CN212182471U

CN212182471U - Automatic hole punching and shell entering packaging production line for aluminum plastic film

Info

Publication number: CN212182471U
Application number: CN202021307092.5U
Authority: CN
Inventors: 刘帅
Original assignee: Dongguan Nengdu Electromechanical Technology Co ltd
Current assignee: Dongguan Nengdu Electromechanical Technology Co ltd
Priority date: 2020-07-07
Filing date: 2020-07-07
Publication date: 2020-12-18
Anticipated expiration: 2030-07-07

Abstract

The utility model discloses an automatic punching and shell-entering packaging production line for aluminum plastic films, which comprises a material placing mechanism, a shell punching mechanism, a cutting mechanism, a material pulling mechanism, a transferring mechanism, a trimming mechanism, a turnover mechanism, a battery cell feeding mechanism, a top sealing mechanism, a side sealing mechanism, a cutting mechanism, a short circuit measuring mechanism, a blanking mechanism and a turntable mechanism; the edge cutting mechanism, the turnover mechanism, the top sealing mechanism, the side sealing mechanism, the splitting mechanism, the short circuit measuring mechanism and the blanking mechanism are all arranged around the turntable mechanism; the transfer mechanism is positioned between the material pulling mechanism and the edge cutting mechanism; the blanking mechanism is positioned at one side of the short circuit measuring mechanism; borrow this, it has realized that the automatic hole that dashes of plastic-aluminum membrane goes into shell and electric core encapsulation integrated design, has improved degree of automation, has saved operating time, has improved the production volume, and has realized carousel formula packaging structure, and overall structure overall arrangement is ingenious reasonable, has reduced occuping of space, has reduced manufacturing cost.

Description

Automatic hole punching and shell entering packaging production line for aluminum plastic film

Technical Field

The utility model relates to an aluminium-plastic film stamping forming field technique especially indicates an automatic towards hole of aluminium-plastic film goes into shell encapsulation production line.

Background

Disclosure of Invention

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides an automatic hole of dashing of plastic-aluminum membrane goes into shell encapsulation production line, and it has realized that the plastic-aluminum membrane is automatic to be dashed the hole and goes into shell and electric core encapsulation integrated design, has improved degree of automation, has saved operating time, has improved the output, and has realized carousel formula packaging structure, and overall structure overall arrangement is ingenious reasonable, has reduced occuping of space, has reduced manufacturing cost.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic punching and shell-entering packaging production line for an aluminum plastic film comprises a discharging mechanism, a shell punching mechanism, a cutting mechanism, a material pulling mechanism, a transferring mechanism, a trimming mechanism, a turnover mechanism, a battery cell feeding mechanism, a top sealing mechanism, a side sealing mechanism, a splitting mechanism, a short circuit measuring mechanism, a discharging mechanism and a turntable mechanism;

the edge cutting mechanism, the turnover mechanism, the top sealing mechanism, the side sealing mechanism, the splitting mechanism, the short circuit measuring mechanism and the blanking mechanism are all arranged around the turntable mechanism; the transfer mechanism is positioned between the material pulling mechanism and the edge cutting mechanism; the blanking mechanism is positioned at one side of the short circuit measuring mechanism;

the transfer mechanism comprises a transverse moving mechanism and a transfer manipulator connected with the transverse moving mechanism;

the trimming mechanism comprises a cutter and a trimming driving unit for driving the cutter;

the turnover mechanism comprises a turnover unit and a turnover driving unit for driving the turnover unit;

the battery cell feeding mechanism comprises a feeding mechanical arm and a feeding driving unit for driving the feeding mechanical arm;

the top sealing mechanism comprises a first top sealing unit, a second top sealing unit and a top sealing driving unit; the top seal driving unit drives the first top seal unit and the second top seal unit to selectively move towards or away from each other so as to form compression top seal or release for the aluminum-plastic film and the battery core;

the side sealing mechanism comprises a first side sealing unit, a second side sealing unit and a side sealing driving unit; the side seal driving unit drives the first side seal unit and the second side seal unit to selectively move towards or away from each other so as to form compression side seal or release for the aluminum plastic film and the battery cell;

the turntable mechanism comprises a turntable and a plurality of jigs which are sequentially arranged on the turntable at annular intervals.

As a preferable scheme, the transverse moving mechanism comprises a transverse moving guide rail, a moving block, a driving shaft and a transverse driving unit, the transverse driving unit drives the driving shaft, the moving block is connected to the driving shaft, the moving block is adapted to the transverse moving guide rail, and the transfer manipulator is vertically connected to the moving block.

As a preferable scheme, the cutting knife comprises an upper cutting knife and a lower cutting knife; the trimming driving unit drives the upper cutter and the lower cutter to selectively move towards each other or away from each other in the up-down direction so as to cut or release the aluminum-plastic film; the trimming driving unit comprises an upper trimming driving unit and a lower trimming driving unit, and the upper trimming driving unit and the lower trimming driving unit respectively drive the upper cutter and the lower cutter.

As a preferred scheme, the turnover unit comprises a turnover manipulator, and the turnover driving unit drives the turnover manipulator to turn over the aluminum-plastic film for 180 degrees.

As a preferred scheme, the battery cell feeding mechanism further includes a battery cell moving mechanism and a battery cell carrying unit connected to the battery cell moving mechanism, the battery cell moving mechanism includes a battery cell moving guide rail, a battery cell moving block, a battery cell moving driving unit and a battery cell moving shaft, the battery cell moving driving unit is connected to the battery cell moving shaft, the battery cell moving block is connected to the battery cell moving shaft through a connecting block, the battery cell moving block is adapted to the battery cell moving guide rail, and the battery cell carrying unit is installed on the battery cell moving block.

As a preferred scheme, the first top sealing unit and the second top sealing unit are respectively defined as an upper top sealing unit and a lower top sealing unit; the top seal driving unit drives the upper top seal unit and the lower top seal unit to selectively move towards each other or move away from each other in the up-down direction so as to form compression top seal or release for the aluminum-plastic film and the battery core.

As a preferred scheme, the top seal driving unit comprises an upper top seal driving unit and a lower top seal driving unit, the upper top seal driving unit drives the upper top seal unit to move up and down, and the lower top seal driving unit drives the lower top seal unit to move up and down.

As a preferred scheme, the first side sealing unit and the second side sealing unit are respectively defined as an upper side sealing unit and a lower side sealing unit; the side seal driving unit drives the upper side seal unit and the lower side seal unit to selectively move towards each other in the up-down direction or move away from each other in the back direction, so that the compression side seal or release of the aluminum-plastic film and the battery cell is formed.

Preferably, the side sealing driving unit includes an upper side sealing driving unit and a lower side sealing driving unit, the upper side sealing driving unit drives the upper side sealing unit to move up and down, and the lower side sealing driving unit drives the lower side sealing unit to move up and down.

As a preferred scheme, the slitting mechanism comprises an upper slitting knife, a lower slitting knife, an upper slitting drive unit and a lower slitting drive unit, wherein the upper slitting drive unit and the lower slitting drive unit respectively drive the upper slitting knife and the lower slitting knife to move up and down in the up-and-down direction.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, concretely speaking, according to the technical scheme, the automatic punching and shell entering and battery cell packaging integrated design of the aluminum plastic film is realized through the combined design of the discharging mechanism, the shell punching mechanism, the cutting mechanism, the pulling mechanism, the transferring mechanism, the trimming mechanism, the turnover mechanism, the battery cell feeding mechanism, the top sealing mechanism, the side sealing mechanism, the cutting mechanism, the short circuit measuring mechanism, the discharging mechanism and the turntable mechanism, so that the automation degree is improved, the working time is saved, and the production capacity is improved; and the edge cutting mechanism, the turnover mechanism, the top sealing mechanism, the side sealing mechanism, the slitting mechanism, the short circuit measuring mechanism and the blanking mechanism are arranged around the turntable mechanism, so that the turntable type packaging structure is realized, the overall structure is ingenious and reasonable in layout, the occupation of space is reduced, and the production cost is reduced.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of the overall structure of the embodiment of the present invention;

fig. 2 is a perspective view of another angle overall structure of the embodiment of the present invention;

FIG. 3 is a schematic view of the embodiment of the present invention with the protective cover removed;

FIG. 4 is another angular schematic view of the structure shown in FIG. 3;

fig. 5 is a schematic structural diagram of a top sealing mechanism according to an embodiment of the present invention;

fig. 6 is another angle structure diagram of the top sealing mechanism according to the embodiment of the present invention;

fig. 7 is a schematic structural diagram of a turntable mechanism according to an embodiment of the present invention;

fig. 8 is another angle structure diagram of the turntable mechanism according to the embodiment of the present invention;

fig. 9 is a schematic structural view of a side sealing mechanism according to an embodiment of the present invention;

fig. 10 is another angle structure diagram of the side sealing mechanism according to the embodiment of the present invention;

fig. 11 is a schematic structural view of a slitting mechanism according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram of a cell charging mechanism according to an embodiment of the present invention;

fig. 13 is a schematic structural diagram of a shell punching mechanism according to an embodiment of the present invention;

fig. 14 is a schematic structural diagram of the cutting mechanism and the pulling mechanism according to the embodiment of the present invention.

The attached drawings indicate the following:

1. discharging mechanism 2 and shell punching mechanism

21. Upper punch 22 and lower punch

23. Upper template 24 and lower template

25. A first upper driving unit 26 and a first lower driving unit

3. Cutting mechanism 31, upper cut-off knife

32. Lower cutter 33 and upper cutting drive unit

34. Lower cutting drive unit 4 and material pulling mechanism

41. Upper material pulling clamp 42 and lower material pulling clamp

43. Second drive unit 5, transfer mechanism

51. Lateral movement guide rail 52, lateral drive unit

53. Transfer manipulator 6, trimming mechanism

61. Cutter 62, side cut drive unit

7. Turnover mechanism 8 and battery cell feeding mechanism

81. Feeding manipulator 82 and feeding drive unit

83. Battery cell moving guide rail 84 and battery cell moving block

85. Battery cell moving driving unit 86 and battery cell moving shaft

87. Cell bearing unit 9 and top sealing mechanism

91. Upper top sealing unit 92 and lower top sealing unit

93. Upper top seal driving unit 94 and lower top seal driving unit

10. Side seal mechanism 101 and upper side seal unit

102. Lower side seal unit 103 and upper side seal driving unit

104. Lower side seal driving unit 11 and slitting mechanism

111. Upper and

lower dividing knives

112 and 112

113. Upper slitting drive unit 114 and lower slitting drive unit

12. Short circuit measuring mechanism 13 and blanking mechanism

131. Unloading manipulator 132, conveyer belt

133. Blanking drive unit 14 and turntable mechanism

141. Turntable 142 and jig

15. A machine table 16 and a protective cover.

Detailed Description

Fig. 1 to 14 show specific structures of embodiments of the present invention.

An automatic punching and shell-entering packaging production line for an aluminum plastic film comprises a machine table 15 and a protective cover 16 arranged on the machine table 15, wherein a discharging mechanism 1, a shell punching mechanism 2, a cutting mechanism 3, a material pulling mechanism 4, a transfer mechanism 5, a trimming mechanism 6, a turnover mechanism 7, a battery cell feeding mechanism 8, a top sealing mechanism 9, a side sealing mechanism 10, a splitting mechanism 11, a short circuit measuring mechanism 12, a discharging mechanism 13 and a turntable mechanism 14 are arranged in the protective cover 16; the edge cutting mechanism 6, the turnover mechanism 7, the top sealing mechanism 9, the side sealing mechanism 10, the slitting mechanism 11, the short circuit measuring mechanism 12 and the blanking mechanism 13 are sequentially arranged around the turntable mechanism 14 at annular intervals; the transfer mechanism 5 is positioned between the material pulling mechanism 4 and the trimming mechanism 6; the blanking mechanism 13 is positioned at one side of the short circuit detection mechanism 12; still include controlling means, controlling means is electric connection respectively in drop feed mechanism 1, dash shell mechanism 2, decide mechanism 3, draw material mechanism 4, transfer mechanism 5, trimming mechanism 6, turn over a mechanism 7, electric core feed mechanism 8, top seal mechanism 9, side seal mechanism 10, cut mechanism 11, survey short-circuit mechanism 12, unloading mechanism 13 and carousel mechanism 14.

Specifically, the transfer mechanism 5 includes a traverse mechanism and a transfer robot 53 connected to the traverse mechanism; the transverse moving mechanism comprises a transverse moving guide rail 51, a moving block, a driving shaft and a transverse driving unit 52, the transverse driving unit 52 drives the driving shaft, the moving block is connected to the driving shaft, the moving block is adapted to the transverse moving guide rail 51, and the transfer manipulator 53 is vertically connected to the moving block.

The trimming mechanism 6 comprises a cutter 61 and a trimming driving unit 62 for driving the cutter 61; the cutter 61 comprises an upper cutter 61 and a lower cutter 61; the trimming driving unit 62 drives the upper cutter 61 and the lower cutter 61 to selectively move towards each other or away from each other in the up-down direction so as to cut or release the aluminum-plastic film; the trimming driving unit 62 comprises an upper trimming driving unit 62 and a lower trimming driving unit 62, and the upper trimming driving unit 62 and the lower trimming driving unit 62 respectively drive the upper cutter 61 and the lower cutter 61.

The turnover mechanism 7 comprises a turnover unit and a turnover driving unit for driving the turnover unit; the turnover unit comprises a turnover manipulator, and the turnover driving unit drives the turnover manipulator to turn over the aluminum-plastic film for 180 degrees.

The cell feeding mechanism 8 includes a feeding manipulator 81 and a feeding driving unit 82 for driving the feeding manipulator 81; the battery cell feeding mechanism 8 further includes a battery cell moving mechanism and a battery cell carrying unit 87 connected to the battery cell moving mechanism, the battery cell moving mechanism includes a battery cell moving guide rail 83, a battery cell moving block 84, a battery cell moving drive unit 85 and a battery cell moving shaft 86, the battery cell moving drive unit 85 is connected to the battery cell moving shaft 86, the battery cell moving block 84 is connected to the battery cell moving shaft 86 through a connecting block, the battery cell moving block 84 is adapted to the battery cell moving guide rail 83, and the battery cell carrying unit 87 is installed on the battery cell moving block 84.

The top sealing mechanism 9 comprises a first top sealing unit, a second top sealing unit and a top sealing driving unit; the top seal driving unit drives the first top seal unit and the second top seal unit to selectively move towards or away from each other so as to form compression top seal or release for the aluminum-plastic film and the battery core; preferably, the first top sealing unit and the second top sealing unit are respectively defined as an upper top sealing unit 91 and a lower top sealing unit 92; the top sealing driving unit drives the upper top sealing unit 91 and the lower top sealing unit 92 to selectively move towards each other or move away from each other in the up-down direction so as to form compression top sealing or releasing of the aluminum-plastic film and the battery cell. Preferably, in this embodiment, the top sealing driving unit includes an upper top sealing driving unit 93 and a lower top sealing driving unit 94, the upper top sealing driving unit 93 drives the upper top sealing unit 91 to move up and down, and the lower top sealing driving unit 94 drives the lower top sealing unit 92 to move up and down. In addition, in the present embodiment, two sets of the upper seal driving unit 93 and the upper seal unit 91 are provided, and correspondingly, two sets of the lower seal driving unit 94 and the lower seal unit 92 are provided.

The side sealing mechanism 10 comprises a first side sealing unit, a second side sealing unit and a side sealing driving unit; the side seal driving unit drives the first side seal unit and the second side seal unit to selectively move towards or away from each other so as to form compression side seal or release for the aluminum plastic film and the battery cell; preferably, the first side sealing unit and the second side sealing unit are respectively defined as an upper side sealing unit 101 and a lower side sealing unit 102; the side sealing driving unit drives the upper side sealing unit 101 and the lower side sealing unit 102 to selectively move towards each other or away from each other in the up-down direction, so as to form compression side sealing or releasing of the aluminum-plastic film and the battery cell. Preferably, in this embodiment, the side sealing driving unit includes an upper side sealing driving unit 103 and a lower side sealing driving unit 104, the upper side sealing driving unit 103 drives the upper side sealing unit 101 to move up and down, and the lower side sealing driving unit 104 drives the lower side sealing unit 102 to move up and down. In addition, in the present embodiment, two sets of the upper side sealing driving unit 103 and the upper side sealing unit 101 are provided, and correspondingly, two sets of the lower side sealing driving unit 104 and the lower side sealing unit 102 are provided.

The slitting mechanism 11 comprises an upper slitting knife 111, a lower slitting knife 112, an upper slitting drive unit 113 and a lower slitting drive unit 114, wherein the upper slitting drive unit 113 and the lower slitting drive unit 114 respectively drive the upper slitting knife 111 and the lower slitting knife 112 to move up and down in the up-down direction. In addition, in the present embodiment, two sets of the upper slitting knife 111 and the lower slitting knife 112 are provided, and correspondingly, two sets of the upper slitting driving unit 113 and the lower slitting driving unit 114 are provided.

The turntable mechanism 14 includes a turntable 141 and a plurality of jigs 142 sequentially arranged on the turntable 141 at an annular interval. The turntable mechanism 14 further comprises a turntable 141 driving mechanism, the turntable 141 driving mechanism comprises a rotating shaft and a turntable 141 driving unit driven by the rotating shaft, and the turntable 141 is connected to the upper end of the rotating shaft; the jig 142 comprises a bottom plate and a pressing plate connected above the bottom plate in a turnover mode, and an accommodating cavity is formed between the bottom plate and the pressing plate in a surrounding mode.

The discharging mechanism 1 comprises a discharging air-expanding shaft; the shell punching mechanism 2 comprises an upper punch plate 21, a lower punch plate 22 and a first driving unit; the first driving unit drives the upper pressing plate 21 and the lower pressing plate 22 to selectively move towards each other or away from each other in the up-down direction so as to form clamping and shell punching or releasing on the aluminum-plastic film; the shell punching mechanism 2 further comprises an upper template 23 and a lower template 24, wherein the upper template 23 and the lower template 24 are respectively arranged below the upper punch plate 21 and above the lower punch plate 22; the first driving unit comprises a first upper driving unit 25 and a first lower driving unit 26; the first upper driving unit 25 drives the upper punching plate 21 to move up and down, and the upper punching plate 21 is linked with the upper template 23 to move up and down; the first lower driving unit 26 drives the lower punch 22 to move up and down, and the lower punch 22 is linked with the lower die plate 24 to move up and down.

The material pulling mechanism 4 comprises a transverse moving unit and a material pulling unit arranged on the transverse moving unit, the material pulling unit comprises an upper material pulling clamp 41, a lower material pulling clamp 42 and a second driving unit 43, and the second driving unit 43 drives the upper material pulling clamp 41 and the lower material pulling clamp 42 to selectively move towards or away from each other in the up-down direction in opposite directions so as to clamp or release the aluminum-plastic film.

The cutting mechanism 3 includes an upper cutter 31, a lower cutter 32, an upper cutting drive unit 33, and a lower cutting drive unit 34, wherein the upper cutting drive unit 33 and the lower cutting drive unit 34 respectively drive the upper cutter 31 and the lower cutter 32 to selectively move up and down in the up-down direction.

The short-circuit measuring mechanism 12 can directly adopt a battery short-circuit measuring device in the prior art, and only needs to directly purchase the battery short-circuit measuring mechanism 12 and install the battery short-circuit measuring mechanism on a corresponding position outside the turntable 141.

The blanking mechanism 13 comprises a blanking manipulator 131, a conveyor belt 132 and a blanking driving unit 133 for driving the blanking manipulator 131; one side of electric core feed mechanism 8 is provided with artifical material loading station, unloading mechanism 13 is located one side of surveying short circuit mechanism 12, the input of conveyer belt 132 links up in unloading mechanism 13, conveyer belt 132 passes the bottom of carousel 141 and extends to one side of electric core feed mechanism 8, the output side of conveyer belt 132 links up in artifical material loading station.

The driving means are preferably driven by a cylinder, but may be motor-driven or cylinder-driven as appropriate.

The operation process is as follows:

manually placing the aluminum-plastic film roll on a discharging air-inflation shaft of a machine and adjusting; starting an operation button, automatically operating the machine, and completing automatic pit punching molding (monomer molding) of the aluminum-plastic film by the shell punching mechanism 2, the cutting mechanism 3 and the material pulling mechanism 4 in sequence; then, the formed single bodies are conveyed into a turnover mechanism 7 by a transfer manipulator 53 of a transfer mechanism 5 to be turned over by 180 degrees, and then are moved to a trimming mechanism 6 to be trimmed; meanwhile, the cell loading mechanism 8 loads the cell onto one of the jigs 142 of the turntable 141, then the turntable 141 rotates, the jig 142 and the cell are rotated to the top sealing mechanism 9 together, and then another manipulator (not shown in the figure) moves linearly to place the aluminum-plastic film on a station of the top sealing mechanism 9 to be sealed with the cell; after the top sealing is completed, the turntable 141 rotates to transfer the battery cell and the aluminum-plastic film to the side sealing mechanism 10 together for side sealing; after the side sealing is completed, the battery is transferred to the splitting mechanism 11 by the rotary disc 141 to split the battery (split into two), after the splitting is completed, the battery after the splitting is transferred to the short circuit detection mechanism 12 by the rotary disc 141 to detect the short circuit, after the short circuit detection is completed, the battery is taken out by the blanking mechanism 13 and is conveyed to the manual feeding station by the conveying belt to be blanked, and thus, the whole process is completed.

To sum up, the utility model is mainly designed by combining the discharging mechanism, the shell punching mechanism, the cutting mechanism, the material pulling mechanism, the transferring mechanism, the edge cutting mechanism, the turnover mechanism, the cell feeding mechanism, the top sealing mechanism, the side sealing mechanism, the cutting mechanism, the short circuit measuring mechanism, the blanking mechanism and the turntable mechanism, so that the integrated design of automatic pit punching, shell entering and cell packaging of the aluminum-plastic film is realized, the automation degree is improved, the working time is saved, and the production capacity is improved; and the edge cutting mechanism, the turnover mechanism, the top sealing mechanism, the side sealing mechanism, the slitting mechanism, the short circuit measuring mechanism and the blanking mechanism are arranged around the turntable mechanism, so that the turntable type packaging structure is realized, the overall structure is ingenious and reasonable in layout, the occupation of space is reduced, and the production cost is reduced.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims

1. The utility model provides an automatic hole of dashing of plastic-aluminum membrane goes into shell encapsulation production line which characterized in that: the device comprises a discharging mechanism, a shell punching mechanism, a cutting mechanism, a material pulling mechanism, a transferring mechanism, a trimming mechanism, a turnover mechanism, a battery cell feeding mechanism, a top sealing mechanism, a side sealing mechanism, a splitting mechanism, a short circuit measuring mechanism, a discharging mechanism and a turntable mechanism;

2. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 1, wherein: the transverse moving mechanism comprises a transverse moving guide rail, a moving block, a driving shaft and a transverse driving unit, the transverse driving unit drives the driving shaft, the moving block is connected to the driving shaft, the moving block is adaptive to the transverse moving guide rail, and the transfer manipulator is vertically connected to the moving block.

3. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 1, wherein: the cutter comprises an upper cutter and a lower cutter; the trimming driving unit drives the upper cutter and the lower cutter to selectively move towards each other or away from each other in the up-down direction so as to cut or release the aluminum-plastic film; the trimming driving unit comprises an upper trimming driving unit and a lower trimming driving unit, and the upper trimming driving unit and the lower trimming driving unit respectively drive the upper cutter and the lower cutter.

4. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 1, wherein: the turnover unit comprises a turnover manipulator, and the turnover driving unit drives the turnover manipulator to turn over the aluminum-plastic film for 180 degrees.

5. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 1, wherein: the battery core feeding mechanism further comprises a battery core moving mechanism and a battery core bearing unit connected to the battery core moving mechanism, the battery core moving mechanism comprises a battery core moving guide rail, a battery core moving block, a battery core moving driving unit and a battery core moving shaft, the battery core moving driving unit is connected to the battery core moving shaft, the battery core moving block is connected to the battery core moving shaft through a connecting block, the battery core moving block is adaptive to the battery core moving guide rail, and the battery core bearing unit is installed on the battery core moving block.

6. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 1, wherein: the first top sealing unit and the second top sealing unit are respectively defined as an upper top sealing unit and a lower top sealing unit; the top seal driving unit drives the upper top seal unit and the lower top seal unit to selectively move towards each other or move away from each other in the up-down direction so as to form compression top seal or release for the aluminum-plastic film and the battery core.

7. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 6, wherein: the top seal driving unit comprises an upper top seal driving unit and a lower top seal driving unit, the upper top seal driving unit drives the upper top seal unit to move up and down, and the lower top seal driving unit drives the lower top seal unit to move up and down.

8. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 1, wherein: the first side sealing unit and the second side sealing unit are respectively defined as an upper side sealing unit and a lower side sealing unit; the side seal driving unit drives the upper side seal unit and the lower side seal unit to selectively move towards each other in the up-down direction or move away from each other in the back direction, so that the compression side seal or release of the aluminum-plastic film and the battery cell is formed.

9. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 8, wherein: the side seal driving unit comprises an upper side seal driving unit and a lower side seal driving unit, the upper side seal driving unit drives the upper side seal unit to move up and down, and the lower side seal driving unit drives the lower side seal unit to move up and down.

10. The aluminum-plastic film automatic punching and shell-entering packaging production line of claim 1, wherein: the slitting mechanism comprises an upper slitting knife, a lower slitting knife, an upper slitting drive unit and a lower slitting drive unit, wherein the upper slitting drive unit and the lower slitting drive unit respectively drive the upper slitting knife and the lower slitting knife to move up and down in the upper and lower directions.