CN114309216A - Stamping equipment for battery cover plate continuous production - Google Patents

Abstract

The invention discloses stamping equipment for continuous production of battery cover plates, which comprises two mounting plates, wherein a conveyor is arranged between the two mounting plates, a plurality of placing mechanisms are fixed at the upper end of the conveyor through bolts, each placing mechanism consists of a plurality of placing components, stamping mechanisms are arranged at the upper ends of the two mounting plates, sliding grooves matched with the stamping mechanisms are formed in the upper surfaces of the mounting plates, driving pieces IV for driving the stamping mechanisms to slide in the sliding grooves are arranged in the mounting plates, and fixing mechanisms positioned at the upper ends of the placing components are arranged in the stamping mechanisms; the stamping mechanism can perform different stamping operations, and the battery cover plate semi-finished product can be continuously processed and produced, so that the production efficiency is improved; and the problems that the process of replacing and maintaining the first stamping head in the common stamping equipment is complicated, a professional tool is required, and a large amount of time is consumed are solved.

Description

Stamping equipment for battery cover plate continuous production

Technical Field

The invention relates to the technical field of battery cover plate processing, in particular to stamping equipment for continuous production of battery cover plates.

Background

In the patent document with the publication number of CN213288399U, a be used for integrative aluminium apron plastic stamping die of new forms of energy battery is disclosed, including cold water pipe, bed die and cooling block, the top swing joint of bed die has last mould, and the equal fixedly connected with fixed block in both sides of going up the mould bottom, the equal fixedly connected with base in both sides of bed die, and the bottom of base all is provided with the spacing groove, the equal swing joint in inboard of spacing groove has the stopper, and the equal fixedly connected with movable block in top of stopper, one side outer wall of movable block all rotates and is connected with the connecting rod, the equal fixedly connected with cooling block of one end outer wall of bed die and last mould.

In this patent, through the work of electricity liquid power micropump, the water in the cooling block carries out quick refrigeration through the refrigerator, and cold water enters into the cold water intraductally through the output tube, and the water rethread input tube circulation after the heat absorption is refrigerated in the cooling block, guarantees the cold water circulation in the cold water pipe, realizes that the stamping process cools off the design fast to the work piece.

However, in the practical application process of the patent, the position of the lower die and the position of the upper die are prone to deviation, the precision of stamping processing is reduced, the product quality is reduced, the production efficiency is influenced, and the continuous processing production is not facilitated.

Disclosure of Invention

The invention aims to provide stamping equipment for continuous production of battery cover plates, aiming at solving the technical problems in the background technology.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a stamping equipment for battery apron continuous production, includes two mounting panels, is provided with the conveyer between two mounting panels, the upper end bolt fastening of conveyer has a plurality of placement device, placement device places the subassembly by a plurality of and constitutes, two the upper end of mounting panel is provided with punching press mechanism, the upper surface of mounting panel is provided with the spout with punching press mechanism looks adaptation, the inside of mounting panel is provided with and is used for driving punching press mechanism gliding driving piece four in the spout, the inside of punching press mechanism is provided with the fixed establishment who is located the upper end of placing the subassembly.

As a further scheme of the invention: stamping mechanism contains two slides, the lower extreme of slide extends to the inside of spout, the top fixedly connected with roof of slide, the position that the lower extreme of roof is close to four apex angles all is provided with the dead lever, be provided with the protective block between the lower extreme of dead lever and the slide, slidable mounting has perpendicular movable plate on four dead levers, the position that the upper end of perpendicular movable plate is close to the center is connected with the connecting piece, the upper end of roof is provided with and is used for driving the connecting piece to carry out vertical lift's driving piece two, first punching press subassembly and second punching press subassembly are installed respectively to the position that the lower extreme of perpendicular movable plate is close to both sides.

As a further scheme of the invention: the first stamping assembly comprises a first lifting plate which is slidably mounted on two fixing rods positioned on the same side, a first forming mechanism is arranged below the first lifting plate, and a first lifting oil cylinder used for driving the first forming mechanism to vertically lift is arranged at the upper end of the first lifting plate.

As a further scheme of the invention: the first forming mechanism comprises a first connecting plate connected with the output end of the first lifting oil cylinder, a first stamping plate is fixedly arranged at the lower end of the first connecting plate, a first adjusting plate is arranged below the first stamping plate, the lower end of the first stamping plate is provided with a plurality of first limiting columns which are distributed in an annular array, the upper surface of the first adjusting plate is provided with a limiting groove matched with the first limiting columns, a spring is connected between the inner wall of the bottom end of the limiting groove and the lower end of the first limiting columns, a plurality of adjusting components arranged in an annular array are arranged between the first stamping plate and the first adjusting plate, the lower end of the first adjusting plate is provided with a first stamping head, the top of the first stamping head penetrates through the first adjusting plate, and the adjusting component is connected with the first punching head in a clamping manner and is respectively fixed with the first punching plate and the first adjusting plate through screws.

As a further scheme of the invention: the adjusting component comprises a baffle which is fixed by screws with a first stamping plate and a first adjusting plate respectively, one side of the baffle is symmetrically provided with clamping plates, and one side of the baffle is also provided with a positioning plate which is positioned between the two clamping plates.

As a further scheme of the invention: fixed establishment contains the fixed subassembly that two symmetries set up, and fixed subassembly contains the fixed block one that is located between two slides, one side of fixed block one is connected with the spliced pole, the opposite side symmetry of fixed block one is provided with fixed block two, be provided with on the surface of slide and be used for driving the spliced pole and do sharp back and forth movement's driving piece three, rotate on the fixed block two and install runner assembly.

As a further scheme of the invention: the second fixed block is of a U-shaped structure, the rotating assembly comprises a rotating block which is rotatably installed inside the second fixed block, pin holes are formed in the rotating block and the second fixed block, rotating pins are arranged in the pin holes, one end of the first fixed block, far away from the rotating block, is fixedly connected with an auxiliary plate, and a limiting plate is fixedly installed at the position, close to the upper end, of one end, far away from the first fixed block, of the auxiliary plate.

As a further scheme of the invention: the placing assembly comprises a placing table body, a first side plate and a second side plate are respectively installed on two sides of the placing table body, a placing groove is formed in the upper surface of the placing table body, and a first driving piece with an output end penetrating through the placing groove is arranged in the placing table body.

The invention has the beneficial effects that:

1. according to different stamping operations of the stamping mechanism, the battery cover plate semi-finished product can be continuously processed and produced, and the battery cover plate finished products in the first embodiment, the second embodiment and the third embodiment are obtained through different stamping operations.

2. In a forming mechanism, interval between first punching press board and the first regulating plate is adjustable, and in accommodation process, cooperation through first spacing post and spring is used, the problem of the position deviation of first regulating plate is difficult to appear, ensure to need not proofread again to the position of first regulating plate after interval adjustment, machining precision has been guaranteed, adjusting part can set the specification of multiple height, it violently rocks to be difficult for appearing after the interval adjustment of first punching press board and first regulating plate to ensure, and adjusting part and first punching press head joint, can further realize that first punching press head exposes at the outside length adjustment of first regulating plate, finally reach the purpose that changes the depth of slotting.

3. In adjusting part, joint board and first punching press head joint, the locating plate can laminate mutually with the surface of first spacing post when using, can avoid when punching press operation, and the problem of acutely rocking appears in first spacing post.

4. The driving part III is started to drive the connecting column to do linear reciprocating motion, namely, the connecting column moves towards the direction close to the semi-finished product of the battery cover plate, then the rotating assembly is firstly contacted with the outer surface of the semi-finished product of the battery cover plate, because the outer contour of the semi-finished product of the battery cover plate is of a circular structure, the rotating assembly and the fixing block II can rotate relatively, the rotating assembly and the fixing block II continue to move towards the direction close to the semi-finished product of the battery cover plate along with the fixing block I, the auxiliary plate is tightly attached to the outer surface of the semi-finished product of the battery cover plate, and the limiting plate is pressed at the upper end of the semi-finished product of the battery cover plate, so that the position of the semi-finished product of the battery cover plate is firmly fixed.

5. The adjusting component is convenient to install between first punching press board and first regulating plate, realizes the purpose of adjusting the distance between first punching press board and the first regulating plate, and the adjusting component is convenient for install and dismantle, and then is convenient for install and dismantle to and change first punching press head, it is loaded down with trivial details, must be with the help of professional instrument to have solved among the stamping equipment commonly used to change and maintain first punching press head process, and consume the problem of a large amount of time.

Drawings

The invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a top view of the placement assembly of the present invention;

FIG. 3 is a side view of the stamping mechanism of the present invention;

FIG. 4 is a side sectional view of a first forming mechanism of the present invention;

FIG. 5 is a top view of the adjustment assembly of the present invention;

FIG. 6 is a top view of the securing mechanism of the present invention;

FIG. 7 is a top view of the rotating assembly of the present invention;

fig. 8 is a schematic view of a completed battery cover plate according to a first embodiment of the present invention;

fig. 9 is a schematic view of a completed battery cover plate in a second embodiment of the invention;

fig. 10 is a schematic view of a completed battery cover plate in the third embodiment of the present invention.

In the figure: 1. mounting a plate; 2. a conveyor; 3. a stamping mechanism; 4. a chute; 5. a placement mechanism; 6. placing the component; 7. a fixing mechanism; 61. placing the table body; 62. a first side plate; 63. a second side plate; 64. a first driving part; 31. a top plate; 32. a slide plate; 33. vertically moving the plate; 34. a connecting member; 35. a driving part II; 37. fixing the rod; 36. a first punch assembly; 361. a first lifter plate; 362. a first molding mechanism; 363. a first lift cylinder; 3621. a first connecting plate; 3622. a first stamped plate; 3623. a first adjusting plate; 3624. a first limit post; 3625. a first punch; 3626. an adjustment assembly; 36261. a baffle plate; 36262. a clamping and connecting plate; 36263. positioning a plate; 71. a first fixed block; 72. connecting columns; 73. a driving member III; 74. a second fixed block; 75. a rotating assembly; 751. rotating the block; 752. an auxiliary plate; 753. a limiting plate; 754. a pin hole; 8. a battery cover plate body; 81. a first forming groove; 82. and a second forming groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the invention relates to a stamping device for continuous production of battery cover plates, which comprises two mounting plates 1, wherein a conveyor 2 is arranged between the two mounting plates 1, a plurality of placing mechanisms 5 are fixed on the upper end of the conveyor 2 by bolts, each placing mechanism 5 is composed of a plurality of placing components 6, a stamping mechanism 3 is arranged on the upper ends of the two mounting plates 1, a sliding chute 4 matched with the stamping mechanism 3 is arranged on the upper surface of the mounting plate 1, a driving part four for driving the stamping mechanism 3 to slide in the sliding chute 4 is arranged in the mounting plate 1, and a fixing mechanism 7 positioned at the upper end of the placing component 6 is arranged in the stamping mechanism 3; the battery cover plate semi-finished product is placed at the upper end of the placing assembly 6 and conveyed to the lower part of the stamping mechanism 3 along the conveying direction of the conveyor 2, then the battery cover plate semi-finished product is fixed by the fixing mechanism 7, so that the battery cover plate semi-finished product is prevented from shaking violently in the stamping and slotting forming process, slotting precision is ensured, continuous processing production can be carried out on the battery cover plate semi-finished product according to different stamping operations of the stamping mechanism 3, and the battery cover plate finished products in the first embodiment, the second embodiment and the third embodiment can be obtained through different stamping operations.

Referring to fig. 3-5, the stamping mechanism 3 includes two sliding plates 32, the lower ends of the sliding plates 32 extend into the sliding slot 4, the top of the sliding plates 32 is fixedly connected with a top plate 31, the lower ends of the top plate 31 are provided with fixed rods 37 at positions close to four vertex angles, the four fixed rods 37 are slidably mounted with vertical moving plates 33, the upper ends of the vertical moving plates 33 are connected with a connecting piece 34 at a position close to the center, the upper end of the top plate 31 is provided with a driving piece two 35 for driving the connecting piece 34 to vertically lift, the lower ends of the vertical moving plates 33 are respectively provided with a first stamping assembly 36 and a second stamping assembly at positions close to two sides, a protection block is arranged between the lower ends of the fixed rods 37 and the sliding plates 32, the protection block can prevent the vertical moving plates 33, the first stamping assembly 36 and the second stamping assembly from sliding down, the driving piece two 35 is started to drive the connecting piece 34 to vertically lift, and then the vertical moving plate 33 is driven to vertically slide on the four fixing rods 37, and finally the first punching assembly 36 and the second punching assembly are driven to vertically lift, at this time, the first punching assembly 36 and the second punching assembly have a first punching stroke when vertically lifting, and it is required to explain that: taking the first stamping assembly 36 as an example, the first stamping assembly 36 includes a first lifting plate 361 slidably mounted on the two fixing rods 37 located on the same side, a first forming mechanism 362 is disposed below the first lifting plate 361, and a first lifting cylinder 363 for driving the first forming mechanism 362 to vertically lift is disposed at an upper end of the first lifting plate 361, so that the first lifting plate 361 lifts on the two fixing rods 37 located on the same side, and the first lifting cylinder 363 is activated to drive the first forming mechanism 362 to vertically lift, so as to obtain a second stamping stroke, thereby increasing the application range of the present invention.

The first forming mechanism 362 includes a first connecting plate 3621 connected to an output end of the first lift cylinder 363, a first stamping plate 3622 is fixedly mounted at a lower end of the first connecting plate 3621, a first adjusting plate 3623 is disposed below the first stamping plate 3622, a plurality of first limiting columns 3624 arranged in an annular array are disposed at a lower end of the first stamping plate 3622, a limiting groove adapted to the first limiting columns 3624 is disposed on an upper surface of the first adjusting plate 3623, a spring is connected between an inner wall of a bottom end of the limiting groove and a lower end of the first limiting columns 3624, a plurality of adjusting assemblies 3626 arranged in an annular array are disposed between the first stamping plate 3622 and the first adjusting plate 3623, a first stamping head 3625 is disposed at a lower end of the first adjusting plate 3623, a top of the first stamping head 3625 penetrates through the first adjusting plate 3623, the adjusting assemblies 3626 are connected to the first stamping head 3625, the adjusting assemblies 3626 are respectively fixed to the first stamping plate 3622 and the first adjusting plate 3623, because the lower end of the first stamped plate 3622 is provided with a plurality of first limiting columns 3624 arranged in an annular array, the upper surface of the first adjusting plate 3623 is provided with limiting grooves matched with the first limiting columns 3624, and springs are connected between the inner walls of the bottom ends of the limiting grooves and the lower ends of the first limiting columns 3624, the distance between the first stamped plate 3622 and the first adjusting plate 3623 is adjustable, and in the adjusting process, the first limiting columns 3624 and the springs are used in a matching manner, the problem of position offset of the first adjusting plate 3623 is not easy to occur, the position of the first adjusting plate 3623 is not required to be corrected after the distance is adjusted, the processing precision is ensured, the adjusting component 3626 can be set into specifications with various heights, the first stamped plate 3622 and the first adjusting plate 3623 are not easy to shake violently after the distance is adjusted, the adjusting component 3626 is connected with the first stamped head 3625 in a clamping manner, and the length adjustment of the first stamped head 3625 exposed outside the first adjusting plate 3623 can be further realized, finally, the purpose of changing the depth of the groove is achieved.

Adjusting part 3626 contains respectively with first punching press board 3622 and first regulating plate 3623 through the fixed baffle 36261 of screw, one side symmetry of baffle 36261 is provided with joint board 36262, one side of baffle 36261 still is provided with the locating plate 36263 that is located between two joint boards 36262, joint board 36262 and first punching press head 3625 joint, locating plate 36263 can laminate mutually with first spacing post 3624's surface when using, can avoid when punching press operation, the problem of acutely rocking appears in first spacing post 3624.

The only difference between the first punching assembly 36 and the second punching assembly is that the first punching head 3625 in the second punching assembly has a different size, i.e. different size and shape of the slot, than the first punching head 3625 in the first punching assembly 36, and the second punching assembly is slidably mounted on two fixing rods 37 located on one side of the first punching assembly 36 close to the vertical moving plate 33, so that the second punching assembly can be similar to the first punching assembly 36, and the second punching assembly has a third punching stroke.

Referring to fig. 6-7, the fixing mechanism 7 includes two symmetrically disposed fixing assemblies, each fixing assembly includes a first fixing block 71 located between two sliding plates 32, one side of the first fixing block 71 is connected with a connecting column 72, the other side of the first fixing block 71 is symmetrically provided with a second fixing block 74, a third driving member 73 for driving the connecting column 72 to reciprocate linearly is disposed on the outer surface of the sliding plate 32, a rotating assembly 75 is rotatably mounted on the second fixing block 74, the second fixing block 74 is U-shaped, the rotating assembly 75 includes a rotating block 751 rotatably mounted inside the second fixing block 74, pin holes 754 are respectively formed in the rotating block 751 and the second fixing block 74, a rotating pin is disposed in the pin hole 754, an auxiliary plate 752 is fixedly connected to one end of the rotating block 751, which is far from the first fixing block 71, and a position of one end of the auxiliary plate 752, which is far from the upper end of the first fixing block 71, is close to a position of a limiting plate 753 is fixedly mounted, when the battery cover half-finished product is used, the driving member III 73 is started to drive the connecting column 72 to do linear reciprocating motion, namely, the connecting column moves towards the direction close to the battery cover half-finished product, then the rotating assembly 75 is firstly contacted with the outer surface of the battery cover half-finished product, because the outer contour of the battery cover half-finished product is a circular structure, the rotating assembly 75 and the fixing block II 74 rotate relatively, the fixing block I71 continues to move towards the direction close to the battery cover half-finished product, the auxiliary plate 752 is attached to the outer surface of the battery cover half-finished product tightly, and the limiting plate 753 is pressed at the upper end of the battery cover half-finished product, so that the position of the battery cover half-finished product is firmly fixed.

Referring to fig. 2, the placing assembly 6 includes a placing table 61, two sides of the placing table 61 are respectively provided with a first side plate 62 and a second side plate 63, the first side plate 62 is matched with the second side plate 63 on the adjacent placing assembly 6, and the first side plate 62 is located at the upper end of the second side plate 63 on the adjacent placing assembly 6, so that when the placing assembly 6 is located on the upper surface and the lower surface of the conveyor 2 for conveying, in the adjacent placing assembly 6, the first side plate 62 is clamped with the second side plate 63 on the adjacent placing assembly 6, so that the overall conveying process of the placing assembly 6 is more stable, when the two side arc sections of the conveyor 2 are conveyed, the adjacent placing assemblies 6 are separated, the normal conveying of the conveyor 2 is not hindered, the continuous processing is facilitated, a collecting box body located below the conveyor 2 is arranged between the two mounting plates 1, when the placing assembly 6 is located on the lower surface of the conveyor 2 for conveying, because the standing groove that the semi-manufactured goods of supply battery apron were put into is seted up to the upper surface of placing stage body 61, the inside of placing stage body 61 is provided with output and runs through to the inside driving piece 64 of standing groove, starts driving piece 64 and can be with the battery apron finished product unloading of processing completion to collecting inside the box.

Example one

Referring to fig. 8, the battery cover plate semi-finished product, i.e. the battery cover plate body 8, only the first stamping assembly 36 in the stamping mechanism 3 is started to perform the stamping operation, and the first stamping head 3625 in the first stamping assembly 36 performs the stamping and grooving operation to obtain the battery cover plate finished product shown in fig. 8, in which only the first forming groove 81 is formed.

Example two

Referring to fig. 9, only the second stamping assembly in the stamping mechanism 3 is activated to perform the stamping operation, and the first stamping head 3625 in the second stamping assembly performs the stamping and grooving to obtain the battery cover plate finished product shown in fig. 9, in which only the second forming groove 82 is formed.

EXAMPLE III

Referring to fig. 10, a first forming groove 81 is formed on the basis of the battery cover plate body 8, and then a second punching assembly is further used to perform a punching operation on the basis of the first forming groove 81, so as to obtain a battery cover plate finished product, where the first forming groove 81 is located at the lower end of the second forming groove 82, and the two forming grooves are communicated.

Based on the content disclosed in the above embodiment, the invention further includes a battery cover plate body 8 which is a semi-finished product for processing the battery cover plate, the semi-finished product of the battery cover plate is placed at the upper end of the placing component 6, and is conveyed to the lower part of the punching mechanism 3 along the conveying direction of the conveyor 2, and then the semi-finished product of the battery cover plate is fixed by the fixing mechanism 7, so that the semi-finished product of the battery cover plate is prevented from shaking violently in the punching and slotting forming process, and slotting precision is ensured.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (8)

1. The utility model provides a stamping equipment for battery apron continuous production, includes two mounting panels (1), is provided with conveyer (2) between two mounting panels (1), its characterized in that, the upper end bolt fastening of conveyer (2) has a plurality of to place mechanism (5), place mechanism (5) and place subassembly (6) by a plurality of and constitute, two the upper end of mounting panel (1) is provided with punching press mechanism (3), the upper surface of mounting panel (1) is provided with spout (4) with punching press mechanism (3) looks adaptation, the inside of mounting panel (1) is provided with and is used for driving punching press mechanism (3) gliding driving piece four in spout (4), be provided with fixed establishment (7) that are located and place subassembly (6) upper end on punching press mechanism (3).

2. The stamping equipment for battery cover plate continuous production of claim 1, wherein, the stamping mechanism (3) comprises two sliding plates (32), the lower end of the sliding plate (32) extends to the inside of the sliding groove (4), the top of the sliding plate (32) is fixedly connected with a top plate (31), the lower end of the top plate (31) is provided with fixing rods (37) at positions close to four top angles, a vertical moving plate (33) is slidably mounted on the four fixing rods (37), the upper end of the vertical moving plate (33) is connected with a connecting piece (34), the upper end of the top plate (31) is provided with a driving piece two (35) for driving the connecting piece (34) to vertically lift, and the positions of the lower end of the vertical moving plate (33) close to two sides are respectively provided with a first stamping assembly (36) and a second stamping assembly.

3. The stamping device for the continuous production of the battery cover plates as claimed in claim 2, wherein the first stamping assembly (36) comprises a first lifting plate (361), a first forming mechanism (362) is arranged below the first lifting plate (361), and a first lifting cylinder (363) for driving the first forming mechanism (362) to vertically lift is arranged at the upper end of the first lifting plate (361).

4. The stamping equipment for the continuous production of battery cover plates according to claim 3, wherein the first forming mechanism (362) comprises a first connecting plate (3621) connected with the output end of the first lift cylinder (363), a first stamping plate (3622) is fixedly installed at the lower end of the first connecting plate (3621), a first adjusting plate (3623) is arranged below the first stamping plate (3622), a plurality of first limiting columns (3624) arranged in an annular array are arranged at the lower end of the first stamping plate (3622), a limiting groove matched with the first limiting column (3624) is arranged on the upper surface of the first adjusting plate (3623), a spring is connected between the inner wall of the bottom end of the limiting groove and the lower end of the first limiting column (3624), a plurality of adjusting components (3626) arranged in an annular array are arranged between the first stamping plate (3622) and the first adjusting plate (3623), the lower end of the first adjusting plate (3623) is provided with a first stamping head (3625), the top of the first stamping head (3625) penetrates through the first adjusting plate (3623), and the adjusting assembly (3626) is clamped with the first stamping head (3625).

5. The stamping apparatus for continuous production of battery cover plates according to claim 4, wherein the adjusting assembly (3626) comprises a baffle plate (36261) fixed with a first stamping plate (3622) and a first adjusting plate (3623) through screws, wherein one side of the baffle plate (36261) is symmetrically provided with clamping plates (36262), and one side of the baffle plate (36261) is further provided with a positioning plate (36263) positioned between the two clamping plates (36262).

6. The stamping equipment for battery cover plate continuous production according to claim 1, characterized in that, fixed establishment (7) contains the fixed subassembly of two symmetry settings, and fixed subassembly contains fixed block one (71) that is located between two slide (32), one side of fixed block one (71) is connected with spliced pole (72), the other side symmetry of fixed block one (71) is provided with fixed block two (74), be provided with on the surface of slide (32) and be used for driving spliced pole (72) to do straight reciprocating motion driving piece three (73), rotate on fixed block two (74) and install runner assembly (75).

7. The stamping device for the continuous production of the battery cover plates as claimed in claim 6, wherein the second fixed block (74) is of a U-shaped structure, the rotating assembly (75) comprises a rotating block (751) rotatably mounted inside the second fixed block (74), an auxiliary plate (752) is fixedly connected to one end of the rotating block (751) far away from the first fixed block (71), and a limit plate (753) is fixedly mounted at a position, close to the upper end, of one end of the auxiliary plate (752) far away from the first fixed block (71).

8. The stamping equipment for the continuous production of battery cover plates as claimed in claim 1, wherein the placing assembly (6) comprises a placing table body (61), a first side plate (62) and a second side plate (63) are respectively mounted on two sides of the placing table body (61), a placing groove is formed in the upper surface of the placing table body (61), and a first driving member (64) with an output end penetrating into the placing groove is arranged inside the placing table body (61).

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