CN102931430B - Full-automatic battery cell winding device - Google Patents

Abstract

The invention discloses a full-automatic battery cell winding device. The device comprises a sheet producing portion, a winding portion and a blanking portion, wherein the sheet producing portion comprises a positive pole sheet producing unit and a negative sheet producing unit, the positive pole sheet producing unit and the negative sheet producing unit respectively comprise an unwinding mechanism, a tab welding mechanism, a traction mechanism, a tension mechanism and a rubberizing mechanism, the winding portion comprises a membrane input mechanism, a sheet inlet mechanism, a winding mechanism, a membrane cutting mechanism, a pole sheet cutting mechanism and a termination tape attaching mechanism, the full-automatic battery cell winding device also comprises a pressurization forming mechanism, and the pressurization forming mechanism is matched with the winding portion and the blanking portion and is used for pressurizing and molding a winded battery cell. The pressurization forming mechanism is arranged on the full-automatic battery cell winding device, the battery cell can be subjected to pressurization forming when the battery cell winding is completed, the production efficiency is improved, and the quality of the battery cell is improved.

Description

Full-automatic battery core coiler device

Technical field

The invention belongs to battery making apparatus field, especially relate to a kind of full-automatic battery core coiler device.

Background technology

At present, electric core winding technology is relatively ripe, for example film-making operation and coiling operation, and rolling after employing film-making completes, then material volume is changed on up-coiler and reeled.Chinese patent ZL201020163337.1 discloses a kind of integration apparatus, comprise positive and negative pole piece feedway, positive and negative tab welding device, draw-gear, pole piece buffer storage, the pole piece pelletizers such as positive and negative pole piece protection sticker adhesive dispenser: also comprise the first electronic slide unit that is provided with positive plate intermediate plate and the second electronic slide unit that is provided with negative plate intermediate plate, the first barrier film feedway and the second barrier film feedway, and by described positive plate, the barrier film of described the first and second barrier film feedway outputs is according to positive plate, barrier film, negative plate, barrier film sequential volume is coiled into battery pole piece.After using the disclosed equipment winding battery core of this patent, also need by other operation, use special equipment to shape the battery core after reeling, increased the complexity of operation, efficiency is low, and cost is high, and is unfavorable for controlling the quality of the battery core of producing.

Summary of the invention

One object of the present invention is exactly for the deficiencies in the prior art, and a kind of full-automatic battery core coiler device is provided, and can enhance productivity to battery core press molding when electric core winding completes, reduces cost of manufacture, promotes battery core quality.

For achieving the above object, the present invention is by the following technical solutions:

A kind of full-automatic battery core coiler device, comprise film-making part, winding part and blanking part, described film-making partly comprises anodal film-making unit and negative pole film-making unit, described anodal film-making unit and described negative pole film-making unit comprise respectively unreeling structure, tab welding mechanism, haulage gear, tension control mechanism and adhesive tape rubberizing mechanism, described winding part comprises barrier film input mechanism, Ru Pian mechanism, winding mechanism, barrier film shut-off mechanism, pole piece shut-off mechanism and subsides terminal adhesive tape mechanism, it is characterized in that, described full-automatic battery core coiler device structure also comprises press molding mechanism, described press molding mechanism is positioned at the discharging position of described winding part, with the described blanking setting that partly matches, described press molding mechanism is for carrying out press molding processing to the battery core after having reeled.

Preferably, described press molding mechanism comprises fixed head, pressurized cylinder, pressurizing block, add flattening bench, delivery platform, upper backup pad, lower supporting plate, battery core folder, vertical cylinder, vertical guide, lateral cylinder, cross slide way, described fixed head is fixed in frame, on described upper backup pad and described lower supporting plate, lower interval is fixed on described fixed head, described pressurized cylinder is fixed on described lower supporting plate, the telescopic end of described pressurized cylinder with described in add flattening bench and be fixedly connected with, described pressurizing block with described in to add flattening bench relative, be fixed on described upper backup pad, the upper plane of described delivery platform with described in add the upper planar horizontal setting of flattening bench, described cross slide way is fixed on described lower supporting plate, the telescopic end of described lateral cylinder is fixedly connected with the slide block of described cross slide way, described vertical guide is fixed on the described slide block of described cross slide way by fixed block, described vertical cylinder is fixed on described fixed block, the telescopic end of described vertical cylinder is fixedly connected with described battery core folder.

Preferably, described press molding mechanism comprises fixed head, pressurized cylinder, pressurizing block, add flattening bench, delivery platform, upper backup pad, lower supporting plate, battery core folder, vertical cylinder, vertical guide, lateral cylinder, cross slide way, described fixed head is fixed in frame, on described upper backup pad and described lower supporting plate, lower interval is fixed on described fixed head, described pressurized cylinder is fixed on described lower supporting plate, the telescopic end of described pressurized cylinder with described in add flattening bench and be fixedly connected with, described pressurizing block with described in to add flattening bench relative, be fixed on described upper backup pad, the upper plane of described delivery platform with described in add the upper planar horizontal setting of flattening bench, described vertical guide is fixed on described lower supporting plate, the telescopic end of described vertical cylinder is fixedly connected with the slide block of described vertical guide, described cross slide way is fixed on the described slide block of described vertical guide by fixed block, described lateral cylinder is fixed on described fixed block, the telescopic end of described lateral cylinder is fixedly connected with described battery core folder.

Preferably, described press molding mechanism comprises fixed head, pressurized cylinder, pressurizing block, add flattening bench, delivery platform, upper backup pad, lower supporting plate, battery core folder, vertical cylinder, vertical guide, lateral cylinder, cross slide way, described fixed head is fixed in frame, on described upper backup pad and described lower supporting plate, lower interval is fixed on described fixed head, described pressurized cylinder is fixed on described upper backup pad, the telescopic end of described pressurized cylinder is fixedly connected with described pressurizing block, the described flattening bench that adds is relative with described pressurizing block, be fixed on described lower supporting plate, the upper plane of described delivery platform with described in add the upper planar horizontal setting of flattening bench, described cross slide way is fixed on described lower supporting plate, the telescopic end of described lateral cylinder is fixedly connected with the slide block of described cross slide way, described vertical guide is fixed on the described slide block of described cross slide way by fixed block, described vertical cylinder is fixed on described fixed block, the telescopic end of described vertical cylinder is fixedly connected with described battery core folder.

Preferably, described press molding mechanism comprises fixed head, pressurized cylinder, pressurizing block, add flattening bench, delivery platform, upper backup pad, lower supporting plate, battery core folder, vertical cylinder, vertical guide, lateral cylinder, cross slide way, described fixed head is fixed in frame, on described upper backup pad and described lower supporting plate, lower interval is fixed on described fixed head, described pressurized cylinder is fixed on described upper backup pad, the telescopic end of described pressurized cylinder is fixedly connected with described pressurizing block, the described flattening bench that adds is relative with described pressurizing block, be fixed on described lower supporting plate, the upper plane of described delivery platform with described in add the upper planar horizontal setting of flattening bench, described vertical guide is fixed on described lower supporting plate, the telescopic end of described vertical cylinder is fixedly connected with the slide block of described vertical guide, described cross slide way is fixed on the described slide block of described vertical guide by fixed block, described lateral cylinder is fixed on described fixed block, the telescopic end of described lateral cylinder is fixedly connected with described battery core folder.

Described press molding mechanism is preferably hot forming mechanism, can be also cold-press moulding mechanism.

Preferably, also comprise and being arranged in described hot forming mechanism for battery core being carried out to the short-circuit detecting mechanism of short-circuit detecting.

Preferably, described short-circuit detecting mechanism is positioned at a side of described hot forming mechanism, comprise back-up block, detect cylinder, lower check-out console, outsourcing detection lug, detect piece, contiguous block, described back-up block is fixed on described lower supporting plate, described detection cylinder is fixed on described back-up block, the telescopic end of described detection cylinder is fixedly connected with described lower check-out console, on described detection piece and described lower check-out console, under be oppositely arranged, described detection piece is fixedly connected with described contiguous block, the outsourcing of described outsourcing detection lug is fixed on described detection piece, described contiguous block is fixed on described upper backup pad.

Preferably, described short-circuit detecting mechanism is positioned at a side of described hot forming mechanism, comprise back-up block, detect cylinder, lower check-out console, outsourcing detection lug, detect piece, contiguous block, described back-up block is fixed on described lower supporting plate, described detection cylinder is fixed on contiguous block, described contiguous block is fixed on described upper backup pad, the telescopic end of described detection cylinder is fixedly connected with described detection piece, on described lower check-out console and described detection piece, under be oppositely arranged, described lower check-out console is fixed on described back-up block, the outsourcing of described outsourcing detection lug is fixed on described detection piece.

Preferably, also comprise deviation correction mechanism, described deviation correction mechanism comprises pinch upper roll, pinch under roll, nip rolls seat, clamping cylinder, holder, motor, motor fixing seat, support plate, bracing frame, shaft coupling, ball screw, feed screw nut, slide block, the first slide bar, the second slide bar, support frame as described above is fixed in frame, described support plate is fixedly connected with support frame as described above, described motor fixing seat is fixedly connected with described support plate, support frame as described above and described motor fixing seat are distributed in the two ends of described support plate, described motor is fixed in described motor fixing seat, one end of described ball screw is connected with the output shaft of described motor by described shaft coupling, the other end of described ball screw is fixedly supported on support frame as described above, described feed screw nut and described ball screw are connected, described slide block is sheathed to be fixed on described feed screw nut, on described slide block, be provided with the hole of passing for described the first slide bar, described the first slide bar is fixed on support frame as described above through described slide block one end, described the second slide bar is fixed on described slide block through support frame as described above and described holder one end, described pinch upper roll rotates the other end that is fixed on described the second slide bar, described holder is fixedly connected with described the second slide bar, described nip rolls seat is fixed on described holder, described pinch under roll rotates and is fixed on described nip rolls seat, described clamping cylinder is fixed on described holder, the telescopic end of described clamping cylinder is fixedly connected with described nip rolls seat, drive described pinch under roll lifting, on described pinch under roll and described pinch upper roll, under be oppositely arranged, described motor drives ball screw, and and then drive described pinch upper roll to rotate.

The technique effect that the present invention is useful:

The present invention by arranging press molding mechanism in full-automatic battery core coiler device, with the described blanking setting that partly matches, can control press molding mechanism is carried out to press molding processing to the battery core after having reeled, the coiling of battery core and press molding can complete automatically by this operation of electric core winding, manufacturing process is simple and convenient, greatly improved operating efficiency, shortened the operating time, alleviated producer's labour intensity, production efficiency is high, reduced cost of manufacture, the battery core consistency of made is better, guarantees and promote the quality of battery.

Due to press molding mechanism is arranged in cell winding device, therefore can also further in cell winding device, increase the short-circuit detecting mechanism that the battery core after press molding is carried out to short-circuit detecting, this measure can further improve the make efficiency of battery core, and advantageously guarantee the quality of battery core, promote the quality of battery.

Accompanying drawing explanation

The front view of a kind of embodiment of the full-automatic battery core coiler device of Fig. 1 the present invention;

The schematic perspective view of the press molding mechanism in Fig. 2 an embodiment of the present invention;

Press molding mechanism in Fig. 3 an embodiment of the present invention and the right view of short-circuit detecting mechanism;

The schematic perspective view of the deviation correction mechanism in Fig. 4 an embodiment of the present invention.

Embodiment

By reference to the accompanying drawings the present invention is described in further detail by the following examples.

Consult Fig. 1, in a kind of specific embodiment, full-automatic battery core coiler device can comprise film-making part 1, winding part 3 and blanking part 4, film-making part 1 comprises anodal film-making unit 11 and negative pole film-making unit 12, anodal film-making unit 11 and negative pole film-making unit 12 comprise respectively unreeling structure 111, tab welding mechanism 112, haulage gear 113, tension control mechanism 114 and adhesive tape rubberizing mechanism 115, winding part 3 comprises barrier film input mechanism 31, Ru Pian mechanism 32, winding mechanism 33, barrier film shut-off mechanism 34, pole piece shut-off mechanism 35 and subsides terminal adhesive tape mechanism 36.Except above-mentioned part, full-automatic battery core coiler device also comprises press molding mechanism, for the battery core to after having reeled, forms processing, and press molding mechanism can be hot pressing mechanism 5.

Film-making part 1, for making respectively and export positive and negative plate, partly arrives winding part through storing, and winding part is for being sequentially wound into battery core by positive and negative plate together with positive and negative barrier film, and blanking is partly for taking the battery core winding away and delivering to assigned address.

Unreeling structure 111 can comprise unreeling shaft 1111, tape splicing platform 1112 and input roller 1113.Another kind of embodiment unreeling structure also can comprise two unreeling shafts, automatically tape splicing mechanism and inputted roller.

Barrier film input mechanism 31 can comprise unreeling shaft 311 and cross roller 312.Another kind embodiment membrane unwinding mechanism also can comprise two unreeling shafts, tape splicing mechanism and excessively roller automatically.

Tab welding mechanism 112 is for carrying out tab welding conduction lug to pole piece.

Different according to the technique of produced battery, haulage gear 113, tension control mechanism 114 and adhesive tape rubberizing mechanism 115 can have one or more.

Ru Pian mechanism 32 can comprise anodal Ru Pian mechanism 321 and negative pole Ru Pian mechanism 322, and barrier film shut-off mechanism and pole piece shut-off mechanism can all arrange two, is divided into anodal part and negative pole part.

Winding mechanism 33 preferably includes three winding heads, and full-automatic battery core coiler device preferably also comprises station switching mechanism, and station switching mechanism carries out each winding head station conversion.

Full-automatic battery core coiler device preferably also comprises storing part 2.

Consult Fig. 2 and Fig. 3, hot pressing mechanism 5 preferably includes fixed head 500, hot pressing cylinder 501, hot wafering 502, hot pressing platform 503, delivery platform 504, upper backup pad 505, lower supporting plate 506, battery core folder 507, vertical cylinder 508, vertical guide 509, lateral cylinder 510, cross slide way 511, fixed head 500 is fixed in frame, on upper backup pad 501 and lower supporting plate 502, lower interval is fixed on fixed head 500, hot pressing cylinder 501 is fixed on lower supporting plate 206, the telescopic end of hot pressing cylinder 201 is fixedly connected with hot pressing platform 503, hot wafering 502 is relative with hot pressing platform 503, be fixed on upper backup pad 505, the upper planar horizontal setting of the upper plane of delivery platform 504 and hot pressing platform 503, cross slide way 511 is fixed on lower supporting plate 506, vertical guide 509 is fixed on the slide block of cross slide way 511 by fixed block, vertical cylinder 509 is fixed on fixed block, the telescopic end of vertical cylinder 508 is fixedly connected with battery core folder 507.

During hot pressing mechanism 5 work, vertical Telescopic-cylinder end stretches out, make battery core folder upwards away from hot pressing platform, now lateral cylinder telescopic end stretches out, and promotes battery core folder and moves to the direction away from hot pressing platform, when arriving battery core position, vertical Telescopic-cylinder end is return, and battery core folder clamps after battery core, and lateral cylinder telescopic end is return, drive battery core to be also delivered to hot pressing platform, now hot pressing Telescopic-cylinder end stretches out and drives hot pressing platform to be increased to coordinate hot pressing or the battery core of colding pressing shaping with hot wafering.

In another kind of embodiment, hot pressing air cylinder driven hot wafering moves, and hot pressing platform is fixed.

In another kind of embodiment, vertical guide is fixed on lower supporting plate 506, and cross slide way is fixed on the slide block of vertical guide, and the telescopic end of lateral cylinder is fixedly connected with battery core folder 507.

Those skilled in the art will be understood that above-mentioned flexible design, therefore will not illustrate and repeat.

Other embodiment, the hot wafering in hot pressing mechanism can adopt cold pressing block to replace.

In preferred embodiment, full-automatic battery core coiler device also comprises and being arranged on described hot pressing mechanism for battery core being carried out to the short-circuit detecting mechanism 6 of short-circuit detecting, and battery cores detect to get rid of the battery core of positive and negative electrode short circuit in short-circuit detecting mechanism 6.

Consult Fig. 3, in a specific embodiment, short-circuit detecting mechanism 6 is positioned at a side of hot pressing mechanism 5, comprise back-up block 601, detect cylinder 602, lower check-out console 603, outsourcing detection lug 604, detect piece 605, contiguous block 606, back-up block 601 is fixed on lower supporting plate 506, detecting cylinder 602 is fixed on back-up block 601, the telescopic end that detects cylinder 602 is fixedly connected with lower check-out console 603, detect on piece 605 and lower check-out console 603, under be oppositely arranged, detecting piece 605 is fixedly connected with contiguous block 606, 604 outsourcings of outsourcing detection lug are fixed on and detect on piece 605, contiguous block 606 is fixed on upper backup pad 505.

When detecting cylinder 602 in contraction state, the upper planar horizontal setting of the upper plane of lower check-out console 603 and hot pressing platform 503.

When short-circuit detecting mechanism works, when hot pressing cylinder 501 promotes hot pressing platform, raise, the telescopic end that detects cylinder 602 stretches out, and promotes lower check-out console 603 and raises, outsourcing detection lug 604 is contacted with the conduction lug of battery core, with this, test the situation whether battery core exists short circuit.

In another kind of embodiment, detect air cylinder driven detection piece and move, and lower check-out console is fixed.

Full-automatic battery core coiler device also can be provided with the deviation correction mechanism for detection of the off normal of pole piece.

Consult Fig. 4, in a kind of preferred embodiment, in coiler device, design a kind of Straight pull deviation correction mechanism of advancing, comprise pinch upper roll 701, pinch under roll 702, nip rolls seat 703, clamping cylinder 704, holder 705, motor 706, motor fixing seat 707, support plate 708, bracing frame 709, shaft coupling 710, ball screw 711, feed screw nut 712, slide block 713, the first slide bar 714, the second slide bar 715, bracing frame 709 is fixed in frame, support plate 708 is fixedly connected with bracing frame 709, motor fixing seat 707 is fixedly connected with support plate 708, bracing frame 709 and motor fixing seat 707 are distributed in the two ends of support plate 708, motor 706 is fixed in motor fixing seat 707, one end of ball screw 711 is connected with the output shaft of motor 706 by shaft coupling 710, the other end of ball screw 711 is fixedly supported on bracing frame 709, feed screw nut 712 is connected with ball screw 711, slide block 713 is sheathed to be fixed on feed screw nut 712, on slide block 713, be provided with the hole of passing for the first slide bar 714, the first slide bar 714 is fixed on bracing frame 709 through slide block 713 one end, the second slide bar 715 is fixed on slide block 713 through bracing frame 709 and holder 705 one end, pinch upper roll 701 rotates the other end that is fixed on the second slide bar 715, holder 705 is fixedly connected with the second slide bar 715, the second slide bar 715, ball screw 711, the first slide bar 714 is presented on the vertical direction of slide block 713, in, lower setting, nip rolls seat 703 is fixed on holder 705, and pinch under roll 702 rotates and is fixed on nip rolls seat 703, and clamping cylinder 704 is fixed on holder 705, and the telescopic end of clamping cylinder 704 is fixedly connected with nip rolls seat 703, on pinch under roll 702 and pinch upper roll 701, under be oppositely arranged, motor 706 drives ball screws 711, and and then drives pinch upper roll 701 rotations.

Pinch under roll is preferably rubber roll.

Described anodal film-making unit and described negative pole film-making unit also can comprise lug adhesive tape rubberizing mechanism 116.

During a kind of full-automatic battery core coiler device work, be divided into anodal film-making, negative pole film-making, coiling and blanking four parts:

Anodal film-making: anode pole piece initiatively unreels on anode pole piece unreeling structure, haulage gear traction output, enters adhesive tape rubberizing mechanism through tab welding mechanism, and in this process, tension control mechanism is adjusted the tension force of pole piece, and then pole piece enters material storage mechanism.

Negative pole film-making: cathode pole piece initiatively unreels on cathode pole piece unreeling structure, haulage gear traction output, enters adhesive tape rubberizing mechanism through tab welding mechanism, and in this process, tension control mechanism is adjusted the tension force of pole piece, and then pole piece enters material storage mechanism.

Reel: the pole piece that film-making completes enters winding part at material storage mechanism storing by deviation correction mechanism, Ru Pian mechanism inputs to winding mechanism by pole piece, two volume barrier films involve in into winding mechanism through membrane unwinding mechanism active release, when just, cathode pole piece and just, negative pole barrier film all enters after winding mechanism, winding mechanism starts action, three winding heads are reeled successively, first winding head forwards next station to and cuts off after having reeled, paste terminal adhesive tape, on this station, by pole piece shut-off mechanism and barrier film, cutting off structure cuts off pole piece and barrier film, Bing Youtie terminal adhesive tape mechanism is to battery core rubberizing, second winding head reeled simultaneously, first winding head completes cut-out, after the processing of rubberizing station, forward blanking to and partly carry out blanking (below will further describe), now start the cut-out of second winding head, the coiling of rubberizing and the 3rd winding head.Said process loops successively.

Blanking: after having reeled, manipulator is driven the battery core of clamping winding by cylinder, be delivered on the delivery platform of hot pressing mechanism, after hot pressing mechanism hot pressing or the battery core of colding pressing shaping, short-circuit detecting mechanism have been detected, carry out battery core blanking, qualified battery core and defective battery core are delivered to respectively to the position of appointment.

Above content is in conjunction with concrete preferred implementation further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.

Claims (9)

1. a full-automatic battery core coiler device, comprises film-making part, winding part and blanking part, described film-making partly comprises anodal film-making unit and negative pole film-making unit, described anodal film-making unit and described negative pole film-making unit comprise respectively unreeling structure, tab welding mechanism, haulage gear, tension control mechanism and adhesive tape rubberizing mechanism, described winding part comprises barrier film input mechanism, Ru Pian mechanism, winding mechanism, barrier film shut-off mechanism, pole piece shut-off mechanism and subsides terminal adhesive tape mechanism, described full-automatic battery core coiler device structure also comprises press molding mechanism, described press molding mechanism is positioned at the discharging position of described winding part, with the described blanking setting that partly matches, described press molding mechanism is for carrying out press molding processing to the battery core after having reeled, it is characterized in that, described press molding mechanism comprises fixed head, pressurized cylinder, pressurizing block, add flattening bench, delivery platform, upper backup pad, lower supporting plate, battery core folder, vertical cylinder, vertical guide, lateral cylinder, cross slide way, described fixed head is fixed in frame, on described upper backup pad and described lower supporting plate, lower interval is fixed on described fixed head, described pressurized cylinder is fixed on described lower supporting plate, the telescopic end of described pressurized cylinder with described in add flattening bench and be fixedly connected with, described pressurizing block with described in to add flattening bench relative, be fixed on described upper backup pad, the upper plane of described delivery platform with described in add the upper planar horizontal setting of flattening bench, described cross slide way is fixed on described lower supporting plate, the telescopic end of described lateral cylinder is fixedly connected with the slide block of described cross slide way, described vertical guide is fixed on the described slide block of described cross slide way by fixed block, described vertical cylinder is fixed on described fixed block, the telescopic end of described vertical cylinder is fixedly connected with described battery core folder.

2. full-automatic battery core coiler device as claimed in claim 1, is characterized in that, described press molding mechanism is hot forming mechanism or cold-press moulding mechanism.

3. full-automatic battery core coiler device as claimed in claim 2, is characterized in that, also comprises and being arranged in described hot forming mechanism for battery core being carried out to the short-circuit detecting mechanism of short-circuit detecting.

4. full-automatic battery core coiler device as claimed in claim 3, it is characterized in that, described short-circuit detecting mechanism is positioned at a side of described hot forming mechanism, comprise back-up block, detect cylinder, lower check-out console, outsourcing detection lug, detect piece, contiguous block, described back-up block is fixed on described lower supporting plate, described detection cylinder is fixed on described back-up block, the telescopic end of described detection cylinder is fixedly connected with described lower check-out console, on described detection piece and described lower check-out console, under be oppositely arranged, described detection piece is fixedly connected with described contiguous block, the outsourcing of described outsourcing detection lug is fixed on described detection piece, described contiguous block is fixed on described upper backup pad.

5. full-automatic battery core coiler device as claimed in claim 3, it is characterized in that, described short-circuit detecting mechanism is positioned at a side of described hot forming mechanism, comprise back-up block, detect cylinder, lower check-out console, outsourcing detection lug, detect piece, contiguous block, described back-up block is fixed on described lower supporting plate, described detection cylinder is fixed on contiguous block, described contiguous block is fixed on described upper backup pad, the telescopic end of described detection cylinder is fixedly connected with described detection piece, on described lower check-out console and described detection piece, under be oppositely arranged, described lower check-out console is fixed on described back-up block, the outsourcing of described outsourcing detection lug is fixed on described detection piece.

6. full-automatic battery core coiler device as claimed in claim 1, it is characterized in that, also comprise deviation correction mechanism, described deviation correction mechanism comprises pinch upper roll, pinch under roll, nip rolls seat, clamping cylinder, holder, motor, motor fixing seat, support plate, bracing frame, shaft coupling, ball screw, feed screw nut, slide block, the first slide bar, the second slide bar, support frame as described above is fixed in frame, described support plate is fixedly connected with support frame as described above, described motor fixing seat is fixedly connected with described support plate, support frame as described above and described motor fixing seat are distributed in the two ends of described support plate, described motor is fixed in described motor fixing seat, one end of described ball screw is connected with the output shaft of described motor by described shaft coupling, the other end of described ball screw is fixedly supported on support frame as described above, described feed screw nut and described ball screw are connected, described slide block is sheathed to be fixed on described feed screw nut, on described slide block, be provided with the hole of passing for described the first slide bar, described the first slide bar is fixed on support frame as described above through described slide block one end, described the second slide bar is fixed on described slide block through support frame as described above and described holder one end, described pinch upper roll rotates the other end that is fixed on described the second slide bar, described holder is fixedly connected with described the second slide bar, described nip rolls seat is fixed on described holder, described pinch under roll rotates and is fixed on described nip rolls seat, described clamping cylinder is fixed on described holder, the telescopic end of described clamping cylinder is fixedly connected with described nip rolls seat, drive described pinch under roll lifting, on described pinch under roll and described pinch upper roll, under be oppositely arranged, described motor drives ball screw, and and then drive described pinch upper roll to rotate.

7. a full-automatic battery core coiler device, comprises film-making part, winding part and blanking part, described film-making partly comprises anodal film-making unit and negative pole film-making unit, described anodal film-making unit and described negative pole film-making unit comprise respectively unreeling structure, tab welding mechanism, haulage gear, tension control mechanism and adhesive tape rubberizing mechanism, described winding part comprises barrier film input mechanism, Ru Pian mechanism, winding mechanism, barrier film shut-off mechanism, pole piece shut-off mechanism and subsides terminal adhesive tape mechanism, described full-automatic battery core coiler device structure also comprises press molding mechanism, described press molding mechanism is positioned at the discharging position of described winding part, with the described blanking setting that partly matches, described press molding mechanism is for carrying out press molding processing to the battery core after having reeled, it is characterized in that, described press molding mechanism comprises fixed head, pressurized cylinder, pressurizing block, add flattening bench, delivery platform, upper backup pad, lower supporting plate, battery core folder, vertical cylinder, vertical guide, lateral cylinder, cross slide way, described fixed head is fixed in frame, on described upper backup pad and described lower supporting plate, lower interval is fixed on described fixed head, described pressurized cylinder is fixed on described lower supporting plate, the telescopic end of described pressurized cylinder with described in add flattening bench and be fixedly connected with, described pressurizing block with described in to add flattening bench relative, be fixed on described upper backup pad, the upper plane of described delivery platform with described in add the upper planar horizontal setting of flattening bench, described vertical guide is fixed on described lower supporting plate, the telescopic end of described vertical cylinder is fixedly connected with the slide block of described vertical guide, described cross slide way is fixed on the described slide block of described vertical guide by fixed block, described lateral cylinder is fixed on described fixed block, the telescopic end of described lateral cylinder is fixedly connected with described battery core folder.

8. a full-automatic battery core coiler device, comprises film-making part, winding part and blanking part, described film-making partly comprises anodal film-making unit and negative pole film-making unit, described anodal film-making unit and described negative pole film-making unit comprise respectively unreeling structure, tab welding mechanism, haulage gear, tension control mechanism and adhesive tape rubberizing mechanism, described winding part comprises barrier film input mechanism, Ru Pian mechanism, winding mechanism, barrier film shut-off mechanism, pole piece shut-off mechanism and subsides terminal adhesive tape mechanism, described full-automatic battery core coiler device structure also comprises press molding mechanism, described press molding mechanism is positioned at the discharging position of described winding part, with the described blanking setting that partly matches, described press molding mechanism is for carrying out press molding processing to the battery core after having reeled, it is characterized in that, described press molding mechanism comprises fixed head, pressurized cylinder, pressurizing block, add flattening bench, delivery platform, upper backup pad, lower supporting plate, battery core folder, vertical cylinder, vertical guide, lateral cylinder, cross slide way, described fixed head is fixed in frame, on described upper backup pad and described lower supporting plate, lower interval is fixed on described fixed head, described pressurized cylinder is fixed on described upper backup pad, the telescopic end of described pressurized cylinder is fixedly connected with described pressurizing block, the described flattening bench that adds is relative with described pressurizing block, be fixed on described lower supporting plate, the upper plane of described delivery platform with described in add the upper planar horizontal setting of flattening bench, described cross slide way is fixed on described lower supporting plate, the telescopic end of described lateral cylinder is fixedly connected with the slide block of described cross slide way, described vertical guide is fixed on the described slide block of described cross slide way by fixed block, described vertical cylinder is fixed on described fixed block, the telescopic end of described vertical cylinder is fixedly connected with described battery core folder.

9. a full-automatic battery core coiler device, comprises film-making part, winding part and blanking part, described film-making partly comprises anodal film-making unit and negative pole film-making unit, described anodal film-making unit and described negative pole film-making unit comprise respectively unreeling structure, tab welding mechanism, haulage gear, tension control mechanism and adhesive tape rubberizing mechanism, described winding part comprises barrier film input mechanism, Ru Pian mechanism, winding mechanism, barrier film shut-off mechanism, pole piece shut-off mechanism and subsides terminal adhesive tape mechanism, described full-automatic battery core coiler device structure also comprises press molding mechanism, described press molding mechanism is positioned at the discharging position of described winding part, with the described blanking setting that partly matches, described press molding mechanism is for carrying out press molding processing to the battery core after having reeled, it is characterized in that, described press molding mechanism comprises fixed head, pressurized cylinder, pressurizing block, add flattening bench, delivery platform, upper backup pad, lower supporting plate, battery core folder, vertical cylinder, vertical guide, lateral cylinder, cross slide way, described fixed head is fixed in frame, on described upper backup pad and described lower supporting plate, lower interval is fixed on described fixed head, described pressurized cylinder is fixed on described upper backup pad, the telescopic end of described pressurized cylinder is fixedly connected with described pressurizing block, the described flattening bench that adds is relative with described pressurizing block, be fixed on described lower supporting plate, the upper plane of described delivery platform with described in add the upper planar horizontal setting of flattening bench, described vertical guide is fixed on described lower supporting plate, the telescopic end of described vertical cylinder is fixedly connected with the slide block of described vertical guide, described cross slide way is fixed on the described slide block of described vertical guide by fixed block, described lateral cylinder is fixed on described fixed block, the telescopic end of described lateral cylinder is fixedly connected with described battery core folder.