CN208986113U - A kind of battery core unloading device of high capacity polymer lithium ion battery lamination machine - Google Patents

Abstract

The utility model discloses a kind of battery core unloading devices of high capacity polymer lithium ion battery lamination machine, are related to lithium ion battery technology field.The battery core unloading device includes rack, battery core clamp system and driving mechanism.Rack includes the pedestal and column for being vertically arranged and being flexibly connected；Battery core clamp system includes the first clamp assemblies and the second clamp assemblies, and the first clamp assemblies are oppositely arranged with the second clamp assemblies, and the first clamp assemblies and the second clamp assemblies can be relatively close or separate, to realize the clamping to battery core or loosen；Driving mechanism, driving mechanism includes the first driving assembly and the second driving assembly, first driving assembly is for driving the first clamp assemblies and/or the movement of the second clamp assemblies, and the second driving assembly is for driving column that battery core clamp system is driven to move along the length direction of pedestal.The unloading device can well take out the overweight battery core of overlarge area, weight from ultra-large type laminating machine, to improve production efficiency.

Description

A kind of battery core unloading device of high capacity polymer lithium ion battery lamination machine

Technical field

The utility model relates to lithium ion battery technology fields, in particular to a kind of high capacity polymer lithium The battery core unloading device of ion battery laminating machine.

Background technique

In soft bag lithium ionic cell lamination process, a certain number of positive and negative anodes pole pieces and diaphragm heap in a certain order Stack, form the main body of battery --- battery core.Lamination process is completed on laminating machine.

It, just must be by the ruler of battery pole piece in order to improve battery capacity for high capacity polymer lithium ion battery Very little to accomplish to maximize as far as possible, the number of plies of stacking is more as far as possible.With the increase of pole piece size, the lamination number of plies increases, electric after lamination The area and weight of core also greatly increase.By taking 500Ah battery as an example, battery pole piece length and width dimensions are (the cathode pole 760mm*415mm Piece, height containing tab), it is 5~6 times of common batteries (50Ah) pole piece, the lamination number of plies is 105 layers (the total number of plies of positive and negative anodes), is One times of common batteries or more, battery core total weight is up to more than ten kilograms.Such lamination process is completed as a result, must just be made The laminating machine of ultra-large type.Meanwhile taking out the good overlarge area of lamination, the battery core that weight is overweight from laminating machine, also to match The battery core unloading device of standby ultra-large type.

Utility model content

The purpose of this utility model is to provide a kind of battery core knockout machines of high capacity polymer lithium ion battery lamination machine Structure, which can well take out the overweight battery core of overlarge area, weight from ultra-large type laminating machine, to improve Production efficiency.

The embodiments of the present invention are achieved in that

A kind of battery core unloading device of high capacity polymer lithium ion battery lamination machine, comprising:

Rack, rack include the pedestal and column for being vertically arranged and being flexibly connected, and extended vertically is provided on column One sliding rail；

It is set to the battery core clamp system of column, battery core clamp system includes the first clamp assemblies and the second clamp assemblies, First clamp assemblies are oppositely arranged with the second clamp assemblies, and the first clamp assemblies are provided with the first sliding block, the second clamp assemblies It is provided with the second sliding block, the first sliding block and the second sliding block are slidably matched with the first sliding rail respectively, so that the first clamp assemblies and Two clamp assemblies can be relatively close or separate, to realize the clamping to battery core or loosen；And first clamp assemblies include it is multiple simultaneously The first clamping jaw of setting is arranged, the second clamp assemblies include multiple second clamping jaws arranged side by side, and the first clamping jaw and the second clamping jaw are equal It is wedge shaped, and be gradually increased on the direction for moving closer to the first sliding rail；

Driving mechanism, driving mechanism include the first driving assembly and the second driving assembly, and the first driving assembly is for driving First clamp assemblies and/or the second clamp assemblies are moved along the first sliding rail, and the second driving assembly is for driving column to drive battery core Clamp system is moved along the length direction of pedestal.

Further, in the preferred embodiment of the utility model, the first clamp assemblies include three the first clamping jaws, three First clamping jaw is arranged side by side, and is fixed in one end close to the first sliding rail by the first fixed block, and the first sliding block is set to first Fixed block；

Second clamp assemblies include three the second clamping jaws, and three the second clamping jaws are arranged side by side, and close to the first sliding rail One end is fixed by the second fixed block, and the second sliding block is set to the second fixed block.

Further, in the preferred embodiment of the utility model, the first fixed block includes vertically disposed first plate And starting stave, starting stave are slidably connected by the first sliding block and the first sliding rail, the fixation of the end of three the first clamping jaws is set It is placed in the first plate, the first reinforcing rib is provided between the first plate and starting stave；

Second fixed block includes vertically disposed second plate and the second riser, and the second riser passes through the second sliding block and second Sliding rail is slidably connected, and the end of three the second clamping jaws is fixedly installed on the second plate, sets between the second plate and the second riser It is equipped with the second reinforcing rib.

Further, it in the preferred embodiment of the utility model, is offered on starting stave and the second riser multiple Mounting hole.

Further, in the preferred embodiment of the utility model, the first driving mechanism is the first cylinder.

Further, in the preferred embodiment of the utility model, the second driving assembly includes first motor, lead screw, Two sliding rails and third sliding block, lead screw and the second sliding rail are extended along the length direction of rack in rack, and third sliding block is set It is placed in column, first motor is configured as driving lead screw rotation to drive third sliding block to move along the second sliding rail, to realize battery core Clamp system is moved back and forth along the length direction of rack.

Further, in the preferred embodiment of the utility model, driving mechanism further includes third driving assembly, and third is driven Dynamic component is for driving column to rotate in the horizontal plane relative to pedestal.

Further, in the preferred embodiment of the utility model, third driving assembly includes rotating platform and second Motor, rotating platform is horizontally disposed, and column is connect with pedestal by rotating platform, and the second motor is for driving rotating platform to turn It is dynamic, to drive column and battery core clamp system to rotate relative to pedestal in horizontal plane.

Further, in the preferred embodiment of the utility model, third driving assembly is determined including the first locating piece, second Position block and grafting block, the first locating piece and the second locating piece and it is all set in rotating platform, and is equipped with inserting groove, when first fixed Position block and the second locating piece can with grafting block grafting, and in the rotation of the first locating piece and the second locating piece and rotating platform The line of the heart in 90 ° setting, when grafting block successively with the first locating piece and the second locating piece grafting when, rotating platform is rotated by 90 °.

Further, in the preferred embodiment of the utility model, third driving assembly further includes the second cylinder, when first When the inserting groove of locating piece or the second locating piece is opposite with grafting block, the second cylinder is configured as driving grafting block and inserting groove is inserted It connects.

The embodiments of the present invention at least have following advantages or the utility model has the advantages that

The embodiments of the present invention provide a kind of battery core knockout machine of high capacity polymer lithium ion battery lamination machine Structure, the battery core unloading device include rack, battery core clamp system and driving mechanism.Wherein, rack includes being vertically arranged and living The pedestal and column of connection are moved, is provided with the first sliding rail extended vertically on column；Battery core clamp system includes the first clamping group Part and the second clamp assemblies, the first clamp assemblies are oppositely arranged with the second clamp assemblies, and the first clamp assemblies are provided with first Sliding block, the second clamp assemblies are provided with the second sliding block, and the first sliding block and the second sliding block are slidably matched with the first sliding rail respectively, so that First clamp assemblies and the second clamp assemblies can be relatively close or separate, to realize the clamping to battery core or loosen；And first presss from both sides Holding component includes multiple first clamping jaws arranged side by side, and the second clamp assemblies include multiple second clamping jaws arranged side by side, and first Clamping jaw and the second clamping jaw are wedge shaped, and are gradually increased on the direction for moving closer to the first sliding rail；Driving mechanism, driving mechanism Including the first driving assembly and the second driving assembly, the first driving assembly is for driving the first clamp assemblies and/or the second clamping Component is moved along the first sliding rail, and the second driving assembly is used to drive column that battery core clamp system is driven to transport along the length direction of pedestal It is dynamic.It drives the first clamp assemblies and the second clamp assemblies relatively close or separate by the first driving assembly, may make battery core can It is effectively clamped or is loosened, drive column to extend along base length direction by the second driving assembly, so that battery core clamping machine Structure can also extend along the length direction of pedestal, consequently facilitating well by the overweight battery core of overlarge area, weight from ultra-large type It is taken out on laminating machine.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the battery core knockout machine for the high capacity polymer lithium ion battery lamination machine that the embodiments of the present invention provide Structural schematic diagram of the structure under the first visual angle；

Fig. 2 is the battery core knockout machine for the high capacity polymer lithium ion battery lamination machine that the embodiments of the present invention provide Structural schematic diagram of the structure under the second visual angle；

Fig. 3 is the battery core knockout machine for the high capacity polymer lithium ion battery lamination machine that the embodiments of the present invention provide Structure operation schematic diagram.

Icon: the battery core unloading device of 100- high capacity polymer lithium ion battery lamination machine；101- rack；The bottom 103- Seat；105- column；The first sliding rail of 107-；109- battery core clamp system；The first clamp assemblies of 111-；The second clamp assemblies of 113-； The first sliding block of 115-；The second sliding block of 117-；The first clamping jaw of 119-；The second clamping jaw of 121-；The first fixed block of 123-；125- second is solid Determine block；127- starting stave；The first plate of 129-；The second riser of 131-；The second plate of 133-；The first reinforcing rib of 135-；137- Second reinforcing rib；139- mounting hole；141- first motor；143- lead screw；The second sliding rail of 145-；147- third sliding block；149- rotation Turn platform；The second motor of 151-；The first locating piece of 153-；The second locating piece of 155-；157- grafting block；The second cylinder of 159-； 161- support leg；163- idler wheel；165- operating case；167- battery core.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.Therefore, below to attached The detailed description of the embodiments of the present invention provided in figure is not intended to limit the range of claimed invention, But it is merely representative of the selected embodiment of the utility model.Based on the embodiments of the present invention, ordinary skill people Member's every other embodiment obtained without creative efforts, belongs to the model of the utility model protection It encloses.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the utility model embodiment, it should be noted that term " center ", "upper", "lower", " left side ", The orientation or positional relationship of the instructions such as " right side ", "vertical", "horizontal", "inner", "outside" is orientation based on the figure or position Relationship or the utility model product using when the orientation or positional relationship usually put, be merely for convenience of describing this reality It is described with novel with simplified, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific Orientation construction and operation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second ", " third " It is described etc. being only used for distinguishing, is not understood to indicate or imply relative importance.

In the description of the utility model embodiment, it is also necessary to which explanation is unless specifically defined or limited otherwise, art Language " setting ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, be also possible to detachable Connection, or be integrally connected；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, centre can also be passed through Medium is indirectly connected, and can be the connection inside two elements.It for the ordinary skill in the art, can specific feelings Condition understands the concrete meaning of above-mentioned term in the present invention.

In the present invention unless specifically defined or limited otherwise, fisrt feature is on or below second feature It may include that the first and second features directly contact, also may include that the first and second features are not direct contacts but pass through it Between other characterisation contact.Moreover, fisrt feature is on second feature, top and above include fisrt feature the Right above two features and oblique upper, or first feature horizontal height is merely representative of higher than second feature.Fisrt feature is in the second spy Under sign, lower section and fisrt feature included below be directly below and diagonally below the second feature, or be merely representative of fisrt feature level Height is less than second feature.

Fig. 1 is the battery core unloading device 100 of high capacity polymer lithium ion battery lamination machine provided in this embodiment the Structural schematic diagram under one visual angle；Fig. 2 is that the battery core of high capacity polymer lithium ion battery lamination machine provided in this embodiment takes Structural schematic diagram of the mechanism 100 under the second visual angle out；Fig. 3 is folded for high capacity polymer lithium ion battery provided in this embodiment 100 working principle diagram of battery core unloading device of piece machine.It please refers to Fig.1 to Fig.3, present embodiments provides a kind of high capacity polymer The battery core unloading device 100 of lithium ion battery lamination machine, comprising: rack 101, battery core clamp system 109 and driving mechanism.? In specific operation process, which can move between 167 blanking of battery core and lamination stacking table, fetch battery core 167.It needs to illustrate , which further includes operating case 165, and the progress of each operation can be controlled by operating case 165.

In detail, referring to Fig. 1 to Fig. 3, rack 101 includes being vertically arranged and the pedestal 103 that is flexibly connected and standing Column 105 is provided with the first sliding rail 107 extended vertically on column 105.Certainly, in the present embodiment, pedestal 103 further includes more A support leg 161 and idler wheel 163, idler wheel 163 can facilitate the movement of rack 101, and multiple support legs 161 can not be moved with rack 101 When dynamic, entire rack 101 is raised.

In detail, battery core clamp system 109 is set to column 105.Battery core clamp system 109 includes the first clamp assemblies 111 and second clamp assemblies 113, the first clamp assemblies 111 are oppositely arranged with the second clamp assemblies 113, and the first clamp assemblies 111 are provided with the first sliding block 115, and the second clamp assemblies 113 are provided with the second sliding block 117, the first sliding block 115 and the second sliding block 117 are slidably matched with the first sliding rail 107 respectively so that the first clamp assemblies 111 and the second clamp assemblies 113 can it is relatively close or It is separate, to realize the clamping to battery core 167 or loosen；And first clamp assemblies 111 include multiple first clamping jaws arranged side by side 119, the second clamp assemblies 113 include multiple second clamping jaws 121 arranged side by side, and the first clamping jaw 119 and the second clamping jaw 121 are in Wedge shape, and be gradually increased on the direction for moving closer to the first sliding rail 107.Pass through the first clamp assemblies 111 and the second clamping group The setting of part 113 can effectively clamp battery core 167, avoid falling off in clamping process, to avoid battery core 167 Damage.

In detail, in the present embodiment, driving mechanism includes the first driving assembly and the second driving assembly, the first driving group Part for driving the first clamp assemblies 111 and/or the second clamp assemblies 113 to move along the first sliding rail 107, use by the second driving assembly Battery core clamp system 109 is driven to move along the length direction of pedestal 103 in driving column 105.It is driven by the first driving assembly First clamp assemblies 111 and the second clamp assemblies 113 are relatively close or separate, may make battery core 167 can effectively be clamped or Loosen, drives column 105 to extend along 103 length direction of pedestal by the second driving assembly, so that battery core clamp system 109 can also To extend along the length direction of pedestal 103, consequently facilitating well by the overweight battery core 167 of overlarge area, weight from ultra-large type It is taken out on laminating machine.

Referring to Fig. 1 to Fig. 3, in the present embodiment, the first clamp assemblies 111 include three the first clamping jaws 119, three A first clamping jaw 119 is arranged side by side, and is fixed in one end close to the first sliding rail 107 by the first fixed block 123, the first sliding block 115 are set to the first fixed block 123；Second clamp assemblies 113 include three the second clamping jaws 121, and three the second clamping jaws 121 are side by side Setting, and it is fixed by the second fixed block 125 in one end close to the first sliding rail 107, it is fixed that the second sliding block 117 is set to second Block 125.By the setting of the first fixed block 123 and the second fixed block 125, so that multiple first clamping jaws 119 and multiple second folders The stability of pawl 121 is improved, to improve the stability of clamping battery core 167, battery core 167 is avoided to damage.Certainly, at this In the other embodiments of utility model, the quantity of the first clamping jaw 119 and the second clamping jaw 121 can be adjusted according to demand, It is not limited in three.

Specifically, the first fixed block 123 includes vertically disposed first plate 129 and starting stave 127, starting stave 127 are slidably connected by the first sliding block 115 with the first sliding rail 107, and the end of three the first clamping jaws 119 is fixedly installed on first Plate 129 is provided with the first reinforcing rib 135 between first plate 129 and starting stave 127；Second fixed block 125 includes vertical The second plate 133 and the second riser 131 being arranged, the second riser 131 are connected by the second sliding block 117 and the sliding of the second sliding rail 145 It connects, the end of three the second clamping jaws 121 is fixedly installed on the second plate 133, between the second plate 133 and the second riser 131 It is provided with the second reinforcing rib 137.It is solid that first can be effectively improved by the setting of the first reinforcing rib 135 and the second reinforcing rib 137 Determine the intensity of block 123 and the second fixed block 125, to improve whole stability, and then further guarantees to clamp battery core 167 When stability.

As a preferred option, in the present embodiment, multiple peaces are offered on starting stave 127 and the second riser 131 Fill hole 139.Since starting stave 127 is provided with the first sliding block 115, the second riser 131 is provided with the second sliding block 117, therefore logical The setting of mounting hole 139 is crossed, so that the first sliding block 115 and the second sliding block 117 and the first sliding rail 107 can be solid by screw when cooperating It is fixed, to guarantee being normally carried out for operation.

Referring to Fig. 1 to Fig. 3, in the present embodiment, the first driving mechanism is the first cylinder.Second driving assembly packet First motor 141, lead screw 143, the second sliding rail 145 and third sliding block 147 are included, lead screw 143 and the second sliding rail 145 are along rack 101 length direction is extended in rack 101, and third sliding block 147 is set to column 105, and first motor 141 is configured as driving The dynamic rotation of lead screw 143 is to drive third sliding block 147 to move along the second sliding rail 145, to realize battery core clamp system 109 along rack 101 length direction moves back and forth.The first clamp assemblies 111 and the second clamp assemblies 113 are driven by the first driving assembly It is relatively close or separate, it may make battery core 167 effectively can be clamped or be loosened, column 105 driven by the second driving assembly Extend along 103 length direction of pedestal, so that battery core clamp system 109 can also extend along the length direction of pedestal 103, thus just In the overweight battery core 167 of overlarge area, weight is taken out from ultra-large type laminating machine well.Certainly, in the utility model In other embodiments, the type of driving assembly can also be selected according to demand, and the embodiments of the present invention are without limitation.

As a preferred option, in the present embodiment, driving mechanism further includes third driving assembly, and third driving assembly is used It is rotated in the horizontal plane in driving column 105 relative to pedestal 103.Third driving assembly includes rotating platform 149 and second Motor 151, rotating platform 149 is horizontally disposed, and column 105 is connect with pedestal 103 by rotating platform 149, and the second motor 151 is used It is rotated in driving rotating platform 149, to drive column 105 and battery core clamp system 109 to revolve relative to pedestal 103 in horizontal plane Turn.It, will be electric so as to convenient working person by the setting of third driving assembly so that column 105 can be rotated relative to pedestal 103 Core 167 takes out.

It is further preferred that third driving assembly includes the first locating piece 153, the second locating piece 155 and grafting block 157, First locating piece 153 and the second locating piece 155 and it is all set in rotating platform 149, and is equipped with inserting groove, when the first locating piece 153 and second locating piece 155 can be with 157 grafting of grafting block, and the first locating piece 153 and the second locating piece 155 and rotation The line of the rotation center of platform 149 in 90 ° setting, when grafting block 157 successively with the first locating piece 153 and the second locating piece When 155 grafting, rotating platform 149 is rotated by 90 °.Third driving assembly further includes the second cylinder 159, when the first locating piece 153 or When the inserting groove of second locating piece 155 is opposite with grafting block 157, the second cylinder 159 is configured as driving grafting block 157 and grafting Slot grafting.The rotational angle of column 105 can be limited to by the setting of the first locating piece 153 and the second locating piece 155 90 °, avoid the excessive damage for causing equipment of rotation amplitude.

In conclusion the unloading device can be well by the overweight battery core 167 of overlarge area, weight from ultra-large type laminating machine Upper taking-up, to improve the integrality and safety of battery core 167.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of battery core unloading device of high capacity polymer lithium ion battery lamination machine characterized by comprising

Rack, the rack include the pedestal and column for being vertically arranged and being flexibly connected, and are provided with vertical extension on the column The first sliding rail；

It is set to the battery core clamp system of the column, the battery core clamp system includes the first clamp assemblies and the second clamping group Part, first clamp assemblies are oppositely arranged with second clamp assemblies, and first clamp assemblies are provided with first and slide Block, second clamp assemblies are provided with the second sliding block, and first sliding block and second sliding block are sliding with described first respectively Rail is slidably matched, so that first clamp assemblies and second clamp assemblies can be relatively close or separate, to realize to institute It states the clamping of battery core or loosens；And first clamp assemblies include multiple first clamping jaws arranged side by side, second clamping Component includes multiple second clamping jaws arranged side by side, and first clamping jaw and second clamping jaw are wedge shaped, and are gradually leaning on It is gradually increased on the direction of nearly first sliding rail；

Driving mechanism, the driving mechanism include the first driving assembly and the second driving assembly, and first driving assembly is used for The first clamp assemblies and/or the second clamp assemblies are driven to move along first sliding rail, second driving assembly is for driving The column drives the battery core clamp system to move along the length direction of the pedestal.

2. the battery core unloading device of high capacity polymer lithium ion battery lamination machine according to claim 1, feature exist In:

First clamp assemblies include three first clamping jaws, and three first clamping jaws are arranged side by side, and close to institute The one end for stating the first sliding rail is fixed by the first fixed block, and first sliding block is set to first fixed block；

Second clamp assemblies include three second clamping jaws, and three second clamping jaws are arranged side by side, and close to institute The one end for stating the first sliding rail is fixed by the second fixed block, and second sliding block is set to second fixed block.

3. the battery core unloading device of high capacity polymer lithium ion battery lamination machine according to claim 2, feature exist In:

First fixed block includes vertically disposed first plate and starting stave, and the starting stave is sliding by described first Block is slidably connected with first sliding rail, and the end of three first clamping jaws is fixedly installed on first plate, described The first reinforcing rib is provided between first plate and the starting stave；

Second fixed block includes vertically disposed second plate and the second riser, and second riser is sliding by described second Block is slidably connected with the second sliding rail, and the end of three second clamping jaws is fixedly installed on second plate, and described second The second reinforcing rib is provided between plate and second riser.

4. the battery core unloading device of high capacity polymer lithium ion battery lamination machine according to claim 3, feature exist In:

Multiple mounting holes are offered on the starting stave and second riser.

5. the battery core unloading device of high capacity polymer lithium ion battery lamination machine according to claim 1, feature exist In:

First driving mechanism is the first cylinder.

6. the battery core unloading device of high capacity polymer lithium ion battery lamination machine according to claim 1, feature exist In:

Second driving assembly includes first motor, lead screw, the second sliding rail and third sliding block, the lead screw and described second Sliding rail is extended along the length direction of the rack in the rack, and the third sliding block is set to the column, described First motor is configured as driving the lead screw rotation to drive the third sliding block to move along second sliding rail, to realize The length direction that battery core clamp system is stated along the rack moves back and forth.

7. the battery core knockout machine of high capacity polymer lithium ion battery lamination machine according to any one of claim 1 to 6 Structure, it is characterised in that:

The driving mechanism further includes third driving assembly, and the third driving assembly is for driving the column relative to described Pedestal rotates in the horizontal plane.

8. the battery core unloading device of high capacity polymer lithium ion battery lamination machine according to claim 7, feature exist In:

The third driving assembly includes rotating platform and the second motor, and the rotating platform is horizontally disposed, the column with The pedestal is connected by the rotating platform, and second motor is for driving the rotating platform to rotate, described in driving Column and the battery core clamp system are rotated relative to the pedestal in horizontal plane.

9. the battery core unloading device of high capacity polymer lithium ion battery lamination machine according to claim 8, feature exist In:

The third driving assembly includes the first locating piece, the second locating piece and grafting block, first locating piece and described the Two locating pieces and it is all set in the rotating platform, and is equipped with inserting groove, when first locating piece and second positioning Block can be with the grafting block grafting, and the rotation of first locating piece and second locating piece and the rotating platform The line at center in 90 ° setting, when the grafting block successively with first locating piece and the second locating piece grafting when, institute Rotating platform is stated to be rotated by 90 °.

10. the battery core unloading device of high capacity polymer lithium ion battery lamination machine according to claim 9, feature exist In:

The third driving assembly further includes the second cylinder, when the inserting groove of first locating piece or second locating piece with When the grafting block is opposite, second cylinder is configured as driving the grafting block and the inserting groove grafting.