CN216450698U

CN216450698U - Multi-station disc type aluminum-to-nickel tab integrated machine

Info

Publication number: CN216450698U
Application number: CN202122836556.2U
Authority: CN
Inventors: 赵志远
Original assignee: Guangdong Zoellin New Energy Technology Co ltd
Current assignee: Guangdong Zoellin New Energy Technology Co ltd
Priority date: 2022-03-21
Filing date: 2022-03-21
Publication date: 2022-05-06
Anticipated expiration: 2032-03-21

Abstract

The utility model discloses a multi-station disc type aluminum-to-nickel tab integrated machine, and relates to the technical field of lithium battery production. The utility model comprises a retracting assembly and a supporting platform, wherein a positioning assembly is clamped at one end of the upper side of the retracting assembly, an extension rod is clamped at the upper side of the retracting assembly, the supporting platform is arranged in front of the two retracting assemblies, a plug board is inserted at the upper side of the supporting platform, and a cutting assembly and a viscose assembly are fixed at the upper side of the supporting platform. The utility model solves the problems that although the production efficiency is improved and the labor intensity of workers is reduced by the conventional disc type aluminum-nickel-conversion lug all-in-one machine through the winding and unwinding assembly and the supporting table, in the actual production, a manufacturer usually needs to purchase a plurality of all-in-one machines for simultaneous production, the early-stage investment is high, the space utilization rate is low, when lugs with different sizes are produced, a large amount of time is consumed for adjusting the all-in-one machines, and the use flexibility is low.

Description

Multi-station disc type aluminum-to-nickel tab integrated machine

Technical Field

The utility model belongs to the technical field of lithium battery production, and particularly relates to a multi-station disc type aluminum-to-nickel tab integrated machine.

Background

Lithium batteries, which are a type of batteries using a nonaqueous electrolyte solution and using lithium metal or lithium alloy as a positive/negative electrode material, have become the mainstream with the development of science and technology, and mainly comprise: the lithium battery comprises an anode, a cathode, electrolyte and a diaphragm, wherein in the production process of the lithium battery, the anode and the cathode of the lithium battery are generally led out from a battery core by using a tab which is a contact point for charging and discharging the battery, the tab is mainly formed by compounding a film and a metal band, the film is an insulated part on the tab and has the function of preventing the short circuit between the metal band and an aluminum plastic film during the packaging of the battery, and the tab is heated and is sealed and bonded with the aluminum plastic film in a hot melting way to prevent leakage during the packaging, one tab clamps the metal band by two films, so that the two sides of the metal band are generally required to be encapsulated in the production process of the tab, but the tab still has the following defects in the practical use:

1. the prior publication, CN203674301U, a soft-package lithium ion battery tab welding and shearing integrated machine, comprises a welding seat having a groove, a support frame mounted on the welding seat below an ultrasonic welding machine and parallel to the groove of the welding seat, a blade mounted at the upper end of the support frame, a rotating shaft arranged at the joint between the blade and the support frame, the blade is driven by the power device to move up and down along the groove, the existing integrated machine for producing the tab can greatly improve the production efficiency of the tab and reduce the labor intensity of workers, but when the integrated machine is actually produced, especially, the disc type pole ear can be produced only one roll at a time, a plurality of all-in-one machines are required to be purchased by manufacturers to produce a plurality of disc type pole ears simultaneously, the investment in the early stage of production is higher, a plurality of integration machines occupy a large number of positions in a production workshop, so that the utilization rate of space is greatly reduced;

2. the existing disc type aluminum-to-nickel tab integrated machine is in the production process, the integrated machine can only produce tabs of one size, when the aluminum-to-nickel tabs of various sizes are required to be produced, a large amount of time is consumed for adjustment, the production efficiency is reduced, and the integrated machine is low in use flexibility.

Therefore, the existing multi-station disc type aluminum-to-nickel tab all-in-one machine cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multi-station disc type aluminum-to-nickel tab all-in-one machine, which solves the problems that although the production efficiency of the existing disc type aluminum-to-nickel tab all-in-one machine is improved and the labor intensity of workers is reduced through a winding and unwinding assembly and a supporting table, in actual production, a plurality of all-in-one machines are usually required to be purchased by manufacturers for simultaneous production, the early-stage investment is high, the space utilization rate is low, when tabs with different sizes are produced, a large amount of time is consumed for adjusting the all-in-one machines, and the use flexibility is low.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a multi-station disc type aluminum-nickel-converted lug all-in-one machine, which comprises a winding and unwinding assembly and a support table, wherein a positioning assembly is clamped at one end of the upper side of the winding and unwinding assembly, a plurality of disc type aluminum-nickel-converted lugs can be fixed through the positioning assembly, the phenomenon that the disc type aluminum-nickel-converted lugs shift due to shaking in the unwinding and winding processes is avoided, the production efficiency is improved, an extension rod is clamped at the upper side of the winding and unwinding assembly, a manufacturer can clamp a plurality of extension rods in the winding and unwinding assembly according to the requirement, the multi-station disc type aluminum-nickel-converted lugs can be simultaneously processed, the production efficiency is greatly improved, a plurality of all-in-one machines are not required to be purchased, the cost is reduced, the space utilization rate is improved, the support table is arranged in front of the two winding and unwinding assemblies, an inserting plate is inserted at the upper side of the support table, the plurality of aluminum-nickel-converted lugs can be separated through the inserting plate, and the plurality of aluminum-nickel-converted lugs are ensured not to influence each other, the size of the aluminum-to-nickel electrode lug which can be processed on the upper side of the supporting platform can be controlled by inserting the inserting plates with different sizes, so that the aluminum-to-nickel electrode lug with different sizes can be processed, the flexibility of the aluminum-to-nickel electrode lug processing machine is greatly improved, the cutting assembly and the viscose assembly are fixed on the upper side of the supporting platform, a plurality of aluminum-to-nickel electrode lugs can be simultaneously encapsulated through the viscose assembly, and after one-time encapsulation is completed, encapsulation among the plurality of aluminum-to-nickel electrode lugs can be cut through the cutting assembly, so that the aluminum-to-nickel electrode lug processing machine can simultaneously process a plurality of aluminum-to-nickel electrode lugs, and the production efficiency is improved.

Further, a first rotating motor is fixed on the upper side of the retracting and releasing assembly relative to the other end of the positioning assembly, a rotating pipe is clamped on one side, located on the positioning assembly, of the first rotating motor, and a first sliding groove is formed in the upper side of the retracting and releasing assembly;

the first rotating motor can drive the disc type aluminum-to-nickel tab to be unreeled and reeled, so that the automation degree of the utility model is improved.

Furthermore, a sliding block is fixedly welded at the bottom end of the positioning assembly, a first limiting cylinder is fixedly arranged on the upper side of the positioning assembly, a moving rod is connected to one end of the first limiting cylinder in a penetrating and clamping manner, a limiting plate is fixedly connected to one end of the moving rod in a clamping manner, a first limiting rod is fixedly welded to the limiting plate relative to the other end of the moving rod, a second limiting cylinder is fixedly arranged on one side, located on the first limiting cylinder, of the limiting plate, a second limiting rod is connected to one end of the second limiting cylinder in a penetrating and clamping manner, the second limiting rod is connected to one side of the limiting plate in a penetrating and clamping manner, and a limiting block is fixedly welded to the second limiting rod relative to the other end of the limiting plate;

can drive the removal of first gag lever post through first spacing cylinder, can drive the removal of second gag lever post and stopper through the spacing cylinder of second, make receive and release the subassembly and change nickel utmost point ear to disk aluminium and carry on spacingly, avoid unreeling the in-process at the rolling and appear rocking and lead to the skew, improve production efficiency.

Furthermore, a clamping rod is fixedly welded at one end of the extension rod, a clamping groove is formed in the other end of the extension rod, a sliding block of the positioning assembly is clamped on the inner side of a first sliding groove of the retracting assembly, a first limiting rod of the retracting assembly is positioned on one side of a first rotating motor of the retracting assembly, the clamping rod of the extension rod is inserted into the inner side of a rotating tube of the retracting assembly, and a first limiting rod of the positioning assembly is inserted into the inner side of the clamping groove;

can prolong the length of rotating tube through the extension rod, make receive and release the subassembly and can change nickel utmost point ear to a plurality of disk aluminium simultaneously and carry out the rolling and unreel, reduce the charges of electricity spending, improve production efficiency, avoid purchasing the greatly increased that a plurality of all-in-one resulted in earlier stage to drop into simultaneously, avoid the all-in-one to occupy a large amount of spaces in the workshop, improve the utilization ratio in space.

Furthermore, a first compression roller, a second compression roller and a third compression roller are clamped on the upper side of the support table, two limiting frames are fixedly welded at two ends of the upper side of the support table, a second sliding groove is formed in the upper side of one limiting frame, a third sliding groove is formed in the upper side of the support table between the two limiting frames, and a cutting knife is clamped on the inner side of the third sliding groove;

can improve the stability of aluminium commentaries on classics nickel utmost point ear in the course of working on a supporting bench through first compression roller, second compression roller and third compression roller, avoid because rock and lead to the precision to descend, improve production efficiency.

Furthermore, a slot is formed in one end of the upper side of the supporting platform, the slot is located on the inner side of the limiting frame of the supporting platform, the inserting plate is inserted into the slot, and a partition plate is fixedly welded at two ends of the upper side of the inserting plate;

the inserting plates are inserted into the inner sides of the inserting grooves, so that the aluminum-to-nickel lugs can be separated by the separating plates, the mutual influence between the aluminum-to-nickel lugs in the machining process is avoided, and the production efficiency is improved.

Furthermore, a first moving cylinder is clamped at one end of the cutting assembly, a rotating rod is clamped at the other end of the cutting assembly, a second rotating motor is clamped at one end of the rotating rod, a cutting wheel is clamped on the outer peripheral surface of the rotating rod, the cutting assembly is fixed on the upper side of the limiting frame of the supporting table, the cutting wheel is positioned between the two limiting frames of the supporting table, and the cutting wheel is attached to one end of a partition plate of the plugboard;

the cutting wheel can be driven to move up and down through the first moving cylinder, the cutting wheel can be driven to rotate through the second rotating motor, and the aluminum-to-nickel electrode lugs can be cut through rotation of the cutting wheel after primary rubber coating is finished, so that manual cutting by workers is not needed, and the automation degree of the cutting machine is improved.

Furthermore, a second moving cylinder is clamped at one end of the gluing component, a gluing roller is clamped at the other end of the gluing component, the second moving cylinder is clamped at the inner side of a second chute of the supporting table, the gluing component is positioned at one side of the cutting component, and the gluing roller is positioned between two limiting frames of the supporting table;

the adhesive roller is fixed with a film on the peripheral surface, the adhesive assembly can move along the second sliding groove, so that the adhesive roller can roll and encapsulate the adhesive on the surfaces of the aluminum-to-nickel tabs, the film is cut by the cutting knife after encapsulation is completed, the film on the peripheral surface of the adhesive roller is separated from the film on the surfaces of the aluminum-to-nickel tabs, and the adhesive assembly can encapsulate the aluminum-to-nickel tabs at the same time, so that the production efficiency of the utility model is greatly improved.

The utility model has the following beneficial effects:

1. the utility model solves the problems that the prior all-in-one machine for producing the tab can greatly improve the production efficiency of the tab and reduce the labor intensity of workers, but when the all-in-one machine is in actual production, particularly only one roll of the disk tab can be produced at one time, a manufacturer needs to purchase a plurality of all-in-one machines to simultaneously produce a plurality of disk tabs, the investment in the early stage of production is higher, and a plurality of all-in-one machines occupy a large number of positions in a production workshop, so that the utilization rate of space is greatly reduced, a plurality of aluminum-to-nickel tabs can be simultaneously unreeled and reeled by the take-up and pay-off assembly, a plurality of aluminum-to-nickel tabs can be simultaneously encapsulated by the adhesive assembly, and films connected between the aluminum-to-nickel tabs are cut by the cutting assembly, so that the utility model can simultaneously process a plurality of disk aluminum-to-nickel tabs, the utility model greatly improves the production efficiency, reduces the production cost and the electricity expense and improves the utilization rate of space.

2. The utility model solves the problems that the prior disc type aluminum-to-nickel tab all-in-one machine can only produce tabs with one size, and often needs to spend a large amount of time for adjusting when various aluminum-to-nickel tabs with different sizes need to be produced, so that the production efficiency is reduced, and the use flexibility of the all-in-one machine is not high by arranging the retracting assembly and the support table.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a structural effect diagram of the present invention;

FIG. 2 is a block diagram of the retraction assembly of the present invention;

FIG. 3 is a block diagram of a positioning assembly of the present invention;

FIG. 4 is a side view of a support table of the present invention;

FIG. 5 is a block diagram of a support stage of the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 5 at A according to the present invention;

FIG. 7 is a block diagram of the cutting assembly of the present invention;

FIG. 8 is a block diagram of the adhesive assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a retraction assembly; 101. a positioning assembly; 102. a first chute; 103. a first rotating electric machine; 104. rotating the tube; 105. an extension pole; 106. a clamping rod; 107. a card slot; 108. a first limit rod; 109. a limiting block; 110. a second limiting rod; 111. a second limit cylinder; 112. a first limit cylinder; 113. a limiting plate; 114. a travel bar; 115. a slider; 2. a support table; 201. a cutting assembly; 202. an adhesive assembly; 203. a limiting frame; 204. a first press roll; 205. a second press roll; 206. a third press roll; 207. a slot; 208. inserting plates; 209. a partition plate; 210. a second chute; 211. a cutting knife; 212. a third chute; 213. a first moving cylinder; 214. a second rotating electric machine; 215. a cutting wheel; 216. rotating the rod; 217. a second moving cylinder; 218. and gluing the rubber roller.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-8, the utility model is a multi-station disc type aluminum-to-nickel tab integrated machine, which comprises a winding and unwinding assembly 1 and a support table 2, wherein a positioning assembly 101 is clamped at one end of the upper side of the winding and unwinding assembly 1, a plurality of disc type aluminum-to-nickel tabs can be fixed through the positioning assembly 101, the phenomenon that deviation is caused by shaking in the unwinding and winding processes is avoided, an extension rod 105 is clamped at the upper side of the winding and unwinding assembly 1, a manufacturer can clamp a plurality of extension rods 105 in the winding and unwinding assembly 1 as required, so that the utility model can process a plurality of disc type aluminum-to-nickel tabs at the same time, a plurality of integrated machines are not required to be purchased, the cost is reduced, the support table 2 is arranged in front of the two winding and unwinding assemblies 1, an inserting plate 208 is inserted at the upper side of the support table 2, the plurality of aluminum-to-nickel tabs can be separated through the inserting plate 208, and the plurality of aluminum-to-nickel tabs can not be influenced, the sizes of the aluminum-to-nickel electrode lugs which can be processed on the upper side of the support table 2 can be controlled by inserting the insertion plates 208 with different sizes, so that the aluminum-to-nickel electrode lugs with different sizes can be processed, the cutting assembly 201 and the viscose assembly 202 are fixed on the upper side of the support table 2, a plurality of aluminum-to-nickel electrode lugs can be simultaneously encapsulated through the viscose assembly 202, and after one-time encapsulation is completed, encapsulation among the plurality of aluminum-to-nickel electrode lugs can be cut through the cutting assembly 201.

As shown in fig. 1-3, the upper side of the retraction assembly 1 is fixed with a first rotating motor 103 opposite to the other end of the positioning assembly 101, the first rotating motor 103 is located at one side of the positioning assembly 101 and is clamped with a rotating tube 104, the upper side of the retraction assembly 1 is provided with a first chute 102, the bottom end of the positioning assembly 101 is welded and fixed with a slide block 115, the upper side of the positioning assembly 101 is fixed with a first limiting cylinder 112, one end of the first limiting cylinder 112 is through clamped with a moving rod 114, one end of the moving rod 114 is clamped and fixed with a limiting plate 113, the limiting plate 113 is welded and fixed with a first limiting rod 108 opposite to the other end of the moving rod 114, the limiting plate 113 is located at one side of the first limiting cylinder 112 and is fixed with a second limiting cylinder 111, one end of the second limiting cylinder 111 is through clamped with a second limiting rod 110, the second limiting rod 110 is through clamped and connected to one side of the limiting plate 113, and the other end of the second limiting rod 110 is welded and fixed with a limiting block 109 opposite to the limiting plate 113, a clamping rod 106 is fixedly welded at one end of the extension rod 105, a clamping groove 107 is formed in the other end of the extension rod 105, a sliding block 115 of the positioning component 101 is clamped on the inner side of a first sliding groove 102 of the retraction component 1, a first limiting rod 108 of the retraction component 1 is positioned on one side of a first rotating motor 103 of the retraction component 1, the clamping rod 106 of the extension rod 105 is inserted into the inner side of a rotating pipe 104 of the retraction component 1, and a first limiting rod 108 of the positioning component 101 is inserted into the inner side of the clamping groove 107;

can drive the disk aluminium through first rotation motor 103 and change nickel utmost point ear and unreel and the rolling, can drive the removal of first gag lever post 108 through first spacing cylinder 112, can drive the removal of second gag lever post 110 and stopper 109 through second spacing cylinder 111, it is spacing to make receive and release subassembly 1 change nickel utmost point ear to disk aluminium, avoid unreeling the in-process at the rolling and rock and lead to the skew appear, can prolong the length of swinging pipe 104 through extension rod 105, make receive and release subassembly 1 can change nickel utmost point ear to a plurality of disk aluminium simultaneously and roll and unreel, reduce the charges of electricity spending, avoid purchasing the greatly increased that a plurality of all-in-ones leaded to drop into earlier stage simultaneously, avoid the all-in-one to occupy a large amount of spaces in the workshop.

Wherein, as shown in fig. 1, 4, 5, 6, 7, 8, the upper side of the supporting platform 2 is connected with a first press roller 204, a second press roller 205 and a third press roller 206 in a clamping manner, two ends of the upper side of the supporting platform 2 are welded and fixed with two limiting frames 203, the upper side of one limiting frame 203 is provided with a second chute 210, the upper side of the supporting platform 2 is arranged between the two limiting frames 203 and is provided with a third chute 212, the inner side of the third chute 212 is connected with a cutting knife 211 in a clamping manner, one end of the upper side of the supporting platform 2 is provided with a slot 207, the slot 207 is arranged at the inner side of the limiting frame 203 of the supporting platform 2, the inserting plate 208 is inserted and connected at the inner side of the slot 207, two ends of the upper side of the inserting plate 208 are welded and fixed with a partition plate 209, one end of the cutting assembly 201 is connected with a first moving cylinder 213 in a clamping manner, the other end of the cutting assembly 201 is connected with a rotating rod 216 in a clamping manner, one end of the rotating rod 216 is connected with a second rotating motor 214 in a clamping manner, the outer peripheral surface of the rotating rod 216 is connected with a cutting wheel 215 in a clamping manner, the cutting assembly 201 is fixed at the upper side of the limiting frames 203 of the supporting platform 2, the cutting wheel 215 is positioned between the two limiting frames 203 of the supporting table 2, the cutting wheel 215 is attached to one end of a partition 209 of the inserting plate 208, one end of the adhesive component 202 is clamped with a second moving cylinder 217, the other end of the adhesive component 202 is clamped with an adhesive roller 218, the second moving cylinder 217 is clamped inside a second sliding groove 210 of the supporting table 2, the adhesive component 202 is positioned on one side of the cutting component 201, and the adhesive roller 218 is positioned between the two limiting frames 203 of the supporting table 2;

the stability of the aluminum-to-nickel tab in the processing process on the support table 2 can be improved through the first press roll 204, the second press roll 205 and the third press roll 206, the precision reduction caused by shaking is avoided, the inserting plate 208 is inserted into the inner side of the inserting groove 207, the partition plate 209 can separate the aluminum-to-nickel tab, the mutual influence between the aluminum-to-nickel tabs in the processing process is avoided, meanwhile, the inserting of the partition plates 209 with different sizes can enable the aluminum-to-nickel tab processing machine to process the aluminum-to-nickel tabs with different sizes, the gluing roller 218 is driven by the second moving cylinder 217 to move up and down to be attached to the upper side of the aluminum-to-nickel tab, the film is fixed on the outer peripheral surface of the gluing roller 218, the gluing assembly 202 can move along the second sliding groove 210, the gluing roller 218 can roll and glue on the surfaces of the plurality of aluminum-to-nickel tabs, and the film is cut by the movement of the cutting knife 211 along the third sliding groove 212 after the glue coating is completed, make the film of gluing the rubber roll 218 outer peripheral face and the film on aluminium commentaries on classics nickel utmost point ear surface separate, viscose subassembly 202 can change the nickel utmost point ear to a plurality of aluminium simultaneously and carry out the rubber coating, can drive reciprocating of cutting wheel 215 through first moving cylinder 213, rotates the rotation that motor 214 can drive cutting wheel 215 through the second, makes a plurality of aluminium change the nickel utmost point ear can cut through the rotation of cutting wheel 215 after once the rubber coating is accomplished, does not need the manual cutting of staff.

One specific application of this embodiment is: according to the number of the disc type aluminum-to-nickel electrode tabs to be processed, the positioning assembly 101 is moved along the first sliding groove 102, a plurality of extension rods 105 are inserted at one end of the rotating pipe 104, a plurality of disc type aluminum-to-nickel electrode tabs are inserted on the outer peripheral surfaces of the extension rods 105, the first limiting rod 108 is inserted inside the clamping groove 107 when the first limiting cylinder 112 drives the first limiting rod 108 to move, the position of the first limiting rod 108 is limited, the second limiting cylinder 111 drives the second limiting rod 110 and the limiting block 109 to move, the second limiting rod is attached to one side of the disc type aluminum-to-nickel electrode tabs, the position of the disc type aluminum-to-nickel electrode tabs is limited, the stability of the disc type aluminum-to-nickel electrode tabs in the winding and unwinding process is ensured, the deviation caused by shaking is avoided, the processing precision is improved, according to the size of the aluminum-to-nickel electrode tabs to be processed, the inserting plate 208 is inserted inside the slot 207, so that the size between the two separators 209 is the same as the size of the aluminum-to-nickel electrode tabs, the operation is simple and rapid, the utility model can process the aluminum-to-nickel electrode lugs with different sizes, the flexibility of the utility model is greatly improved, one end of the aluminum-to-nickel electrode lug is pulled to be jointed between the first compression roller 204, the second compression roller 205, the third compression roller 206 and the support platform 2, the cutting wheel 215 is driven to move by the first moving cylinder 213 to be jointed on the upper side of the support platform 2, the adhesive roller 218 is driven to move by the second moving cylinder 217 to be jointed on the upper side of the aluminum-to-nickel electrode lug and the aluminum-to-nickel electrode lug is fixed on the inner side of another collecting and releasing component 1, the rotating pipe 104 is driven to rotate by the first rotating motor 103 to roll and release the aluminum-to-nickel electrode lug, the adhesive roller 218 can roll on the upper side of the aluminum-to-nickel electrode lug by the sliding of the adhesive component 202 along the second sliding chute 210 in the process of the aluminum-to-nickel electrode lug moving on one time, after the rubber is coated, the film is cut by the movement of the cutting knife 211 along the third sliding groove 212, so that the film on the surface of the rubber-sticking roller 218 is separated from the film on the surface of the aluminum-to-nickel tab, the film between the aluminum-to-nickel tabs can be cut by the rotation of the cutting wheel 215 driven by the second rotating motor 214, and the processed aluminum-to-nickel tab can be wound by the other winding and unwinding assembly 1, so that the processing of a plurality of disc-type aluminum-to-nickel tabs can be simultaneously completed, the production efficiency of the utility model is greatly improved, the production cost is reduced, and the utilization rate of space is improved.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims

1. The utility model provides a disk aluminium of multistation changes nickel utmost point ear all-in-one, includes receive and release subassembly (1) and a supporting bench (2), its characterized in that: receive and release subassembly (1) upside one end joint and have locating component (101), receive and release subassembly (1) upside joint and have extension rod (105), two it has brace table (2) to receive and release subassembly (1) before being provided with, it has picture peg (208) to peg graft in brace table (2) upside, brace table (2) upside is fixed with cutting component (201) and viscose subassembly (202).

2. The multi-station disc type aluminum-to-nickel tab all-in-one machine as claimed in claim 1, wherein a first rotating motor (103) is fixed to the upper side of the winding and unwinding assembly (1) opposite to the other end of the positioning assembly (101), a rotating pipe (104) is clamped to the first rotating motor (103) on one side of the positioning assembly (101), and a first sliding groove (102) is formed in the upper side of the winding and unwinding assembly (1).

3. The multi-station disc type aluminum-to-nickel tab all-in-one machine as claimed in claim 1, a sliding block (115) is fixedly welded at the bottom end of the positioning component (101), a first limiting cylinder (112) is fixed at the upper side of the positioning component (101), one end of the first limiting cylinder (112) is connected with a moving rod (114) in a penetrating and clamping mode, one end of the moving rod (114) is fixedly connected with a limiting plate (113) in a clamping mode, the other end of the limiting plate (113) opposite to the moving rod (114) is fixedly welded with a first limiting rod (108), a second limiting cylinder (111) is fixed on one side of the limiting plate (113) which is positioned on the first limiting cylinder (112), one end of the second limiting cylinder (111) is in through clamping connection with a second limiting rod (110), the second limiting rod (110) penetrates through and is clamped on one side of the limiting plate (113), and the limiting block (109) is fixedly welded on the second limiting rod (110) relative to the other end of the limiting plate (113).

4. The multi-station disc type aluminum-to-nickel tab all-in-one machine is characterized in that a clamping rod (106) is fixedly welded at one end of the extension rod (105), a clamping groove (107) is formed in the other end of the extension rod (105), a sliding block (115) of the positioning assembly (101) is clamped on the inner side of a first sliding groove (102) of the retractable assembly (1), a first limiting rod (108) of the retractable assembly (1) is located on one side of a first rotating motor (103) of the retractable assembly (1), the clamping rod (106) of the extension rod (105) is inserted into the inner side of a rotating pipe (104) of the retractable assembly (1), and the first limiting rod (108) of the positioning assembly (101) is inserted into the inner side of the clamping groove (107).

5. The multi-station disc type aluminum-to-nickel tab all-in-one machine is characterized in that a first pressing roller (204), a second pressing roller (205) and a third pressing roller (206) are clamped on the upper side of the support table (2), two limiting frames (203) are fixed to the two ends of the upper side of the support table (2) in a welding mode, a second sliding groove (210) is formed in the upper side of one limiting frame (203), a third sliding groove (212) is formed between the two limiting frames (203) in the upper side of the support table (2), and a cutting knife (211) is clamped on the inner side of the third sliding groove (212).

6. The multi-station disc type aluminum-to-nickel tab all-in-one machine is characterized in that a slot (207) is formed in one end of the upper side of the support platform (2), the slot (207) is located on the inner side of a limiting frame (203) of the support platform (2), the inserting plate (208) is inserted into the slot (207), and a partition plate (209) is fixedly welded to two ends of the upper side of the inserting plate (208).

7. The multi-station disc type aluminum-to-nickel tab all-in-one machine is characterized in that a first moving cylinder (213) is clamped at one end of a cutting assembly (201), a rotating rod (216) is clamped at the other end of the cutting assembly (201), a second rotating motor (214) is clamped at one end of the rotating rod (216), a cutting wheel (215) is clamped on the outer peripheral surface of the rotating rod (216), the cutting assembly (201) is fixed on the upper side of a limiting frame (203) of a supporting table (2), the cutting wheel (215) is located between two limiting frames (203) of the supporting table (2), and the cutting wheel (215) is attached to one end of a partition plate (209) of an inserting plate (208).

8. The multi-station disc type aluminum-to-nickel tab all-in-one machine as claimed in claim 1, wherein a second moving cylinder (217) is clamped at one end of the gluing assembly (202), a gluing roller (218) is clamped at the other end of the gluing assembly (202), the second moving cylinder (217) is clamped inside a second sliding groove (210) of the support table (2), the gluing assembly (202) is located on one side of the cutting assembly (201), and the gluing roller (218) is located between two limiting frames (203) of the support table (2).