CN207753119U - Aluminum hull feeding device and the equipment that battery core is packaged into battery pack - Google Patents

Abstract

The utility model discloses a kind of aluminum hull feeding device and the equipment that battery core is packaged into battery pack, belong to lithium battery packaging facilities technical field.The aluminum hull feeding device includes conveying device and extraction element, wherein：Conveying device includes at least one pipeline, and pipeline is for conveying aluminum hull；Extraction element includes extraction plate and the first actuator, and the first actuator drives extraction plate movement, to take out aluminum hull from the extraction position of pipeline.The utility model conveys aluminum hull by using conveying device automatically, and conveying device, which is then delivered to extraction position, automatically by extraction element takes out aluminum hull, to realize the automatic charging of aluminum hull, and then provides the formation efficiency of cell piece assembling.

Description

Aluminum shell feeding device and equipment for packaging battery cell into battery pack

Technical Field

The utility model belongs to the technical field of lithium cell equipment for packing, especially, relate to an aluminum hull loading attachment and encapsulate into battery pack's equipment with electric core.

Background

With the rapid development of automobile energy and electric automobile industries, lithium batteries are applied more and more widely in new energy automobiles, and in order to provide a power source for the whole automobiles, a plurality of battery cells are generally required to be assembled into a special battery pack to supply power.

At present, the specification of an electric core is soft-packaged electric core, when utilizing soft-packaged electric core to assemble into the battery package, need put into the aluminum hull with multiunit soft-packaged electric core. The existing aluminum shell feeding mode is manual feeding, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve because of adopting the artifical mode of carrying out the material loading to the aluminum hull to lead to the problem that production efficiency is low, the technical scheme of the utility model provides an aluminum hull loading attachment and encapsulate into the equipment of battery package with electric core. The technical scheme is as follows.

In a first aspect, the utility model provides an aluminum hull loading attachment, this aluminum hull loading attachment include conveyor and extraction element, wherein: the conveying device comprises at least one conveying line, and the conveying line is used for conveying the aluminum shell; the extracting device comprises an extracting plate and a first driving piece, wherein the first driving piece drives the extracting plate to move so as to take out the aluminum shell from the extracting position of the conveying line.

Through utilizing conveyor to carry the aluminum hull is automatic, then carry conveyor to drawing the position through extraction element and take out the aluminum hull to realize the automatic feeding of aluminum hull, and then provided the generation efficiency of battery piece equipment.

Optionally, the first driving member drives the extracting plate to perform lifting motion, the extracting device further comprises a second driving member, and the second driving member drives the extracting plate to perform telescopic motion in the horizontal direction.

Carry out elevating movement through setting up first driving piece to can driving and draw the board, then drive through the second driving piece that sets up and draw the board and carry out concertina movement on the horizontal direction to the messenger draws the board and mentions the aluminum hull from the transfer chain through elevating movement, then pulls out the conveyor means with the aluminum hull through concertina movement.

Optionally, the first drive member is a rotary cylinder.

Through setting up first driving piece into revolving cylinder, can utilize revolving cylinder to drive and draw the board and rotate to carry out the aluminium hull of taking out from the transfer chain.

Optionally, the conveying device further comprises a separating assembly corresponding to the conveying line, and the separating assembly is used for separating the aluminum shell on the conveying line.

Through setting up the subassembly of separating that is used for separating the last aluminum hull of transfer chain, can make the aluminum hull that the foremost was carried that needs were drawed separated to the extraction element draws.

Optionally, the conveying device further includes a first support and a second support which are arranged on two sides of the conveying line and parallel to the conveying line, the separation assembly includes a first separation device arranged on the first support and a second separation device arranged on the second support, and the first separation device and the second separation device are identical and symmetrically installed.

Through the separator that sets up the symmetry installation in transfer chain both sides for separate the aluminum hull of transfer chain transport simultaneously, thereby guarantee that the aluminum hull does not take place the skew when being separated on the transfer chain, in order to guarantee that follow-up extraction element can successfully extract out the aluminum hull.

Optionally, the first separating device includes a first separating element and a second separating element which are installed at intervals, the second separating device includes a third separating element and a fourth separating element which are installed at intervals, the first separating element and the third separating element are arranged oppositely, the second separating element and the fourth separating element are arranged oppositely, the first separating element, the second separating element, the third separating element and the fourth separating element are identical in structure, each separating element includes a driving portion and a blocking plate, and the driving portion drives the blocking plate to perform a rotating action so as to achieve blocking or releasing of the aluminum shell.

Through two sets of separators, can guarantee when a aluminum hull is let pass, the aluminum hull that is conveyed behind this aluminum hull still is in by the state of blockking, and then avoids the striking influence to the aluminum hull that needs let pass, also can make the extraction element successfully draw this aluminum hull that should let pass in.

Optionally, the distance between the two separators on the same support is greater than the width of the aluminum shell conveyed by the corresponding conveying line and less than twice the width of the aluminum shell;

the blocking plate of the first separator and the blocking plate of the third separator are in a blocking state, the blocking plate of the second separator and the blocking plate of the fourth separator are in a releasing state, and the conveying line conveys the first aluminum shell to the first separator and the third separator to be blocked after passing through the second separator and the fourth separator; the blocking plate of the second separator and the blocking plate of the fourth separator rotate to a blocking state to block the second aluminum shell positioned behind the first aluminum shell, the blocking plate of the first separator and the blocking plate of the third separator rotate to a releasing state to release the first aluminum shell to be conveyed to the extraction position, and the first driving piece drives the extraction plate to move so as to take out the first aluminum shell from the extraction position of the conveying line; the blocking plate of the first separating element and the blocking plate of the third separating element rotate to be in a blocking state, the blocking plate of the second separating element and the blocking plate of the fourth separating element rotate to be in a releasing state, and the conveying line conveys the second aluminum shell to reach the first separating element and the third separating element after passing through the second separating element and the fourth separating element and be blocked, and the aluminum shell is circulated in sequence.

Through the cooperation of first separator and second separator for when the first aluminum hull of foremost that is drawed needs to be let pass, other subsequent aluminum hulls that follow-up transport was come are separated temporarily earlier to the second separator, avoid the influence when follow-up aluminum hull is drawed to first aluminum hull.

Optionally, conveyor still includes recovery unit, and extraction element places unqualified aluminum hull on the transfer line on recovery unit, carries the recovery by recovery unit with unqualified aluminum hull.

Through setting up recovery unit, can guarantee that unqualified aluminum hull can be retrieved by automatic, simplify the recovery procedure of unqualified aluminum hull, saved the cost of artifical transport.

Optionally, the recovery device is located below the conveying device, when the aluminum shell extracted by the extraction plate is not qualified, the first driving piece drives the extraction plate to descend to the position of the recovery device, the second driving piece drives the extraction plate to extend out so that the aluminum shell is located above the recovery device, the first driving piece continues to descend so that the aluminum shell is carried on the recovery device, and the second driving piece drives the extraction plate to retract.

Through setting up recovery unit in conveyor's below, can save the overall arrangement space, and need not draw the action by a wide margin of board, can realize putting back the aluminum hull who draws to recovery unit on.

Optionally, the recovery device is located above the conveying device, when the aluminum shell extracted by the extraction plate is not qualified, the first driving piece drives the extraction plate to ascend to the position of the recovery device, the second driving piece drives the extraction plate to extend out so that the aluminum shell is located above the recovery device, the first driving piece descends so that the aluminum shell is carried on the recovery device, and the second driving piece drives the extraction plate to retract.

Optionally, the extracting device further comprises a clamping device for clamping the aluminum shell on the extracting plate.

Optionally, the extracting device further comprises a buffering device for buffering the impact force of the second driving member.

Through setting up the clamping device, can make it clamp the aluminum hull, avoid the aluminum hull to break away from extracting the board, in addition, through setting up the clash dynamics that buffer seen with the buffering second drive, guaranteed the safety of aluminum hull at the material loading in-process.

Optionally, the clamping device includes a clamping column and a clamping block, the clamping column is mounted on the extracting plate, the clamping block is mounted on the first driving member, and the clamping column is driven by the second driving member to approach or be away from the clamping block.

Through setting up the tight post of clamp and pressing from both sides tight piece, utilize the second driving piece to drive and press from both sides tight post and be close to or keep away from tight piece of clamp to the realization is in the step up of aluminium hull on extracting the board.

In a second aspect, the present invention further provides an apparatus for packaging a battery cell into a battery pack, wherein the apparatus includes an aluminum case feeding device provided as in the first aspect and various possible implementations of the first aspect.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic view of an aluminum hull feeding device provided in an embodiment of the present invention;

fig. 2 is a schematic view of an extraction device provided in an embodiment of the present invention;

fig. 3 is a schematic view of a first separation device provided in an embodiment of the present invention;

fig. 4 is a schematic diagram illustrating the operation of the aluminum case separated by the separating device according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a partial structure of an extraction device provided in an embodiment of the present invention.

Wherein the reference numbers are as follows:

10. a conveying device; 11. a conveying line; 12. a first bracket; 13. a second bracket; 141. a first separating device; 141a, a first separator; 141a1, a drive portion of the first divider; 141a2, group baffle of first separator; 141b, a second separator; 141b2, group baffle of second separator; 142. a second spacer means; 142a2, a third divider; 142b2, group baffle of fourth divider; 20. an extraction device; 21. an extraction plate; 22. a first driving member; 23. a second driving member; 241. clamping the column; 242. a clamping block; 25. a buffer device; 30. an aluminum shell; 40. and (5) a recovery device.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

With the rapid development of the automobile energy and electric automobile industry, the application of the lithium battery in new energy automobiles is more and more extensive, a plurality of battery cells are generally adopted and assembled into a special battery cell module to serve as a power source of the whole automobile, and the mode is basically recognized in the industry and is widely used for reference. Therefore, the requirements for battery assembly and finishing processing in the current market are more and more, and the market potential is larger.

When the battery pack is assembled by using the soft package battery cell, a plurality of groups of soft package battery cells are required to be put into the aluminum shell. The existing aluminum shell feeding mode is manual feeding, and the production efficiency is low.

To this end, the utility model provides an equipment of battery package is encapsulated into with electric core, this equipment include an aluminum hull loading attachment, and it can realize the automatic feeding to the aluminum hull, and it is right to combine below fig. 1 to fig. 5 the utility model provides an aluminum hull loading attachment carries out the illustration.

Fig. 1 is a schematic diagram of an aluminum shell 30 feeding device provided in an embodiment of the present invention, where the aluminum shell 30 feeding device includes a conveying device 10 and an extracting device 20, where: the conveying device 10 comprises at least one conveying line 11, wherein the conveying line 11 is used for conveying the aluminum shell 30; the extracting device 20 includes an extracting plate 21 and a first driving member 22, and the first driving member 22 moves the extracting plate 21 to take out the aluminum case 30 from the extracting position of the conveyor line 11.

Optionally, in order to load more aluminum shells 30 at the same time, the utility model provides an aluminum shell 30 loading device can include at least two conveyor 10. Can set up an at least transfer chain 11 on every conveyor 10, when transfer chain 11 is two at least, transfer chain 11 can set up to the interval adjustable to bear the weight of the aluminum hull 30 of carrying different length, and through interval adjustment, can make transfer chain 11 evenly arrange at the aluminum hull 30 lower extreme of carrying, guarantee the steady when conveyor 10 carries aluminum hull 30.

The aluminum shell 30 is automatically conveyed by the conveying device 10, and then the conveying device 10 is automatically conveyed to the extraction position by the extraction device 20 to take out the aluminum shell 30, so that the automatic feeding of the aluminum shell 30 is realized, and the generation efficiency of the battery piece assembly is further improved.

In practical application, in order to realize extracting the board 21 and take out aluminum hull 30 from the transfer chain 11 and put it in the station of back way, the utility model discloses in first driving piece 22 can drive and extract board 21 and carry out elevating movement, extraction element 20 can also include second driving piece 23, please see fig. 2 and show, second driving piece 23 drives and extracts board 21 and carry out concertina movement on the horizontal direction.

For example, the first driving member 22 lifts the extracting plate 21 to a position opposite to the extracting position of the conveying line 11, then the second driving member 23 is used for extending the extracting plate 21 to the lower end of the conveying line 11, the first driving member 22 lifts the extracting plate 21, and the extracting plate 21 can lift the aluminum shell 30 conveyed on the conveying line 11; the extraction plate 21 is then retracted by means of the second drive 23, whereby the aluminium shell 30 is taken out of the conveyor 10.

That is, the first driving member 22 is configured to drive the extracting plate 21 to perform a lifting motion, and then the second driving member 23 is configured to drive the extracting plate 21 to perform a telescopic motion in the horizontal direction, so that the extracting plate 21 lifts the aluminum shell 30 from the conveying line 11 through the lifting motion, and then the aluminum shell 30 is pulled out of the conveying line 11 device through the telescopic motion.

Optionally, the first drive member 22 is a rotary cylinder.

In another possible implementation, the first driving member 22 may be provided as a rotary cylinder, and the rotary cylinder is used to rotate the extracting plate 21 to extract the aluminum shell 30 from the conveying line 11. For example, the extracting plate 21 is rotated to the lower side of the conveyor line 11 by the rotary cylinder, and then the extracting plate 21 is continuously rotated upward, and the extracting plate 21 takes the aluminum shell 30 away from the conveyor, in this case, in order to avoid the aluminum shell 30 from being separated, a blocking member for blocking the aluminum shell 30 may be provided on the extracting plate 21.

In order to ensure that the aluminum shell 30 conveyed by the foremost end to be extracted is separated so as to be extracted by the extracting device 20, the conveying device 10 of the present invention further includes a separating component corresponding to the conveying line 11, and the separating component is used for separating the aluminum shell 30 on the conveying line 11.

In practical application, in order to guarantee that aluminium shell 30 does not take place the skew when being separated on transfer chain 11 to guarantee that follow-up extraction element 20 can successfully extract aluminium shell 30, conveyor 10 in the utility model also includes first support 12 and the second support 13 that sets up in transfer chain 11 both sides and transfer chain 11 parallel, separates the subassembly including setting up the first separator 141 on first support 12 and setting up the second separator 142 on second support 13, and first separator 141 and second separator 142 are the same and the symmetry installation.

Referring to fig. 3, which is a schematic view of a first separating device provided in an embodiment of the present invention, the first separating device 141 includes a first separating member 141a and a second separating member 141b installed at intervals. Similarly, the second separator 142 includes a third separator and a fourth separator which are installed at intervals, and the first separator 141a, the second separator 141b, the third separator and the fourth separator are the same, and each separator may be different. Alternatively, the first and third partitions 141a and 141b are oppositely disposed, and the second and fourth partitions 141b and 141b are oppositely disposed.

Alternatively, each of the partitions may include a driving portion and a blocking plate, and as shown in fig. 3, the first partition 141a includes a driving portion 141a1 of the first partition and a group blocking plate 141a2 of the first partition, and the driving portion of each partition drives its corresponding blocking plate to perform a rotating action to block or release the aluminum case 30.

Through two sets of separating parts, when an aluminum shell 30 is released, the aluminum shell 30 conveyed behind the aluminum shell 30 is still in a blocked state, so that the impact influence on the aluminum shell 30 needing to be released is avoided, and the released aluminum shell 30 can be successfully extracted by the extracting device 20.

The distance between the first and second partitions 141a and 141b on the same rack is greater than the width of the aluminum case 30 conveyed by the corresponding conveyance line 11 and less than twice the width of the aluminum case 30.

In a possible implementation manner, please refer to fig. 4, which is a schematic diagram illustrating an operation of the partitioning device for partitioning the aluminum case according to an embodiment of the present invention, first, the aluminum cases L1, L2, L3, and L4 are sequentially placed at the input end of the conveying line 11, and the conveying line 11 sequentially conveys the aluminum cases L1, L2, L3, and L4 toward the extraction position.

Then, the dam plate 141a2 of the first separator 141a and the dam plate 142a2 of the third separator 142a are in the dam state, the dam plate 141a2 of the second separator 141b and the dam plate 142b2 of the fourth separator 142b are in the release state, the feed line 11 feeds the first aluminum case 30L1 to reach the first separator 141a and the third separator 142a after passing through the second separator 141b and the fourth separator 142b to be stopped, and the dam plate 141a2 of the second separator 141b and the dam plate 142b2 of the fourth separator 142b are rotated to be in the stop state to stop the second aluminum case L2 positioned behind the first aluminum case L1.

Subsequently, the stopper plate 141a2 of the first divider 141a and the stopper plate 142a2 of the third divider 142a are rotated to the release state to release the first aluminum case L1 to be transferred to the pick-up location, and the first driving member 22 moves the pick-up plate 21 to take out the first aluminum case L1 from the pick-up location of the transfer line 11.

Subsequently, the barrier plate 141a2 of the first divider 141a and the barrier plate 142a2 of the third divider 142a are rotated to a blocking state, the barrier plate 141a2 of the second divider 141b and the barrier plate 142b2 of the fourth divider 142b are rotated to a releasing state, and the conveyor line 11 conveys the second aluminum case L2 to the first divider 141a after passing through the second divider 141b to be blocked, and sequentially circulates.

By the cooperation of the first separating device 14 and the second separating device 142, when the first extracted aluminum shell L1 at the forefront needs to be released, the second separating device 141b temporarily separates other subsequent aluminum shells L2, L3 and L4 conveyed subsequently, so as to avoid the influence of the subsequent aluminum shells L2, L3 and L4 on the extraction of the first aluminum shell L1.

The feeding aluminum shell 30 may have a defective product such as cracking or deformation, and at this time, the extracted unqualified aluminum shell 30 needs to be recovered, and in order to recover the aluminum shell 30, the conveying device 10 may further include a recovery device 40, the extraction device 20 places the unqualified aluminum shell 30 on the conveying line 11 on the recovery device 40, and the unqualified aluminum shell 30 is conveyed and recovered by the recovery device 40. Through setting up recovery unit 40, can guarantee that unqualified aluminum hull 30 can be retrieved by automation, simplify unqualified aluminum hull 30's recovery procedure, saved the cost of artifical transport.

In a possible implementation, in order to save the overall arrangement space, and need not draw the action by a wide margin of board 21, can realize that the aluminum hull 30 who draws is put back to recovery unit 40 on, the utility model discloses in can be located conveyor 10's below with recovery unit 40 setting, when extracting that board 21 extracts aluminum hull 30 is unqualified, first driving piece 22 drives and draws board 21 and descend to recovery unit 40 position department, and second driving piece 23 drives and draws board 21 and stretch out so that aluminum hull 30 is located recovery unit 40's top, and first driving piece 22 continues to descend so that aluminum hull 30 carries on recovery unit 40, and second driving piece 23 drives and draws the withdrawal of board 21.

In a possible implementation manner, in order to save layout space, the recycling device 40 may be disposed above the conveying device 10, when the aluminum shell 30 extracted from the extracting plate 21 is not qualified, the first driving member 22 drives the extracting plate 21 to ascend to the position of the recycling device 40, the second driving member 23 drives the extracting plate 21 to extend out so that the aluminum shell 30 is located above the recycling device 40, the first driving member 22 descends so that the aluminum shell 30 is carried on the recycling device 40, and the second driving member 23 drives the extracting plate 21 to retract.

In practical application, the aluminum shell 30 is generally a relatively smooth shell, and in order to avoid the aluminum shell 30 to break away from the extracting plate 21, the utility model provides a extracting device 20 still includes clamping device, and clamping device is used for pressing from both sides the aluminum shell 30 on the tight extracting plate 21.

In a possible implementation, as shown in fig. 5, the clamping device may include a clamping column 241 and a clamping block 242, the clamping column 241 is mounted on the extracting plate 21, the clamping block 242 is mounted on the first driving member 22, and the clamping column 241 is driven by the second driving member 23 to approach or depart from the clamping block.

The utility model discloses in press from both sides tight post 241 and press from both sides tight piece 242 through setting up, utilize second driving piece 23 to drive and press from both sides tight post 241 and be close to or keep away from and press from both sides tight piece 242 to the realization is in the step-up to extracting board 21 upper aluminum shell 30.

Optionally, still referring to fig. 5, the extracting device 20 may further include a buffering device 25, and the buffering device 25 is used for buffering the impact force of the second driving member 23. Therefore, the buffering device 25 can buffer the impact force of the second driving, and the safety of the aluminum shell 30 in the feeding process is guaranteed.

To sum up, the utility model provides an aluminum hull loading attachment carries to the aluminum hull is automatic through utilizing conveyor, then carries conveyor to drawing the position through extraction element is automatic and take out the aluminum hull to realized the automatic feeding of aluminum hull, and then provided the generation efficiency of battery piece equipment.

Unless otherwise defined, technical or scientific terms used in the embodiments of the present invention should have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. Also, the terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "forward" and "reverse" merely represent the direction of rotation is not consistent. The "one end" and "the other end" merely indicate relative positional relationships, and when the absolute positional relationship of the object to be described is changed, the corresponding positional relationship is also changed accordingly. Further, the term "at least one" as used herein includes one, two or more.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. The present invention is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present invention is limited only by the appended claims.

Claims (10)

1. The utility model provides an aluminum hull loading attachment, its characterized in that, aluminum hull loading attachment includes conveyor and extraction element, wherein:

the conveying device comprises at least one conveying line, and the conveying line is used for conveying the aluminum shell;

the extracting device comprises an extracting plate and a first driving piece, wherein the first driving piece drives the extracting plate to move so as to take out the aluminum shell from the extracting position of the conveying line.

2. The aluminum shell feeding device as recited in claim 1, wherein the first driving member drives the extracting plate to perform a lifting motion, and the extracting device further comprises a second driving member driving the extracting plate to perform a telescopic motion in a horizontal direction;

or,

the first driving piece is a rotary cylinder.

3. The aluminum shell feeding device as claimed in claim 1, wherein the conveying device further comprises a separating assembly corresponding to the conveying line, and the separating assembly is used for separating the aluminum shells on the conveying line.

4. The aluminum shell feeding device of claim 3, wherein the conveying device further comprises a first support and a second support which are arranged on two sides of the conveying line and parallel to the conveying line, the separation assembly comprises a first separation device arranged on the first support and a second separation device arranged on the second support, and the first separation device and the second separation device are arranged identically and symmetrically.

5. The aluminum shell feeding device of claim 4, wherein the first separating device comprises a first separating element and a second separating element which are installed at intervals, the second separating device comprises a third separating element and a fourth separating element which are installed at intervals, the first separating element and the third separating element are arranged oppositely, the second separating element and the fourth separating element are arranged oppositely, the first separating element, the second separating element, the third separating element and the fourth separating element are of the same structure, each separating element comprises a driving part and a blocking plate, and the driving part drives the blocking plate to perform a rotating action so as to block or release the aluminum shell.

6. The aluminum shell feeding device according to claim 5, wherein the distance between the two separators on the same support is greater than the width of the aluminum shell conveyed by the corresponding conveying line and less than twice the width of the aluminum shell;

the blocking plate of the first separator and the blocking plate of the third separator are in a blocking state, the blocking plate of the second separator and the blocking plate of the fourth separator are in a releasing state, and the conveying line conveys the first aluminum shell to the first separator and the third separator to be blocked after passing through the second separator and the fourth separator; the blocking plate of the second separator and the blocking plate of the fourth separator rotate to a blocking state to block a second aluminum shell positioned behind the first aluminum shell, the blocking plate of the first separator and the blocking plate of the third separator rotate to a releasing state to release the first aluminum shell to be conveyed to a picking position, and the first driving piece drives the picking plate to move to take the first aluminum shell out of the picking position of the conveying line; the blocking plate of the first separating element and the blocking plate of the third separating element rotate to be in a blocking state, the blocking plate of the second separating element and the blocking plate of the fourth separating element rotate to be in a releasing state, and the conveying line conveys the second aluminum shell to reach the first separating element and the third separating element to be blocked after passing through the second separating element and the fourth separating element, and the second aluminum shell and the third separating element are sequentially circulated.

7. The aluminum shell feeding device according to any one of claims 1 to 6, wherein the conveying device further comprises a recovery device, the extraction device places the unqualified aluminum shells on the conveying line on the recovery device, and the recovery device conveys and recovers the unqualified aluminum shells.

8. The aluminum shell feeding device as claimed in claim 2, wherein the extracting device further comprises a clamping device and a buffering device, the clamping device is used for clamping the aluminum shell on the extracting plate, and the buffering device is used for buffering the impact force of the second driving member.

9. The aluminum can feeding device as recited in claim 8, wherein the clamping device comprises a clamping column and a clamping block, the clamping column is mounted on the extracting plate, the clamping block is mounted on the first driving member, and the clamping column is driven by the second driving member to approach or separate from the clamping block.

10. An apparatus for packaging cells into a battery pack, wherein the apparatus comprises the aluminum can feeding apparatus of any one of claims 1 to 9.