including pole piece material storehouse module, feeding module, patch pole piece module, a stack platform module, one put barrier film mould
Group and a housing, the pole piece material storehouse module, feeding module, patch pole piece module, put barrier film module and cut barrier film module
Be respectively provided with and in housing, material storehouse module is arranged on the base plate of housing, the feeding module be arranged at material storehouse module just on
Side, the patch pole piece module is arranged at directly over feeding module, the pole piece material storehouse module, the feeding module and the patch
Pole piece module is provided with two, a pole piece material storehouse module, a feeding module and a patch pole piece
Module constitutes one group of lamination sequence, and two groups of lamination sequences are respectively arranged at the both sides of the stack platform module, and with it is described
The distance of stack platform module is equal, and the feeding module is multiple-station rotation feeding module, and it includes a rotary work station, described
Rotary work station has multiple stations worked independently from each other.
Preferably, each station includes a station board, to place and process motor pole piece.
Preferably, the feeding module also includes a feeding positioning cylinder, is arranged at the center of rotary work station, Mei Yigong
Position is respectively provided with cylinder interface, and to connect with feeding positioning cylinder, multiple stations include one and take pole piece station, work as cylinder
Interface takes pole piece station to adsorb a piece of electrode plates from pole piece material storehouse module when being connected to feeding positioning cylinder, and in feeding positioning
Cylinder departs from after interface, and electrode plates are still attracted on the station board for taking pole piece station.
Preferably, multiple stations include a brush and blow station, and the feeding module also includes a brush blowing apparatus, sets
The upper end of the station board of station is blown in brush, the electrode plates of acquisition are handled in the way of hairbrush air-blowing.
Preferably, multiple stations include a positional stations, and the feeding module also includes two positioning cylinders, point
One cornerwise two ends of station board of positional stations, the positioning to assist electrode pole piece are not arranged at.
Preferably, the positioning is positioned based on diagonal.
Preferably, multiple stations include an at least redundancy station.
Preferably, the rotary work station includes six stations worked independently from each other.
Preferably, in synchronization, respectively have in multiple stations of the rotary work station station be in take pole piece station,
Brush blows the state that station, positional stations, pole piece take station away, and at least one station is in redundancy station state.
Preferably, the stack platform module includes a stack platform and a rotary electric machine, the rotary electric machine driving
Axis of rotation, drives reciprocally swinging on two working positions of stack platform ± 45 °, and complete patch in ± 45 ° of two working positions
Piece.
Compared with prior art, the feeding module 20 of the laminating machine 100 employs rotary work station, will be in the prior art one
The operation that individual station is completed is divided into multiple stations, substantially increases the efficiency of lamination, while swinging paster, movement locus at+45 °
For 90 °, circumferentially positioning, positioning is apart from short, and it is 0.6S to complete 90 degree of positioning times in cycle;Overall operation is coordinated to complete one
The secondary positive/negative plate that pasted makes the production efficiency of lithium battery be further enhanced for 1.2S.
【Brief description of the drawings】
Fig. 1 is the overall structure diagram of the utility model laminating machine;
Fig. 2 is the pole piece material storehouse modular structure schematic diagram of the utility model laminating machine;
Fig. 3 is the top view of the feeding module of the utility model laminating machine;
Fig. 4 is the stereogram of the feeding module of the utility model laminating machine;
Fig. 5 is the working state schematic representation of the patch pole piece module of the utility model laminating machine;
Fig. 6 is the stereogram of the patch pole piece module of the utility model laminating machine;
Fig. 7 is one of stereogram of stack platform module of the utility model laminating machine;
Fig. 8 is the two of the stereogram of the stack platform module of the utility model laminating machine;
Fig. 9 is the three of the stereogram of the stack platform module of the utility model laminating machine.
【Embodiment】
In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation
Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only used for explaining
The utility model, is not used to limit the utility model.
It is to be appreciated that institute is directional in the utility model embodiment indicates (such as up, down, left, right, before and after ...)
It is only limitted to the relative position in given view, rather than absolute position.
In addition, and can not be managed in the utility model such as relating to the description of " first ", " second " etc. is only used for describing purpose
Solve to indicate or imply its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " the
One ", at least one this feature can be expressed or be implicitly included to the feature of " second ".It is " many in description of the present utility model
It is individual " it is meant that at least two, such as two, three etc., unless otherwise specifically defined.
Referring to Fig. 1, the structural representation for showing laminating machine 100 exemplary Fig. 1, the laminating machine 100 is used for pair
The lamination of the positive and negative electrode piece of lithium battery, it includes pole piece material storehouse module 10, feeding module 20, patch pole piece module 30, a stack
Platform module 40, one puts the housing 60 of barrier film module 50 and one, the pole piece material storehouse module 10, feeding module 20, patch pole piece mould
Group 30, stack platform module 40 and put barrier film module 50 and be respectively provided with and in housing 60, material storehouse module 10 is arranged at housing 60
Base plate on, to place pole piece, and in lamination from the material outside output pole plate of storehouse module 10, the feeding module 20 is arranged at
Expect directly over storehouse module 10, to take pole piece from material storehouse module 10, and pole piece is carried out after predetermined processing operation, transmission
Patch pole piece module 30 is given to carry out paster, the patch pole piece module 30 is arranged at directly over feeding module 20, and from the feeding mould
Group 20 obtains pole piece, carries out corresponding patch pole piece operation, and the stack platform module 40 is installed on housing 60 by an erecting bed
Base plate, the barrier film module 50 of putting is arranged at the top of stack platform module 40, and pole piece is enterprising in the stack platform module 40
Row lamination, the barrier film module 50 of putting conveys barrier film to stack platform module 40, makes to separate with barrier film between positive and negative electrode piece.
The pole piece material storehouse module 10, the feeding module 20 and the patch pole piece module 30 are provided with two, one
The individual pole piece material storehouse module 10, a feeding module 20 and a patch pole piece module 30 constitute one group of lamination sequence
Row, therefore the laminating machine includes two groups of lamination sequences altogether, is respectively used to positive electrode pole piece, the lamination of negative electrode pole piece.
Two groups of lamination sequences that the pole piece material storehouse module 10, the feeding module 20 and the patch pole piece module 30 are constituted are set respectively
The both sides of the stack platform module 40 are placed in, and it is equal with the distance of the stack platform module 40, i.e., and described stack is put down
Platform module 40 is arranged at the middle position of two groups of lamination sequences.
The structural representation for showing pole piece material storehouse module 10 exemplary Fig. 2, the pole piece material storehouse module 10 is used to store
Pole piece is deposited, the pole piece material storehouse module 10 of two groups of lamination sequences deposits positive electrode pole piece and negative electrode pole piece respectively, accordingly, carried out
The corresponding storage of the material storehouse module 10 positive electrode pole piece of lamination sequence of positive electrode pole piece laminating operation, conversely, carrying out negative electrode pole
The corresponding storage of the material storehouse module 10 negative electrode pole piece of lamination sequence of piece lamination.
The pole piece material storehouse module 10 includes a material storehouse motor 11, a screw mandrel, a storage container 13, a carrier plate
14th, two bases 16 of sliding panel 15 and one, the screw mandrel is connected to material storehouse motor 11, and can be driven in the material storehouse
Move being rotated by for motor 11;The base 16 is fixed on the base plate of the housing 60, and the storage container 13 is arranged at
On the base 16, the carrier plate 14 is arranged in the storage container 13, and the carrier plate 14 can hold in the storage
Moved in device 13, electrode plates are deposited on the carrier plate 14, as the carrier plate 14 is transported in the storage container 13
Dynamic and constantly outside conveying.
Specifically, the shape of the storage container 13 and electrode plates is adapted, substantially in four-prism shape, the storage
Four sides of container 13 are engraved structure, and it includes the rib plate 131 of four " L ", and four ribs of four-prism are corresponded to respectively
Side, four rib plates 131 surround to form the memory space.The rib plate 131 includes two side plates 133 being arranged in a mutually vertical manner,
And middle part hollow out one chute 135 of formation of side plate 133, the chute of two side plate 133 of the adjacent ribs plate 131 in same side
A slideway is constituted between 135, two sliding panels 15 are fixedly connected on the opposite sides of the carrier plate 14, and can be along described
Chute is slided in chute.
The axis of the screw mandrel is perpendicular to the plane where the carrier plate 14, and the carrier plate 14 and the screw mandrel spiral shell
Line is connected, and the drive screw of material storehouse motor 11 is rotated, and drives axial direction of the carrier plate 14 along the screw mandrel to carry out
Lower motion.
The structural representation for showing feeding module 20 exemplary Fig. 3, the feeding module 20 is on multiple-station rotation
Expect module, it includes a feeding positioning cylinder 21, a brush blowing apparatus 23, two pole piece positioning cylinders 25, a pole piece inductors 27
With a rotary work station 29, the rotary work station 29 is included in multiple stations worked independently from each other, the present embodiment, including six phases
The station mutually worked independently:First station 291, the second station 292,3rd station 293, the 4th station 294, the 5th station 295
With the 6th station 296, the station 296 of the first station 291 to the 6th is set gradually along clockwise direction, constitutes a regular hexagon, often
One station occupies a line of regular hexagon.Each station includes a rectangular station board 297, to place and process electricity
Pole pole piece, the station board 297 of six stations surrounds to form a receiving space, and the feeding positioning cylinder 21 is arranged at the receiving
In space, positioned at the center of rotary work station;The brush blowing apparatus 23 is arranged at the side of station board 297 of the second station 292;Two
Individual pole piece positioning cylinder 25 is arranged at a diagonal two ends of the station board of 3rd station 293;The pole piece inductor 27 is set
The intersection of the station 294 of 3rd station 293 and the 4th is placed in, whether is come off for detecting electrode pole piece.
First station 291 is takes pole piece station, and it is arranged at the surface of the pole piece material storehouse module 10, is right against
The storage container 13 is set, and the electrode plates in storage container 13 are constantly obtained by the first station 291, specifically, Mei Yigong
Position is respectively provided with cylinder interface 298, to connect with feeding positioning cylinder 21, when cylinder interface 298 is connected to feeding positioning cylinder
When 21, the first station 291 adsorbs a piece of electrode plates from pole piece material storehouse module 10, and departs from interface in feeding positioning cylinder 21
Afterwards, electrode plates are still attracted on station board 297.
Second station 292 blows station for brush, and the first station 291 is obtained after electrode plates, i.e., pole piece is transferred into the
Two stations 292, are carried out in the electrode plates of 292 pairs of acquisitions of the second station by way of brush blowing apparatus 23 is with hairbrush air-blowing
Processing, to prevent from obtaining multiple electrodes pole piece, if the electrode plates obtained in the first station 291 be more than it is a piece of, can will be many
Remaining pole piece is blown away, and is only retained a piece of electrode plates and is delivered to next station.In the present embodiment, the brush blowing apparatus 23 is arranged at
The upper end of station board 297 of second station 292.
The 3rd station 293 is positional stations, and electrode plates are positioned in the 3rd station 293, the positioning base
Positioned in diagonal.The station board 297 1 that two pole piece positioning cylinders 25 are respectively arranged at 3rd station 293 is diagonal
The two ends of line, the positioning to assist electrode pole piece.
4th station 294 takes station away for pole piece, and electrode plates are by the first station 291, the second station 292 and the
After the operation of three stations 293, taken away in the 4th station 294 by the patch pole piece module 30.
5th station 295 and the 6th station 296 are redundancy station, wait electrode plates to be obtained.
The rotary work station 29 can rotate under the driving of electrode.It should be noted that above-mentioned first station 291, second
Station 292,3rd station 293, the 4th station 294, the 5th station 295 and the 6th station 296 blow work with taking pole piece station, brush
Position, positional stations, pole piece take the relation between station and redundancy station away for relatively, and not exclusively.Only in the quiet of diagram
Only state, the first station 291 is takes pole piece station, and the second station 292 blows station for brush, and 3rd station 293 is positional stations, the
Four stations 294 take station away for pole piece, and the 5th station 295 and the 6th station 296 are redundancy station.In practical operation, rotation
Station rotates under the driving of electrode, for example, being rotated in a clockwise direction, then the six of rotary work station station undergoes successively is taking
Pole piece station obtains electrode plates, blows station progress brush in brush and blows operation, completes the positioning of electrode plates in positional stations, finally
When pole piece takes station away, electrode plates are removed, and after two subsequent redundancy station states, repeat above-mentioned acquisition electricity
The circulation that pole pole piece is removed to electrode plates, i.e., in synchronization, respectively have in six stations of the rotary work station 29
One station, which is in, takes pole piece station, brush to blow station, positional stations, pole piece and take the state of station away, while having at two stations
In redundancy station state.
In the illustrated embodiment, the first station 291 is currently to take pole piece station, next interval i.e. with rotation work
The rotation of position is changed into brush and blows station, and the second station 292 blows station by current brush and is changed into positional stations, 3rd station
293 are changed into pole piece by current positional stations takes station away, the 4th station 294 by current pole piece take away station be changed into it is superfluous
Remaining station, the 5th station 295 is still redundancy station, and the 6th station 296 is then changed into by redundancy station and takes pole piece station, is completed
One circulation.
In other embodiments, the rotary work station 29 may not be 6 stations, it is only necessary to meet in synchronization, rotation
Respectively having a station to be in multiple stations of station 29 takes pole piece station, brush to blow station, positional stations, pole piece and take station away
State, and at least one station is in redundancy station state.
Carried out by the way that each process operation of a process is shared into each station, recycle the rotation of each station
Turn operation, complete to take all operations that pole piece, brush blow operation, positioning, pole piece are removed, the feeding compared in station
Module will be shared the time to multiple stations, greatly improve the processing efficiency of battery.
The structural representation for showing patch pole piece module 30 exemplary Fig. 4, the patch pole piece module 30 includes a rotation
The absorption of motor 31, one motor 33, a swing arm 35 and an adsorbent equipment 37, described one end of swing arm 35 is fixedly connected on described
Electric rotating machine 31 and can the electric rotating machine 31 driving lower swing, the absorption motor 33 is arranged at the swing arm 35
On, the adsorbent equipment 37 is arranged at swing arm 35 away from the one end of electric rotating machine 31, and can adsorb the driving lower edge of motor 31
The length direction of swing arm 35 is moved, so that adsorption electrode pole piece, by motor pole piece from the pole piece of the rotary work station 29 of feeding module 20
Station is taken away to take away.
The structural representation for showing stack platform module 40 exemplary Fig. 5, the stack platform module 40 includes one
Mounting seat 41, a stack platform 43 and a rotary electric machine 45, the mounting seat 41 are fixed on the connection erecting bed with by institute
State stack platform module 40 and be fixed on the erecting bed.The opposite sides of mounting seat 41 is each provided with a fixation version 411, described
Stack platform 43 is arranged between two fixed versions 411.The one end of mounting seat 41 is additionally provided with a motor and installs version 413, described turn
Dynamic motor 45 is installed on motor and installed in version 413, and the rotating shaft of rotary electric machine 45 sequentially passes through that motor installs version 413 and two solid
Determine version 411, the drive shaft of rotary electric machine 45 is rotated, drive stack platform 43 to be mounted opposite seat 41 and rotate, the amplitude of rotation
To relatively rotate where the rotating shaft of the motor 45 and perpendicular plane of mounting seat 41 in ± 90 ° of angles.
The stack platform 43 include a platform floor 431, a landing slab 432, a platform constant pressure cylinder 433, two it is flat
Platform fills up cylinder 434, one first stack of laminations 435 and a second lamination group 436, and the platform floor 431 is located at two fixed plates 411
Between, in the rotating shaft for being fixed on rotary electric machine 45, rotary electric machine 45 is by driving platform floor 431 and then driving whole stack to put down
Platform 43 is past on two working positions where relatively rotating the rotating shaft of motor 45, with the perpendicular plane of mounting seat 41 in ± 45 °
Physical pendulum is moved, and completes paster in ± 45 ° of two working positions.The platform constant pressure cylinder 433 is arranged in platform floor 431
The heart, two platforms fill up the both sides that cylinder 434 is arranged at the platform constant pressure cylinder 433, and the landing slab 432 is arranged at platform
On constant pressure cylinder 433, the landing slab 432 includes two platform breach 4321, parallel from the longer edge of the landing slab 432
Extend in the direction on shorter one side, the length of the platform breach 4321 is less than the shorter one side of landing slab 432, two platforms
Filling up cylinder 434, corresponding two platform breach 4321 are set respectively, are filled up in platform under the driving of cylinder 434, one and platform
What breach was adapted, which fills up thick stick, can fill up in the position of platform breach 4321.First stack of laminations 435 and second lamination group 436 are distinguished
The lamination of two lamination sequences of correspondence, is respectively arranged at the longer one side side of landing slab.
First stack of laminations 435 includes a synchronous motor 4351, a transmission component 4353, two pressing cylinders 4355 and two
Individual compressing tablet 4357, two compressing tablets 4357 are individually fixed on two pressing cylinders 4355, are respectively arranged at landing slab 432 longer
One side two ends, pressing cylinder 4355 is fixed on the upper surface of platform floor 431, and synchronous motor 4351 is fixed on platform floor
431 lower surface, transmission component 4353 includes a driving wheel 435a, a driven pulley 435b and a conveyer belt 435c, synchronous electricity
The driving driving wheel of machine 4351 435a is rotated, and driving wheel 435a drives driven pulley 435b to rotate by conveyer belt 435c, so that
The compressing tablet 4357 for being arranged at two pressing cylinders 4355 at the two ends on the longer one side of landing slab and being arranged on realizes synchronization
Operation.
Second lamination group 436 is identical with the structure of the first stack of laminations 435, and the first stack of laminations 4435 and second lamination group 436
The Central Symmetry of relatively flat platen 432.
Although it is appreciated that above and hereinafter stack platform be rotated motor driving ± 45 ° of two working positions it
Between swing, but this should not be understood that position is restricted, any power drive unit that can be rotated with drive shaft, as long as can be real
Existing drive shaft is rotated, and stack platform is swung between ± 45 ° of two working positions, including but not limited to connecting rod driving machine
Structure, gear driven mechanism, cylinder etc..
The operation that stack platform module 40 is rotated is realized as follows:
In an initial condition, the bar of filling up that cylinder 434 is connected is filled up with platform to fill up in platform breach 4321, the first lamination
Four compressing tablets 4357 of group 435 and second lamination group 436 push down landing slab 432;Rotary electric machine 45 is started working, by rotating shaft and
The driving of platform floor 431, making stack platform 43, (this sentences the present position of the first stack of laminations 435 for first party toward first direction
To) swing, swing to after+45 ° of amplitude, two compressing tablets 4357 of the first stack of laminations 435 are pulled open, the two of the first stack of laminations 435
Individual pressing cylinder 4355 is synchronous to be unclamped, and the correspondence of patch pole piece module 30 carries out patch electrode plates (such as positive electrode pole piece) operation, pastes pole
The adsorbent equipment 37 of piece module 30 is left after landing slab 432, and two compressing tablets 4357 of the first stack of laminations 435 are retracted, the first lamination
Two pressing synchronous pressings of cylinder 4355 of group 435, the driving of rotary electric machine 45 repeatedly expects platform 43 toward second direction (second lamination group
436 direction) swing, when swinging to -45 ° of positions, two compressing tablets of second lamination group 436 are pulled open, and the two of second lamination group 436
Individual pressing cylinder synchronously unclamps, and the correspondence of patch pole piece module 30 carries out patch electrode plates (such as negative electrode pole piece) operation, pastes pole piece mould
The adsorbent equipment 37 of group 30 is left after landing slab, and two compressing tablets of second lamination group 436 are retracted, two of second lamination group 436
Cylinder synchronous pressing is pressed, repeatedly material platform 43 returns to initial position to the driving of rotary electric machine 45, after electrode plates have been folded, four compressing tablets
4357 push down electrode plates, and now constant pressure cylinder 433 is depressed, and repeat said process until the preset number of plies of lamination, lamination is completed
Afterwards, stack platform 43 is swung 90 ° and is straightened to electrode plates by oscillating motor 45, and electrode plates are removed, and fill up platform air cylinder
434 unclamp, and fill up bar and leave platform breach 4321.
The barrier film module 50 of putting is arranged at the top of stack platform module 40, and conveys barrier film to stack platform 43, so that
Obtain and separated between positive and negative electrode pole piece with barrier film.
When the laminating machine 100 works, the storage electrodes pole piece of pole piece material storehouse module 10, and in material storehouse motor 11 and fortune
To the delivery electrodes pole piece of feeding module 20 in the presence of support plate 14, electrode plates sequentially pass through in feeding module 20 and take pole piece work
Position, brush are blown after the processing of station, positional stations, are taken station away in pole piece and are taken away by patch pole piece module 30, patch pole piece module 30
Adsorbent equipment 37 takes station adsorption electrode pole piece away in the case where absorption motor 33 drives from pole piece, and the subsequent driving of electric rotating machine 31 is swung
Arm 35 swings 45 °, and now rotary electric machine 45 just drives stack platform 43 to turn to close to the direction of the patch pole piece module 30, patch
The driving of electric rotating machine 31 swing arm 35 drives adsorbent equipment 37 away from stack platform 43 after the paster of pole piece module 30, paster, completes
The lamination of one lamination sequence, the driving stack of rotary electric machine 45 platform 43 goes to another lamination sequence to complete lamination.
Compared with prior art, the feeding module 20 of the laminating machine 100 employs rotary work station, will be in the prior art one
The operation that individual station is completed is divided into multiple stations, substantially increases the efficiency of lamination, while swinging paster, movement locus at+45 °
For 90 °, circumferentially positioning, positioning is apart from short, and it is 0.6S to complete 90 degree of positioning times in cycle;Overall operation is coordinated to complete one
The secondary positive/negative plate that pasted makes the production efficiency of lithium battery be further enhanced for 1.2S.
Preferred embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited,
Every any modification made within design of the present utility model, equivalent and improvement etc. should be included in the utility model
Scope of patent protection in.
Claims (10)
1. laminating machine, to the lamination to electrode plates, including pole piece material storehouse module, feeding module, patch pole piece module, a stack
Platform module, one put barrier film module and a housing, the pole piece material storehouse module, feeding module, patch pole piece module, put barrier film mould
Group and cut barrier film module be respectively provided with housing, it is characterised in that material storehouse module is arranged on the base plate of housing, institute
State feeding module to be arranged at directly over material storehouse module, the patch pole piece module is arranged at directly over feeding module, the pole piece material
Storehouse module, the feeding module and the patch pole piece module are provided with two, the pole piece material storehouse module, an institute
State feeding module and a patch pole piece module constitutes one group of lamination sequence, two groups of lamination sequences are respectively arranged at described folded
Expect the both sides of platform module, and it is equal with the distance of the stack platform module, and the feeding module is on multiple-station rotation
Expect module, it includes a rotary work station, and the rotary work station has multiple stations worked independently from each other.
2. laminating machine as claimed in claim 1, it is characterised in that each station includes a station board, to place and process
Motor pole piece.
3. laminating machine as claimed in claim 2, it is characterised in that the feeding module also includes a feeding positioning cylinder, if
The center of rotary work station is placed in, each station is respectively provided with cylinder interface, to connect with feeding positioning cylinder, multiple works
Position includes one and takes pole piece station, takes pole piece station to be inhaled from pole piece material storehouse module when cylinder interface is connected to feeding positioning cylinder
Attached a piece of electrode plates, and after feeding positioning cylinder departs from interface, electrode plates are still attracted to the station for taking pole piece station
On plate.
4. laminating machine as claimed in claim 3, it is characterised in that multiple stations include a brush and blow station, it is described on
Expect that module also includes a brush blowing apparatus, the upper end that brush blows the station board of station is arranged at, to the electrode plates of acquisition with hairbrush gas
The mode blown is handled.
5. laminating machine as claimed in claim 4, it is characterised in that multiple stations include a positional stations, it is described on
Expect that module also includes two positioning cylinders, one cornerwise two ends of station board of positional stations are respectively arranged at, to assist
The positioning of electrode plates.
6. laminating machine as claimed in claim 4, it is characterised in that the positioning is positioned based on diagonal.
7. laminating machine as claimed in claim 2, it is characterised in that multiple stations include an at least redundancy station.
8. laminating machine as claimed in claim 2, it is characterised in that the rotary work station includes six works worked independently from each other
Position.
9. laminating machine as claimed in claim 6, it is characterised in that in synchronization, multiple stations of the rotary work station
Respectively having a station to be in takes pole piece station, brush to blow the state that station, positional stations, pole piece take station away, at least one station
In redundancy station state.
10. laminating machine as claimed in claim 1, it is characterised in that the stack platform module include a stack platform and
One rotary electric machine, the rotary electric machine drive shaft is rotated, and drives reciprocally swinging on two working positions of stack platform ± 45 °,
And complete paster in ± 45 ° of two working positions.
Priority Applications (1)
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CN201621458834.8U CN206322805U (en) | 2016-12-28 | 2016-12-28 | Laminating machine |
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CN201621458834.8U CN206322805U (en) | 2016-12-28 | 2016-12-28 | Laminating machine |
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CN201621458834.8U Expired - Fee Related CN206322805U (en) | 2016-12-28 | 2016-12-28 | Laminating machine |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106505254A (en) * | 2016-12-29 | 2017-03-15 | 深圳市三本机械有限公司 | Laminating machine |
CN110661023A (en) * | 2019-08-07 | 2020-01-07 | 深圳市兴禾自动化有限公司 | Double-platform circulating sectional type turret lamination device and lamination process thereof |
CN113682811A (en) * | 2021-07-28 | 2021-11-23 | 深圳科瑞技术股份有限公司 | Pole piece carrying device and lamination equipment |
-
2016
- 2016-12-28 CN CN201621458834.8U patent/CN206322805U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106505254A (en) * | 2016-12-29 | 2017-03-15 | 深圳市三本机械有限公司 | Laminating machine |
CN110661023A (en) * | 2019-08-07 | 2020-01-07 | 深圳市兴禾自动化有限公司 | Double-platform circulating sectional type turret lamination device and lamination process thereof |
CN113682811A (en) * | 2021-07-28 | 2021-11-23 | 深圳科瑞技术股份有限公司 | Pole piece carrying device and lamination equipment |
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