CN112478850A

CN112478850A - Aluminum foil formation production line

Info

Publication number: CN112478850A
Application number: CN202011454530.5A
Authority: CN
Inventors: 王中浩; 黄调; 王建飞; 徐运雄; 梁学坚
Original assignee: Hengyang Shaoguan Industry Co ltd
Current assignee: Hengyang Shaoguan Industry Co ltd
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2021-03-12

Abstract

The invention discloses an aluminum foil formation production line, which comprises a foil releasing mechanism, a foil receiving mechanism, a foil taking mechanism, a foil releasing buffer mechanism, an electrolysis mechanism, a drying mechanism, a foil receiving buffer mechanism and a foil receiving mechanism which are sequentially arranged, wherein the foil releasing mechanism comprises a foil releasing roller for winding and releasing an aluminum foil, a first lifting mechanism for driving the foil releasing roller to lift, a first rotating mechanism for driving the foil releasing roller to rotate and a first conveyor, the first conveyor is arranged below the lifting mechanism and can be used for conveying the foil releasing roller, and the actions of full-automatic winding and reel changing can be realized through the arrangement of the lifting mechanism, the rotating mechanism and the conveyor in the foil releasing mechanism and the foil receiving mechanism; meanwhile, foil connection is automatically carried out through the foil connection mechanism, so that the working efficiency is effectively improved; in addition, due to the arrangement of the foil releasing buffer mechanism and the foil receiving buffer mechanism, the problem of production halt caused by reel change can be solved, online foil receiving, foil releasing and foil receiving can be realized, and the production efficiency is greatly improved.

Description

Aluminum foil formation production line

Technical Field

The invention relates to the technical field of aluminum foil formation, in particular to an aluminum foil formation production line.

Background

The existing aluminum foil formation production line is basically semi-automatic, and mainly needs manual roll replacement when a new foil is arranged on a foil placing machine and a processed foil is arranged below the foil placing machine. After a foil coil is placed on a foil releasing machine of a production line, when the foil coil needs to be replaced, the foil coil can only be replaced manually, one foil coil is low in efficiency, and the other foil coil is too heavy, so that potential safety hazards are easy to occur; after a foil roll is wound by a foil winding machine of a production line, when the foil roll needs to be replaced, the foil roll can only be replaced manually, one foil roll has low efficiency, and the other foil roll is too heavy, so that potential safety hazards are easy to appear; when a plurality of production lines need to be changed simultaneously in one workshop, the situation that the rolls cannot be changed in time can occur, and the normal production of the production lines is seriously influenced; when the roll is changed, manual foil connection is needed, the efficiency is low, and the stability is inconsistent.

Disclosure of Invention

The invention aims to provide an aluminum foil formation production line which is high in automation degree and capable of effectively improving production efficiency.

In order to achieve the purpose, the invention adopts the following scheme: an aluminum foil formation production line comprises a foil releasing mechanism, a foil connecting mechanism, a foil taking mechanism, a foil releasing buffer mechanism, an electrolysis mechanism, a drying mechanism, a foil receiving buffer mechanism and a foil receiving mechanism which are sequentially arranged, wherein the foil releasing mechanism comprises a first lifting mechanism, a first rotating mechanism and a first conveyor, the first lifting mechanism is used for rolling and releasing an aluminum foil roller, the first lifting mechanism is used for driving and releasing the lifting of the foil roller, the first rotating mechanism is used for driving and releasing the rotation of the foil roller, the first conveyor is arranged below the lifting mechanism and can be used for conveying and releasing the foil roller, the foil connecting mechanism comprises a fixed table, a first air cylinder is arranged above the fixed table, a pressing plate which can be matched with the fixed table to receive foil is arranged on a push rod of the first air cylinder, the foil taking mechanism comprises a second air cylinder, a sucking disc is arranged on the push rod of the second air cylinder, the sucking disc can penetrate between the fixed table and the pressing plate to absorb the foil on the, the foil releasing buffer mechanism comprises a third cylinder and a fourth cylinder which are sequentially arranged, a push rod of the third cylinder is downwards arranged and provided with a first transmission roller, a second transmission roller is fixedly arranged below the first transmission roller, a push rod of the fourth cylinder is upwards arranged and provided with a third transmission roller, the foil receiving buffer mechanism comprises a fourth transmission roller and a fifth transmission roller which are horizontally and sequentially arranged at intervals, a sixth transmission roller is arranged below the fifth transmission roller, a fifth cylinder is arranged below the position between the fourth transmission roller and the fifth transmission roller, a push rod of the fifth cylinder is upwards arranged and provided with a seventh transmission roller, the foil receiving mechanism comprises a cutting mechanism, a second conveyor and a third conveyor, the cutting mechanism comprises an eighth transmission roller which is fixedly arranged, the second conveyor is arranged below the cutting mechanism and used for placing a standby foil receiving roller, be equipped with on the second conveyer and carry out rubber coating mechanism and second elevating system of rubber coating to receiving the paper tinsel roller for use, second elevating system can drive and rise and cooperate with eighth driving roller for use receiving the paper tinsel roller eighth driving roller one side is equipped with the sixth cylinder, the push rod of sixth cylinder sets up downwards and is equipped with the cutter, receive paper tinsel mechanism still including the third elevating system, the drive that are used for receiving the paper tinsel roller lift of rolling aluminium foil, drive and receive paper tinsel roller pivoted second slewing mechanism and transport mechanism, transport mechanism can convey the paper tinsel roller for use on the second elevating system to third elevating system.

Further, the foil releasing roller, the standby foil receiving roller and the foil collecting roller are identical in structure and are provided with first gears at the end portions.

Furthermore, the first lifting mechanism and the third lifting mechanism are identical in structure and respectively comprise seventh air cylinders arranged on two sides of the conveyor, and a first U-shaped block is arranged on a push rod of each seventh air cylinder.

Furthermore, the first rotating mechanism and the second rotating mechanism are identical in structure and respectively comprise a motor, and a second gear capable of being meshed with the first gear is arranged on an output shaft of the motor.

Furthermore, a ninth driving roller and a tenth driving roller are arranged on the front side of the fixed table, a horizontal line is formed between the tangent plane of the ninth driving roller and the working plane of the fixed table, an eighth cylinder is arranged above the tenth driving roller, and a push rod of the eighth cylinder is arranged downwards and is connected with the tenth driving roller.

Further, rubber coating mechanism is including setting up the supporting seat in second conveyer both sides two be connected with electronic lead screw between the supporting seat the cover is equipped with the lead screw cover on the electronic lead screw it is right to be equipped with on the lead screw cover carry out gummed spreading machine for connecing the paper tinsel roller.

Furthermore, the second lifting mechanism comprises ninth cylinders arranged on two sides of the second conveyor, and a second U-shaped block is arranged on a push rod of each ninth cylinder.

Further, transport mechanism is including setting up the tenth cylinder in second conveyer both sides, the push rod of tenth cylinder sets up and is connected with the ninth cylinder along the direction of delivery of aluminium foil formation production line.

Furthermore, a rail is arranged on one side of the ninth cylinder in the conveying direction of the aluminum foil formation production line, and the ninth cylinder is movably arranged on the rail.

Preferably, a plurality of anti-skid convex strips are arranged on the conveying belt of the first conveyor at equal intervals.

In summary, compared with the prior art, the invention has the beneficial effects that: firstly, the full-automatic winding and roll changing actions can be realized through the arrangement of the lifting mechanism, the rotating mechanism and the conveyer in the foil releasing mechanism and the foil collecting mechanism; meanwhile, foil connection is automatically carried out through the foil connection mechanism, so that the working efficiency is effectively improved; in addition, due to the arrangement of the foil releasing buffer mechanism and the foil receiving buffer mechanism, the problem of production halt caused by reel change can be solved, online foil receiving, foil releasing and foil receiving can be realized, and the production efficiency is greatly improved.

Drawings

FIG. 1 is a schematic view of the present invention.

FIG. 2 is a second schematic structural diagram of the present invention.

Fig. 3 is a third schematic structural diagram of the present invention.

Description of reference numerals: 1. a foil releasing mechanism; 2. a foil connecting mechanism; 199. a foil taking mechanism; 3. a foil releasing buffer mechanism; 4. an electrolysis mechanism; 5. a drying mechanism; 6. a foil-winding buffer mechanism; 7. a foil collecting mechanism; 8. a foil releasing roller; 9. a first conveyor; 10. a fixed table; 11. a first cylinder; 12. pressing a plate; 13. a second cylinder; 14. a suction cup; 15. a third cylinder; 16. a fourth cylinder; 17. a first drive roller; 18. a second driving roller; 19. a third driving roller; 101. a fourth driving roller; 102. a fifth driving roller; 103. a sixth driving roller; 104. a fifth cylinder; 105. a seventh driving roller; 106. a second conveyor; 107. a third conveyor; 108. an eighth driving roller; 109. a foil roller is to be used; 110. a sixth cylinder; 111. a cutter; 112. a foil collecting roller; 31a, a seventh cylinder; 31b, a seventh cylinder; 32a, a first U-shaped block; 32b, a first U-shaped block; 41a, a motor; 41b, a motor; 42a, a second gear; 42b, a second gear; 51. a ninth driving roller; 52. a tenth driving roller; 53. an eighth cylinder; 61. a supporting seat; 62. an electric screw rod; 63. a glue spreader; 71. a ninth cylinder; 72. a second U-shaped block; 81. a tenth cylinder; 91. a track.

Detailed Description

The following detailed description provides many different embodiments or examples for implementing the invention. Of course, these are merely embodiments or examples and are not intended to be limiting. In addition, repeated reference numbers, such as repeated numbers and/or letters, may be used in various embodiments. These iterations are for simplicity and clarity of describing the present invention and are not intended to represent a particular relationship between the various embodiments and/or configurations discussed.

Furthermore, spatially relative terms, such as "below" … "," below "," inside-out "," above "," upper "and the like, may be used herein to facilitate describing one element or feature's relationship to another element or feature during use or operation of the device, and may include different orientations of the device during use or operation of the device as illustrated in the figures. The devices may be rotated 90 degrees or other orientations from different orientations and the spatially relative descriptors used therein should be interpreted as such and are not to be construed as limiting the invention, and the terms "first" and "second" are used for descriptive purposes only and are not intended to indicate or imply relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

The invention will be further described with reference to the following description and embodiments in conjunction with the accompanying drawings: as shown in fig. 1 to 3, an aluminum foil formation production line includes a foil releasing mechanism 1, a foil receiving mechanism 2, a foil taking mechanism 199, a foil releasing buffer mechanism 3, an electrolysis mechanism 4, a drying mechanism 5, a foil receiving buffer mechanism 6, and a foil receiving mechanism 7, which are sequentially arranged, wherein the foil releasing mechanism 1 includes a foil releasing roller 8 for winding and releasing aluminum foil, a first lifting mechanism for driving the foil releasing roller 8 to lift, a first rotating mechanism for driving the foil releasing roller 8 to rotate, and a first conveyor 9, the first conveyor 9 is disposed below the lifting mechanism and can be used for conveying the foil releasing roller 8, the foil receiving mechanism 2 includes a fixed table 10, a first air cylinder 11 is disposed above the fixed table 10, a pressing plate 12 capable of cooperating with the fixed table 10 to receive foil is disposed on a push rod of the first air cylinder 11, the foil taking mechanism 199 includes a second air cylinder 13, a suction cup 14 is disposed on a push rod of the second air cylinder 13, the sucking disc 14 can penetrate through a space between the fixed table 10 and the pressing plate 12 to adsorb the aluminum foil on the foil releasing roller 8, the foil releasing buffer mechanism 3 comprises a third cylinder 15 and a fourth cylinder 16 which are sequentially arranged, a push rod of the third cylinder 15 is downwards arranged and provided with a first driving roller 17, a second driving roller 18 is fixedly arranged below the first driving roller 17, a push rod of the fourth cylinder 16 is upwards arranged and provided with a third driving roller 19, the foil receiving buffer mechanism 6 comprises a fourth driving roller 101 and a fifth driving roller 102 which are horizontally and sequentially arranged at intervals, a sixth driving roller 103 is arranged below the fifth driving roller 102, a fifth cylinder 104 is arranged below the fourth driving roller 101 and the fifth driving roller 102, a push rod of the fifth cylinder 104 is upwards arranged and provided with a seventh driving roller 105, the foil receiving mechanism 7 comprises a cutting mechanism, a second conveyor 106 and a third conveyor 107, the cutting mechanism comprises an eighth driving roller 108 fixedly arranged, the second conveyor 106 is arranged below the cutting mechanism and used for placing a standby foil receiving roller 109, a glue coating mechanism and a second lifting mechanism are arranged on the second conveyor 106 and used for coating glue on the standby foil receiving roller 109, the second lifting mechanism can drive the standby foil receiving roller 109 to ascend and is matched with the eighth driving roller 108, a sixth air cylinder 110 is arranged on one side of the eighth driving roller 108, a push rod of the sixth air cylinder 110 is downwards arranged and provided with a cutter 111, the foil receiving mechanism 7 further comprises a foil receiving roller 112 used for winding an aluminum foil, a third lifting mechanism used for driving the foil receiving roller 112 to ascend and descend, a second rotating mechanism used for driving the foil receiving roller 112 to rotate and a transmission mechanism, the transmission mechanism can transmit the standby foil receiving roller 109 on the second lifting mechanism to the third lifting mechanism, and firstly, the standby foil receiving roller 109 in the foil releasing mechanism 1 and the foil receiving mechanism 7, The arrangement of the rotating mechanism and the conveyor can realize the action of fully automatically winding and changing the coil; meanwhile, foil connection is automatically carried out through the foil connection mechanism 2, so that the working efficiency is effectively improved; in addition, due to the arrangement of the foil releasing buffer mechanism 3 and the foil receiving buffer mechanism 6, the problem of production halt caused by reel change can be solved, online foil receiving, foil releasing and foil receiving can be realized, and the production efficiency is greatly improved.

The foil releasing roller 8, the to-be-used foil receiving roller 109 and the foil receiving roller 112 have the same structure, and are provided with first gears 21 at the end parts.

The first lifting mechanism and the third lifting mechanism have the same structure, and each lifting mechanism comprises

seventh air cylinders

31a and 31b arranged at two sides of the conveyor, and first

U-shaped blocks

32a and 32b are arranged on push rods of the

seventh air cylinders

31a and 31 b.

The first rotating mechanism and the second rotating mechanism have the same structure and respectively comprise a motor 41a and a motor 41b,

second gears

42a and 42b which can be meshed with the first gear 21 are arranged on output shafts of the

motors

41a and 41b, and the

second gears

42a and 42b are arranged above the first gear 21, so that the foil releasing roller 8 or the foil collecting roller 112 can be driven to rotate to release or collect foil only by driving the first gear 21 to ascend to be meshed with the

second gears

42a and 42b, and the foil releasing and collecting device is simple in structure and convenient to operate.

According to the invention, the front side of the fixed table 10 is provided with the ninth driving roller 51 and the tenth driving roller 52, the tangent plane of the ninth driving roller 51 and the working plane of the fixed table 10 form a horizontal line, the eighth cylinder 53 is arranged above the tenth driving roller 52, the push rod of the eighth cylinder 53 is downwards arranged and connected with the tenth driving roller 52, and the aluminum foil is arranged between the ninth driving roller 51 and the tenth driving roller 52 to play a role of guiding the aluminum foil, so that the smooth foil connection is ensured.

The glue spreading mechanism comprises supporting seats 61 arranged at two sides of a second conveyor 106, an electric screw 62 is connected between the two supporting seats 61, a screw sleeve is sleeved on the electric screw 62, and a glue spreader 63 capable of spreading glue on the to-be-used foil connecting roller 109 is arranged on the screw sleeve.

The second lifting mechanism comprises ninth air cylinders 71 arranged at two sides of a second conveyor 106, and a second U-shaped block 72 is arranged on a push rod of the ninth air cylinders 71.

The conveying mechanism comprises tenth air cylinders 81 arranged on two sides of the second conveyor 106, and push rods of the tenth air cylinders 81 are arranged along the conveying direction of the aluminum foil formation production line and connected with the ninth air cylinders 71.

In the invention, one side of the ninth cylinder 71 is provided with a track 91 arranged in the conveying direction of the aluminum foil formation production line, and the ninth cylinder 71 is movably arranged on the track 91.

According to the invention, a plurality of anti-skid convex strips are equidistantly arranged on the conveying belt of the first conveyor 9, so that the aluminum foil to be corroded is prevented from accidentally rolling, and the production safety is ensured.

The specific working principle of the invention is as follows:

after the aluminum foil on the foil releasing mechanism 1 is fed, the foil releasing roller 8 is driven by the seventh air cylinder 31a to descend onto the first conveyor 9, the first conveyor 9 works to convey the foil releasing roller to be corroded to the position below the seventh air cylinder 31a, the seventh air cylinder 31a works to clamp the foil releasing roller to ascend through the first U-shaped block 32a, and the second gear 42a on the foil releasing roller is meshed with the first gear 21; then, the second air cylinder 13 drives the sucking disc 14 to move towards the foil placing roller 8 on the first U-shaped block 32a, the aluminum foil is sucked by the sucking disc 14 and is brought to the fixed table 10, and at the moment, the two disconnected aluminum foils are mutually overlapped on the fixed table 10; at the moment, the third air cylinder 15 drives the first driving roller 17 to move downwards, and the aluminum foil is clamped through the cooperation of the second driving roller 18; at the moment, the foil connecting mechanism 2 works, the pressing plate 12 is driven to move downwards through the first air cylinder 11 to rivet and press two disconnected aluminum foils together tightly, the foil connecting process keeps normal operation of subsequent work through the foil releasing buffer mechanism 3, the third driving roller 19 is driven to retract through the fourth air cylinder 16, normal operation of the subsequent work is guaranteed, after foil connection is finished, the pressing plate 12 is loosened, and the aluminum foils can operate normally.

When the foil receiving roller 112 is full of aluminum foil and needs to be replaced, firstly, the screw rod sleeve and the gluing machine are driven by the electric screw rod 62 to move transversely, the to-be-used foil receiving roller 109 is glued, after the gluing is finished, the glued to-be-used foil receiving roller 109 is driven by the ninth cylinder 71 to ascend, the to-be-used foil receiving roller 109 is matched with the eighth driving roller 108 to clamp the aluminum foil, at the same time, the glue is simultaneously stained with the aluminum foil, meanwhile, the preorder work of the glue is kept to be normal operation under the action of the foil receiving buffer mechanism 6, the seventh driving roller 105 is driven by the fifth cylinder 104 to ascend and press the aluminum foil for storage, the normal work of the preamble part can be ensured, then the sixth cylinder 110 drives the cutter 111 to move downwards to cut the aluminum foil, the seventh cylinder 31b descends, the aluminum foil on the foil receiving roller 112 is placed on the third conveyor 107 and is conveyed away by the third conveyor 107, and then the ninth cylinder 81 drives the ninth cylinder 71 to move along the, the first U-shaped block 32b is driven by the seventh cylinder 31b to ascend and block the to-be-received foil roller 109 at the moment when the seventh cylinder 31b moves to the position above the seventh cylinder 31b, and finally the first gear 21 of the first U-shaped block is meshed with the second gear 42b, so that the normal foil receiving work can be carried out; and then can realize the action of full-automatic rolling change of lap, can avoid simultaneously because of the problem of the production shut down of roll change, can realize on-line receiving paper tinsel, putting paper tinsel and receive paper tinsel work, realize automated production, improve the efficiency of production greatly.

While there have been shown and described the fundamental principles and principal features of the invention and advantages thereof, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are given by way of illustration of the principles of the invention, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An aluminium foil ization becomes production line which characterized in that: comprises a foil releasing mechanism (1), a foil receiving mechanism (2), a foil taking mechanism (199), a foil releasing buffer mechanism (3), an electrolysis mechanism (4), a drying mechanism (5), a foil receiving buffer mechanism (6) and a foil receiving mechanism (7) which are sequentially arranged, wherein the foil releasing mechanism (1) comprises a foil releasing roller (8) for rolling and releasing an aluminum foil, a first lifting mechanism for driving the foil releasing roller (8) to lift, a first rotating mechanism for driving the foil releasing roller (8) to rotate and a first conveyor (9), the first conveyor (9) is arranged below the lifting mechanism and can be used for conveying the foil releasing roller (8), the foil receiving mechanism (2) comprises a fixed table (10), a first air cylinder (11) is arranged above the fixed table (10), a pressing plate (12) which can be matched with the fixed table (10) to receive the foil is arranged on a push rod of the first air cylinder (11), the foil taking mechanism (199) comprises a second air cylinder (13), a sucker (14) is arranged on a push rod of the second air cylinder (13), the sucker (14) can penetrate through an aluminum foil placed on the foil roller (8) between the fixed table (10) and the pressing plate (12) to adsorb, the foil placing buffer mechanism (3) comprises a third air cylinder (15) and a fourth air cylinder (16) which are sequentially arranged, the push rod of the third air cylinder (15) is downwards arranged and provided with a first driving roller (17), a second driving roller (18) is fixedly arranged below the first driving roller (17), a third driving roller (19) is upwards arranged and provided with a push rod of the fourth air cylinder (16), the foil receiving buffer mechanism (6) comprises a fourth driving roller (101) and a fifth driving roller (102) which are horizontally and sequentially arranged at intervals, a sixth driving roller (103) is arranged below the fifth driving roller (102), a fifth cylinder (104) is arranged below the fourth driving roller (101) and the fifth driving roller (102), a push rod of the fifth cylinder (104) is upwards arranged and provided with a seventh driving roller (105), the foil receiving mechanism (7) comprises a cutting mechanism, a second conveyor (106) and a third conveyor (107), the cutting mechanism comprises an eighth driving roller (108) fixedly arranged, the second conveyor (106) is arranged below the cutting mechanism and used for placing a standby foil receiving roller (109), a glue coating mechanism and a second lifting mechanism capable of coating glue on the standby foil receiving roller (109) are arranged on the second conveyor (106), the second lifting mechanism can drive the standby foil receiving roller (109) to ascend and be matched with the eighth driving roller (108), a sixth cylinder (110) is arranged on one side of the eighth driving roller (108), and a cutter (111) is downwards arranged and arranged on a push rod of the sixth cylinder (110), the foil collecting mechanism (7) further comprises a foil collecting roller (112) for collecting the aluminum foil, a third lifting mechanism for driving the foil collecting roller (112) to lift, a second rotating mechanism for driving the foil collecting roller (112) to rotate and a transmission mechanism, and the transmission mechanism can transmit the foil roller (109) to be received on the second lifting mechanism to the third lifting mechanism.

2. The aluminum foil forming line as set forth in claim 1, wherein: the foil releasing roller (8), the to-be-used foil receiving roller (109) and the foil receiving roller (112) are identical in structure, and are provided with first gears (21) at the end parts.

3. The aluminum foil forming line as set forth in claim 1, wherein: the first lifting mechanism and the third lifting mechanism are identical in structure and respectively comprise seventh air cylinders (31a and 31b) arranged on two sides of the conveyor, and push rods of the seventh air cylinders (31a and 31b) are provided with first U-shaped blocks (32a and 32 b).

4. The aluminum foil formation production line as claimed in claim 2, characterized in that: the first rotating mechanism and the second rotating mechanism are identical in structure and respectively comprise motors (41a and 41b), and second gears (42a and 42b) capable of being meshed with the first gears (21) are arranged on output shafts of the motors (41a and 41 b).

5. The aluminum foil forming line as set forth in claim 1, wherein: the fixed station (10) front side is equipped with ninth driving roller (51) and tenth driving roller (52), the tangent plane of ninth driving roller (51) is a water flat line with the working plane of fixed station (10) be equipped with eighth cylinder (53) above tenth driving roller (52), the push rod of eighth cylinder (53) sets up downwards and is connected with tenth driving roller (52).

6. The aluminum foil forming line as set forth in claim 1, wherein: the rubber coating mechanism is including setting up supporting seat (61) in second conveyer (106) both sides two be connected with electronic lead screw (62) between supporting seat (61) the cover is equipped with the lead screw cover on electronic lead screw (62) it can be right to be equipped with on the lead screw cover carry out gummed spreading machine (63) with connecing foil roller (109).

7. The aluminum foil forming line as set forth in claim 1, wherein: the second lifting mechanism comprises ninth air cylinders (71) arranged on two sides of the second conveyor (106), and a second U-shaped block (72) is arranged on a push rod of each ninth air cylinder (71).

8. The aluminum foil forming line as set forth in claim 7, wherein: the conveying mechanism comprises tenth air cylinders (81) arranged on two sides of the second conveyor (106), and push rods of the tenth air cylinders (81) are arranged along the conveying direction of the aluminum foil formation production line and connected with the ninth air cylinders (71).

9. The aluminum foil forming line as set forth in claim 8, wherein: and a conveying direction setting track (91) of an aluminum foil formation production line is arranged on one side of the ninth cylinder (71), and the ninth cylinder (71) is movably arranged on the track (91).

10. The aluminum foil forming line as set forth in claim 1, wherein: a plurality of anti-skid convex strips are arranged on the conveying belt of the first conveyor (9) at equal intervals.