A kind of lithium battery preparation pressure core patch primer integration apparatus
Technical field
The present invention relates to a kind of lithium batteries to manufacture instrument field, and in particular to a kind of lithium battery preparation pressure core patch primer one
Body equipment.
Background technique
Present lithium battery cathode plate needs to carry out negative electrode tab to press core and rubberizing technique after having pasted large stretch of glue, now
Pressure core mainly separates progress with rubberizing technique, and after negative electrode tab is pressed core by staff, staff needs that core will be pressed
The negative electrode tab finished is transferred at tape sticking device, needs multiple staff to operate several equipment in this way, due to cost of labor
Increase, substantially increases the production cost of lithium battery, due to needing worker to carry out dismounting negative electrode tab, greatly reduce production in this way
Efficiency;The pressure core time of present pressing core device is short simultaneously, and successively can only a piece of chip, press the core time soon in this way, in this way
Negative electrode tab is easy to produce rebound, works at the same time efficiency and its low.
Summary of the invention
In view of the above shortcomings of the prior art, the present invention proposes that a kind of lithium battery preparation is set with pressure core patch primer integration
It is standby, it is easy to implement and fast ram compression core and rubberizing process is realized to negative electrode tab, when pressing core rubberizing, without staff to equipment
It is operated, while reducing the amount of labour of staff, also accelerate production efficiency.
In order to achieve the above object, the solution of the present invention;A kind of lithium battery preparation pressure core patch primer integration apparatus, packet
Material storage mechanism, feed mechanism, hold-down mechanism, ejecting mechanism and adhesive tape rubberizing mechanism are included, the side of material storage mechanism is provided with feed mechanism,
The side of feed mechanism is provided with hold-down mechanism, and the first infrared sensor is provided on feed mechanism and the first infrared ray passes
Sensor can rotate against hold-down mechanism, hold-down mechanism relative to feed mechanism, and kickoff mechanism is provided in hold-down mechanism
Structure, the aperture at the center of turntable are fixed with ejecting mechanism at the center opening of turntable, are provided in the side of hold-down mechanism
It is provided with turn-over mechanism between adhesive tape rubberizing mechanism and hold-down mechanism and adhesive tape rubberizing mechanism, the second infrared ray biography is provided on adhesive tape rubberizing mechanism
Sensor and the second infrared sensor are against hold-down mechanism.
Preferably, hold-down mechanism includes turntable, support ring and compression module, and intermediate station is provided with logical for round and center
Hole is fixed with the more columns being distributed in a ring in the edge of turntable, the branch of circular ring shape is fixed at the top of more root posts
Pushing out ring is provided with multiple compression modules being distributed in a ring between support ring and turntable, wherein compression module include pressure-bearing platform,
Briquetting and compression cylinder, pressure-bearing platform are fixed on turntable, are fixed with compression cylinder in the support ring above pressure-bearing platform, are being compressed
The bottom of the piston rod of cylinder is fixed with setting on pressing plate and pressing plate, and there are two circular sleeves, wherein being inserted in each circular sleeve
There is a root post.
Preferably, it is provided with fixed station in the through-hole of turntable, ejecting mechanism is fixed on fixed station, ejecting mechanism includes
Negative electrode tab releases cylinder and negative electrode tab injection block, and negative electrode tab is released cylinder and is fixed on fixed station, releases cylinder in negative electrode tab
It is fixed with negative electrode tab injection block and negative electrode tab on piston rod and releases the piston rod of cylinder towards turn-over mechanism.
Preferably, adhesive tape rubberizing mechanism includes conveyer belt, send film, film self-clamping module, film plaster molding block and moulding module,
It is provided in the side of conveyer belt and send film, film self-clamping module, film plaster molding block, be provided in the other side of conveyer belt
Moulding module, is provided with film self-clamping module and send and be provided with cutting between film and film self-clamping module in the side for sending film
Knife is provided in film self-clamping module far from sending the side of film to be provided with film plaster molding block in the other side of conveyer belt
Sliding equipment, is provided with the first negative pressure gas nozzle on the sliding mechanism and the first negative pressure gas nozzle slides on the sliding mechanism, first
It is provided with lower air cylinder between negative pressure gas nozzle and sliding equipment, moulding module and moulding module position are provided with above conveyer belt
In the tail end of conveyer belt, moulding module includes moulding cylinder and adhesive sheet, and moulding cylinder bottom is fixed with adhesive sheet.
Preferably, film self-clamping module includes grip block, jacking block and sliding seat, and grip block is two pieces and two pieces grip blocks
Middle section is hinged, and jacking block is provided between two pieces of grip block tail ends, is provided with clamping cylinder on jacking block, wherein being located at the folder of lower end
It holds block and clamping cylinder is each attached on sliding seat, rubberizing track is provided with below sliding seat, passes through driving in sliding seat
Mechanism driving sliding seat slides on rubberizing track.
Preferably, film plaster molding block includes fitting cylinder, supporting block and roller, is bonded on the piston rod of cylinder and is fixed with
Supporting block and support rod tilts upward, is fixed with roller in supporting block, is completely pasted onto film by roller negative
On pole piece.
Preferably, feeding device includes placement plate, feeding mechanism and pusher, be wherein provided in placement plate two pieces every
Placement plate is divided into temporary plate, intermediate plate and upper flitch by plate, two pieces of partitions, is provided with pusher on intermediate plate and upper flitch
Structure, pusher includes first push plate, feeding push plate and feeding cylinder, wherein first push plate is located on intermediate plate, feeding push plate
In upper flitch, first push plate and feeding push plate are connected with each other and are fixed with feeding gas in first push plate and feeding push plate
Cylinder is additionally provided with the horizontal push plate with partition level on intermediate plate, feed device, feed device is provided with above placement plate
Including sliding rail, feeding cylinder, bracket and three the first negative pressure gas nozzles, wherein sliding rail is fixed on the top of placement plate,
The feeding cylinder of fixed sliding, is fixed with bracket in the lower end of feeding cylinder piston rod on sliding rail, fixed on bracket
There are three the first negative pressure gas nozzles.
Preferably, three the first negative pressure gas nozzles are located at the surface of temporary plate, intermediate plate and upper flitch, wherein feeding
The first negative pressure gas nozzle and other two the first negative pressure gas nozzle mutual dislocations above plate and the first negative pressure gas nozzle above upper flitch
Close to hold-down mechanism.
Preferably, material storage mechanism includes conveyer belt, striker plate and baffle, is driven being transported to by driving mechanism, defeated
It send and is fixed with spaced set on the outer surface of band and has striker plate, be fixed with baffle on the both sides of conveyer belt, it is fixed on baffle
There is the first photoelectric door and the first photoelectric door is located at the top of conveyer belt.
Preferably, turn-over mechanism is provided between hold-down mechanism and adhesive tape rubberizing mechanism, turn-over mechanism includes turnover panel, negative suction head
With turn-over cylinder, turnover panel is hinged with adhesive tape rubberizing mechanism, and multiple negative suction heads are provided on turnover panel, in the hinged of turnover panel and adhesive tape rubberizing mechanism
Place is provided with gear and is provided with the rack gear being meshed with gear in the side of gear, and turn-over cylinder is fixed at the top of rack gear.
Compared with the prior art, the advantages of the present invention are as follows;1, the compression of lithium battery cathode plate and rubberizing are passed through one
Device carries out, and reduces artificial operation and accelerates production efficiency;2, multiple compression modules are provided on hold-down mechanism, significantly
The compression time of negative electrode tab is increased, the effect of compression is good;3, the rubberizing module being arranged realizes automation rubberizing, reduces work people
The labor intensity of member, while rubberizing is carried out using roller, using the negative electrode tab after pressing plate extrusion coating, convenient for making film and cathode
Piece fitting is close.
Detailed description of the invention
Fig. 1 is top view of the invention.
Fig. 2 is the partial view of hold-down mechanism of the present invention.
Fig. 3 is the schematic diagram of the single compression module of the present invention.
Fig. 4 is the top view of rubberizing module of the present invention.
Fig. 5 is the schematic diagram that film plaster of the present invention molds that film is attached to negative electrode tab by block completely.
Fig. 6 is the schematic diagram of material storage mechanism of the present invention.
Fig. 7 is the schematic diagram of film self-clamping module of the present invention.
Fig. 8 is the schematic diagram of shearing knife of the present invention.
Fig. 9 is turn-over mechanism schematic diagram of the present invention.
Wherein, 1, material storage mechanism, 1.1, conveyer belt, 1.2, striker plate, 1.3, baffle, 1.4, driving mechanism, 1.5, first
Photoelectric door, 2, feed mechanism, the 2.1, first infrared sensor, 2.2, placement plate, 2.21, partition, 2.22, temporary plate, 2.23,
Intermediate plate, 2.24, upper flitch, 2.3, feeding mechanism, 2.31, sliding rail, 2.32, feeding cylinder, 2.33, bracket, 2.34,
One negative pressure gas nozzle, 2.4, pusher, 2.41, first push plate, 2.42, feeding push plate, 2.43, feeding cylinder, 3, hold-down mechanism,
3.1, turntable, 3.2, support ring, 3.3, column, 3.4, compression module, 3.5, pressure-bearing platform, 3.6, briquetting, 3.7, compression cylinder,
4, ejecting mechanism, the 4.1, second infrared sensor, 4.2, fixed station, 4.3, negative electrode tab release cylinder, 4.4, negative electrode tab release
Block, 5, adhesive tape rubberizing mechanism, 5.1, send film, 5.11, shearing knife, 5.2, film self-clamping module, 5.21, grip block, 5.22, jacking block,
5.23, sliding seat, 5.24, guide rail, 5.3, film plaster molding block, 5.31, supporting block, 5.32, roller, 5.4, moulding module,
5.41, pressing plate, 5.5, sliding equipment, the 5.51, second negative pressure gas nozzle, 5.6, rubberizing conveyer belt, 6, turn-over mechanism, 6.1, turnover panel,
6.2, turn-over negative suction head, 6.3, turn-over cylinder, 6.4, rack gear, 6.5, gear.
Specific embodiment
It is further elucidated above to the present invention now in conjunction with attached drawing.
As shown in figs 1-9, a kind of lithium battery preparation pastes primer integration apparatus, including material storage mechanism 1, feeder with pressure core
Structure 2, hold-down mechanism 3, ejecting mechanism 4 and adhesive tape rubberizing mechanism 5, the side of material storage mechanism 1 are provided with feed mechanism 2, feed mechanism 2
Rear side is provided with hold-down mechanism 3 and hold-down mechanism 3 is fixed on the ground by pre-buried mode, by embedding on feed mechanism 2
The mode entered is fixed with the first infrared sensor 2.1 and the first infrared sensor 2.1(SD1440-003) against compacting machine
Structure 3, hold-down mechanism 3 can rotate relative to feed mechanism 2, ejecting mechanism 4 is provided in hold-down mechanism 3, in turntable
Aperture at 3.1 center is fixed with ejecting mechanism 4 by welding at the center opening of turntable 3.1, passes through kickoff mechanism
Structure 4 releases the negative electrode tab after compression, is provided with adhesive tape rubberizing mechanism 5 and hold-down mechanism 3 and adhesive tape rubberizing mechanism in the left side of hold-down mechanism 3
It is hinged with turn-over mechanism 6 between 5, the second infrared sensor 4.1(SD1440-003 is embedded on adhesive tape rubberizing mechanism 5) and second
Against hold-down mechanism 3, negative electrode tab is placed in material storage mechanism 1 infrared sensor 4.1, then passes through feed mechanism 2 for cathode
Negative electrode tab is transferred in feed mechanism 2 by piece from material storage mechanism 1, when the first outside line sensor detects that hold-down mechanism 3(is
One outside line sensor alignment compression module 3.4) when, negative electrode tab is sent in hold-down mechanism 3 by feed mechanism 2, passes through compacting machine
Negative electrode tab is sent to turn-over mechanism 6 by the rotation of structure 3, by being pasted after 6 turn-over of turn-over mechanism entering adhesive tape rubberizing mechanism 5
Glue.
Material storage mechanism 1 includes conveyer belt 1.1, striker plate 1.2 and baffle 1.3, is driven being transported to by driving mechanism 1.4
(wherein driving mechanism 1.4 be stepper motor), between being fixed in such a way that glue is bonded on the outer surface of conveyer belt 1.1 etc.
Away from striker plate 1.2 is provided with, it is respectively fixed between two block baffle 1.3 of baffle 1.3(in the two sides of conveyer belt 1.1 and passes through bearing
It is fixed with passive roller 5.32 and active roll tube 5.32,1.1 sets of conveyer belt on passive roller 5.32 and active roll tube 5.32, lead to
Mechanism of overdriving 1.4 drives the rotation of active roll tube 5.32 to drive conveyer belt 1.1 to convey negative electrode tab), pass through on baffle 1.3
The mode of insertion is fixed with the first photoelectric door 1.5(E3JK-5M3) and the first photoelectric door 1.5 be located at the top of conveyer belt 1.1;It will
Negative electrode tab be placed on conveyer belt 1.1 and negative electrode tab with striker plate 1.2 for supporting point, when conveyer belt 1.1 is mobile, backgauge
Negative electrode tab is delivered up by plate 1.2, while the first photoelectric door 1.5 can detect negative electrode tab height, when conveyer belt 1.1
When the negative electrode tab at top is taken away by feed mechanism 2, conveyer belt 1.1 rotates to improve the position of negative electrode tab, guarantees feeder
The feeding of structure 2.
Feeding device includes placement plate 2.2, feeding mechanism 2.3 and pusher 2.4, is wherein provided in placement plate 2.2
Placement plate 2.2 is divided into temporary plate 2.22, intermediate plate 2.23 and upper flitch 2.24 by two pieces of partitions 2.21, two pieces of partitions 2.21,
Pusher 2.4 is provided on intermediate plate 2.23 and upper flitch 2.24, pusher 2.4 includes first push plate 2.41, feeding
Push plate 2.42 and feeding cylinder 2.43, wherein first push plate 2.41 is located on intermediate plate 2.23, feeding push plate 2.42 is located at feeding
On plate 2.24, first push plate 2.41 is with the interconnection of feeding push plate 2.42 and solid in first push plate 2.41 and feeding push plate 2.42
Surely there is feeding cylinder 2.32, the horizontal push plate horizontal with partition 2.21 is additionally provided on intermediate plate 2.23, in the upper of placement plate 2.2
Side is provided with feed device, and feed device includes sliding rail 2.31, feeding cylinder 2.32, bracket 2.33 and three the first negative pressure
Gas nozzle 2.34, wherein sliding rail 2.31 is fixed on the top of placement plate 2.2, the feeding of fixed sliding on sliding rail 2.31
Cylinder 2.32 is fixed with bracket 2.33 in the lower end of 2.32 piston rod of feeding cylinder, and fixed on bracket 2.33 there are three first
Negative pressure gas nozzle 2.34, three the first negative pressure gas nozzles 2.34 are located at temporary plate 2.22, intermediate plate 2.23 and upper flitch 2.24
Surface, wherein the first negative pressure gas nozzle 2.34 and other two 2.34 mutual dislocations of the first negative pressure gas nozzle of the top of upper flitch 2.24
And the first negative pressure gas nozzle 2.34 of 2.24 top of upper flitch is close to hold-down mechanism 3;The first negative pressure gas nozzle 2.34 on feed mechanism 2
Negative electrode tab is drawn on first negative suction head on right side by negative pressure, is taken to negative electrode tab by the sliding of feeding cylinder 2.32
On temporary plate 2.22, it is located in the middle the first negative pressure gas nozzle 2.34 and the negative electrode tab on temporary plate 2.22 is drawn and is placed into centre
On plate 2.23, the negative electrode tab on intermediate plate 2.23 first passes through first push plate 2.41 and pushes hold-down mechanism 3 to, is then within most left
First negative suction head of side will be located in the negative electrode tab on intermediate plate 2.23, and by the movement of feeding cylinder 2.32 by negative electrode tab
It being transported in upper flitch 2.24, the negative electrode tab in upper flitch 2.24 is pushed into hold-down mechanism 3 by feeding push plate 2.42, this
The labor intensity of sample realization automatic operation everything staff.
Hold-down mechanism 3 includes turntable 3.1, support ring 3.2 and compression module 3.4, and intermediate station 3.1 is that round and center is opened
There is through-hole and turntable 3.1 is consistent by the angle of stepper motor driving rotation and the rotation of turntable 3.1, in the edge of turntable 3.1
Be fixed with the more columns being distributed in a ring 3.3 by welding, the top of more root posts 3.3 by welding
It is fixed with the support ring 3.2 of circular ring shape, multiple pressure dies being distributed in a ring are provided between support ring 3.2 and turntable 3.1
Block 3.4, wherein compression module 3.4 includes pressure-bearing platform 3.5, briquetting 3.6 and compression cylinder 3.7, the side that pressure-bearing platform 3.5 passes through welding
Formula is fixed on turntable 3.1, is fixed with compression cylinder by welding in the support ring 3.2 above pressure-bearing platform 3.5
3.7, being fixed with to pass through on pressing plate 5.41 and pressing plate 5.41 by welding in the bottom of the piston rod of compression cylinder 3.7 has
Negative electrode tab is placed on pressure-bearing platform 3.5 by two circular sleeves wherein being inserted in a root post 3.3 in each circular sleeve, pressure
Tight cylinder 3.7 pushes, and such decline of pressing plate 5.41 simultaneously compresses the negative electrode tab on pressure-bearing platform 3.5, leads due to being provided with column 3.3
To, prevent briquetting 3.6 push when dislocation, negative electrode tab is compressed by multiple compression modules 3.4, extends cathode
The pressing time of piece ensure that the compression degree of negative electrode tab.
The through-hole of turntable 3.1 has been embedded in fixed station 4.2 and fixed station 4.2 is bolted on ground, in fixation
Ejecting mechanism 4 is bolted on platform 4.2, ejecting mechanism 4 includes that negative electrode tab releases cylinder 4.3 and negative electrode tab injection block
4.4, negative electrode tab is released 4.3 bolt of cylinder and is fixed on fixed station 4.2, passes through on the piston rod that negative electrode tab releases cylinder 4.3
The mode of welding is fixed with negative electrode tab injection block 4.4 and negative electrode tab releases the piston rod of cylinder 4.3 towards turn-over mechanism 6, when it
In a compression module 3.4 against turn-over mechanism 6 when (the second infrared sensor 4.1 against compression module 3.4 when
Wait), the briquetting 3.6 of that compression module 3.4 rises under the drive of compression cylinder 3.7, and negative electrode tab is released cylinder 4.3 and pushed up outward
Out, the negative electrode tab in compression module 3.4 is shifted onto turn-over mechanism 6 by negative electrode tab injection block 4.4, and pressing for automation is achieved
Negative electrode tab in tight module 3.4 pushs out.
Turn-over mechanism 6 is provided between hold-down mechanism 3 and adhesive tape rubberizing mechanism 5, turn-over mechanism 6 is negative including turnover panel 6.1, turn-over
Pressure head 6.2 and turn-over cylinder 6.3, turnover panel 6.1 and adhesive tape rubberizing mechanism 5 are hinged, and it is negative that multiple turn-overs are embedded on the top surface of turnover panel 6.1
Pressure head 6.2 fixes gear 6.5 in the side of gear 6.5 in the hinged place of turnover panel 6.1 and adhesive tape rubberizing mechanism 5 by welding
It is provided with the rack gear 6.4 being meshed with gear 6.5, is fixed with turn-over cylinder by welding at the top of rack gear 6.4
6.3, risen by 6.3 drive rack 6.4 of turn-over cylinder and declined, rack gear 6.4 controls the rotation of gear 6.5, the rotation of gear 6.5
Turn so that turnover panel 6.1 is rotated, due on turnover panel 6.1 there are turn-over negative suction head 6.2(turn-over negative suction head 6.2 be negative pressure),
When turn-over, negative electrode tab will not be fallen down from turnover panel 6.1, this is quick turn-over and the conveying for realizing negative electrode tab.
Adhesive tape rubberizing mechanism 5 includes rubberizing conveyer belt 5.6, send film 5.1, film self-clamping module 5.2, film plaster molding block 5.3
With moulding module 5.4, the left side of rubberizing conveyer belt 5.6, which is provided with, to be sent film 5.1 and film 5.1 is sent to be fixed on rubberizing by bearing
The side of conveyer belt 5.6 is sending the front side of film 5.1 to be provided with film self-clamping module 5.2 and film 5.1 and film is sent to clamp mould
It is provided with shearing knife 5.11 between block 5.2 and is welded with cutting cylinder at the top of shearing knife 5.11, shearing knife 5.11 passes through cutting
Cylinder driving decline cuts adhesive tape, and film self-clamping module 5.2 includes grip block 5.21, jacking block 5.22 and sliding seat 5.23, clamping
Block 5.21 is that the middle section of two pieces and two pieces grip blocks 5.21 is hinged, and the top of taper is provided between two pieces of 5.21 tail ends of grip block
Block 5.22 is welded with clamping cylinder on jacking block 5.22, wherein being located at the grip block 5.21 of lower end and clamping cylinder passes through welding
Mode be fixed on sliding seat 5.23, the bottom of sliding seat 5.23 is provided with lateral guide rail 5.24 and guide rail 5.24 and is embedded in
Into sliding seat 5.23, the left side of sliding seat 5.23 is fixed with sliding cylinder by welding and the cylinder body of sliding cylinder is logical
The mode for crossing welding is fixed on the left side of guide rail 5.24, in film self-clamping module 5.2 far from the public welding in front side for sending film 5.1
Mode be fixed with film plaster molding block 5.3, it includes fitting cylinder, supporting block 5.31 and roller 5.32 that film plaster, which molds block 5.3,
It is bonded on the piston rod of cylinder and is fixed with supporting block 5.31 and support rod by welding to tilt upward, in supporting block
Roller 5.32 is fixed with by shaft on 5.31, when being bonded cylinder ejector, roller 5.32 is moved to upper right, roller 5.32
First on the front for being pressed in negative electrode tab by film bends and slowly, film is completely pasted by negative electrode tab by roller 5.32
On, it is fixed with sliding equipment 5.5 by welding on the right side of film self-clamping module 5.2 and film plaster molding block 5.3,
It has been inserted in the second negative pressure gas nozzle 5.51 on sliding equipment 5.5 and the second negative pressure gas nozzle 5.51 slides (on sliding equipment 5.5
Two negative pressure gas nozzles 5.51 are connect with cylinder, drive the sliding of the second negative pressure gas nozzle 5.51 by cylinder);Send film 5.1 that adhesive tape is defeated
It after submitting, is now clamped by film self-clamping module 5.2, then cut by shearing knife 5.11 and break, it is negative by second
Negative electrode tab is lifted off rubberizing conveyer belt 5.6 by mouth 5.51 of calming the anger, film self-clamping module 5.2 by one end be pasted onto negative electrode tab
On bottom, then the second negative pressure gas nozzle 5.51 puts down negative electrode tab, the top of rubberizing conveyer belt 5.6 by welding
It is fixed with moulding module 5.4 and moulding module 5.4 is located at the tail end of rubberizing conveyer belt 5.6, moulding module 5.4 includes moulding cylinder
With adhesive sheet, moulding cylinder bottom is fixed with adhesive sheet by welding, while negative electrode tab will move backward to moulding mould
The lower section of block 5.4, while the pressing plate 5.41 of moulding module 5.4 pushes, and is fully adhered to film in negative electrode tab.
In use, the first negative pressure gas nozzle 2.34, the second negative pressure gas nozzle 5.51 and turn-over negative pressure gas nozzle are on startup, at gas nozzle
Negative electrode tab can be drawn for negative pressure and negative electrode tab can be fixed on gas nozzle, and muti-piece negative electrode tab is placed on to the gear of material storage mechanism 1
On flitch 1.2, it is delivered up by the conveying of conveyer belt 1.1, when the first photoelectric sensor detects signal, feeder
Negative electrode tab is adsorbed on the first negative pressure gas nozzle 2.34 by the first negative pressure gas nozzle 2.34 on structure 2, and the first negative pressure gas nozzle 2.34 will be born
Pole piece prevents on feeding platform, when the first infrared sensor 2.1 on feeding platform detects compression module 3.4 (when first
When infrared sensor 2.1 is against compression module 3.4), the briquetting 3.6 of compression module 3.4 rises, in upper flitch 2.24
Negative electrode tab is fed to the top surface of pressure-bearing platform 3.5, and then briquetting 3.6 declines under the action of compression cylinder 3.7 and is pressed onto cathode
On piece, compression module 3.4 compress rear turntable 3.1 and start that the angle for rotating counterclockwise and rotating every time is consistent, negative on feeding platform
Pole piece is sequentially placed in compression module 3.4 and is compressed, due to compression module 3.4 be it is multiple, when the compression of each negative electrode tab
Between it is longer, when being suppressed with the compression module 3.4 of negative electrode tab against the second infrared sensor 4.1, the pressure of compression module 3.4
Block 3.6 rises, and negative electrode tab is released cylinder 4.3 and ejected, while negative electrode tab pushing block shifts the negative electrode tab in compression module 3.4 onto turn-over
In mechanism 6, the turn-over negative suction head 6.2 in turn-over mechanism 6 starts, and turn-over negative suction head 6.2 is negative pressure, such turn-over negative suction head 6.2
Negative electrode tab to be inhaled on turnover panel 6.1, turn-over cylinder 6.3 ejects, and rack gear 6.4 moves upwards, and rack gear 6.4 is rotated with moving gear 6.5,
Gear 6.5 drives turnover panel 6.1 to rotate, and turnover panel 6.1 is buckled on rubberizing conveyer belt 5.6, while the closing of turn-over negative suction head 6.2 makes turn-over
Negative pressure on negative suction head 6.2 disappears, and such negative electrode tab is fallen on rubberizing conveyer belt 5.6, band of the turnover panel 6.1 in turn-over cylinder 6.3
Dynamic lower return;Negative electrode tab on rubberizing conveyer belt 5.6 is sucked up by the second negative pressure gas nozzle 5.51, film self-clamping module 5.2
Clamping adhesive tape a part is attached on the back side of negative electrode tab, and the prominent negative electrode tab of a part, the second negative pressure gas nozzle 5.51 puts negative electrode tab
To get off, negative electrode tab is conveyed by rubberizing conveyer belt 5.6, when negative electrode tab is located at the right side of film plaster molding block 5.3,
Rubberizing cylinder ejects to the right, and by the tape-stripping of prominent negative electrode tab on the front of negative electrode tab, then negative electrode tab passes through rubberizing
Conveyer belt 5.6 continues to convey, and when negative electrode tab is located at moulding 5.4 underface of module, moulding cylinder is pushed, pressing plate 5.41
Negative electrode tab is compressed, is fully adhered to adhesive tape in negative electrode tab.