CN212191203U - Zinc-aluminum alloy die casting multi-process composite punching device - Google Patents

Abstract

The utility model relates to the technical field of punching equipment, in particular to a zinc-aluminum alloy die casting multi-process composite punching device, which comprises four aluminum profile supporting columns, wherein the top parts of the four aluminum profile supporting columns are all provided with a bottom plate through angle iron, the outer end surfaces of a first air cylinder fixing seat, a second air cylinder fixing seat, a third air cylinder fixing seat and a fourth air cylinder fixing seat are respectively and fixedly provided with a first small air cylinder, a second small air cylinder, a third small air cylinder and a fourth small air cylinder, the utility model has strong practicability, after a cutter is installed, the product can be punched for three times by arranging four small air cylinders and a large air cylinder, and each air cylinder is connected with a cutter installation seat, thereby the punching requirement of the zinc-aluminum alloy die casting is met, the defect that one traditional punch can only punch one action is changed, effectively saves time, reduces labor cost and improves working efficiency.

Description

Zinc-aluminum alloy die casting multi-process composite punching device

Technical Field

The utility model belongs to the technical field of die-cut equipment technique and specifically relates to a compound die-cut device of zinc-aluminum alloy die casting multiple operation.

Background

Zinc-aluminium alloy die casting is in the in-process of processing, generally need die-cut to the unnecessary structure and the flash on its surface, and traditional way is: adopt three punches to die-cut the product, because the product structure is comparatively complicated, can not all disposable swoves die-cut, so every punch can only die-cut an action, accomplish three punches of whole die-cut processing needs, so, the equipment cost of product processing will increase substantially, moreover, every punch of tradition all needs a staff operation, three punch works need tribit staff promptly, the cost of labor expenditure is great relatively, and simultaneously, constantly change the product to different punches on, the time that installation and dismantlement used is more, lead to work efficiency to descend.

Disclosure of Invention

The utility model provides a not enough to prior art, the utility model provides a compound die-cut device of zinc-aluminium alloy die casting multiple operation, this die-cut device can carry out the die-cut action of cubic through simple structural design on an equipment, and then satisfies the die-cut requirement of zinc-aluminium alloy die casting, has effectively practiced thrift the time, reduces the cost of labor and improves work efficiency.

The technical scheme of the utility model is that:

the utility model provides a compound die-cut device of zinc-aluminum alloy die casting multiple operation which characterized in that: it includes the aluminium alloy support column, the quantity of aluminium alloy support column is four, aluminium alloy enhancement post is all installed through the angle bar in the bottom between aluminium alloy support column and the aluminium alloy support column, the bottom plate is all installed jointly through the angle bar in the top of four aluminium alloy support columns, the board controller is installed to the bottom surface of bottom plate, first cylinder fixing base and second cylinder fixing base are installed respectively at both ends around the top surface of bottom plate, the third cylinder fixing base is installed to the top surface left end of bottom plate, electronic guide rail is installed to the top surface right-hand member of bottom plate, the top surface of electronic guide rail is connected with the slider backing plate through the slider, the fourth cylinder fixing base is installed to the top surface of slider backing plate, the outer terminal surface of first small-size cylinder, second cylinder fixing base, third cylinder fixing base and fourth cylinder fixing base is fixed mounting, The first small cylinder, the second small cylinder, the third small cylinder and the fourth small cylinder are respectively welded with a first tool mounting seat, a second tool mounting seat, a third tool mounting seat and a fourth tool mounting seat through push rods, the first tool mounting seat, the second tool mounting seat, the third tool mounting seat and the fourth tool mounting seat are respectively and slidably mounted on the inner end faces of the first cylinder fixing seat, the second cylinder fixing seat, the third cylinder fixing seat and the fourth cylinder fixing seat, the left end of the sliding block base plate is welded with a product fixing block, four support columns are respectively arranged between the first cylinder fixing seat and the second cylinder fixing seat and between the third cylinder fixing seat and the fourth cylinder fixing seat, and the top faces of the four support columns are jointly welded with an upper die fixing plate, the novel tool bit is characterized in that a large-scale cylinder mounting seat is fixedly mounted on the top surface of the upper fixing plate, a large-scale cylinder is fixedly mounted on the top surface of the upper fixing plate and located inside the large-scale cylinder mounting seat, a fifth tool mounting seat is welded to the top surface of the upper fixing plate through a push rod end communicated with the upper fixing plate, a pressing plate is connected to the middle of the bottom surface of the fifth tool mounting seat through a compression spring, and a gap is formed between the fifth tool mounting seat and the pressing plate.

Furthermore, a switch controller is fixedly mounted at the rear end of the fourth cylinder fixing seat, and the switch controller is electrically connected with the machine table controller.

Further, a rotary button switch is installed on the switch controller and electrically connected with the switch controller.

Furthermore, the front end of the fourth cylinder fixing seat is respectively and fixedly provided with a flat button switch and an emergency stop button switch, and the flat button switch and the emergency stop button switch are respectively and electrically connected with the switch controller.

Furthermore, the first small cylinder, the second small cylinder, the third small cylinder, the fourth small cylinder, the electric guide rail and the large cylinder are respectively electrically connected with the switch controller.

Furthermore, a through hole for allowing the fifth tool mounting seat to pass through the tool is formed in the pressing plate.

The utility model has the advantages that: the utility model discloses the practicality is strong, through being equipped with four small-size cylinders and a large-scale cylinder, and all be connected with the cutter mount pad on every cylinder, with the good back of cutter installation, can realize carrying out the cubic die-cut to the product, and then satisfy the die-cut requirement of zinc-aluminum alloy die casting, changed traditional punch press can only die-cut not enough of an action of product, has effectively practiced thrift the time, reduces the cost of labor and improves work efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the present invention;

fig. 3 is a side view of the present invention.

In the figure, 1, an aluminum profile supporting column; 2. angle iron; 3. an aluminum section reinforcing column; 4. a base plate; 5. a machine controller; 6. a first cylinder fixing seat; 7. a second cylinder fixing seat; 8. a third cylinder fixing seat; 9. an electric rail; 10. a slide block backing plate; 11. a fourth cylinder fixing seat; 12. a first small cylinder; 13. a second small cylinder; 14. a third small cylinder; 15. a fourth small cylinder; 16. a first tool mount; 17. a second tool mount; 18. a third tool mounting seat; 19. a fourth tool mount; 20. fixing blocks for products; 21. a support pillar; 22. an upper die fixing plate; 23. a large cylinder mount; 24. a large cylinder; 25. a fifth tool mounting seat; 26. a compression spring; 27. pressing a plate; 28. a switch controller; 29. a rotary button switch; 30. a flat button switch; 31. scram button switch.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

as shown in fig. 1-3, a zinc-aluminum alloy die casting multi-process composite punching device comprises aluminum profile support columns 1, the number of the aluminum profile support columns 1 is four, aluminum profile reinforcing columns 3 are mounted at the bottoms between the aluminum profile support columns 1 and the aluminum profile support columns 1 through angle irons 2, bottom plates 4 are mounted at the tops of the four aluminum profile support columns 1 through the angle irons 2, a machine controller 5 is mounted at the bottom surface of each bottom plate 4, a first cylinder fixing seat 6 and a second cylinder fixing seat 7 are mounted at the front end and the rear end of the top surface of each bottom plate 4 respectively, a third cylinder fixing seat 8 is mounted at the left end of the top surface of each bottom plate 4, an electric guide rail 9 is mounted at the right end of the top surface of each bottom plate 4, a slider base plate 10 is connected to the top surface of each electric guide rail 9 through a slider, and a, the outer end faces of the first cylinder fixing seat 6, the second cylinder fixing seat 7, the third cylinder fixing seat 8 and the fourth cylinder fixing seat 11 are respectively and fixedly provided with a first small cylinder 12, a second small cylinder 13, a third small cylinder 14 and a fourth small cylinder 15, the first small cylinder 12, the second small cylinder 13, the third small cylinder 14 and the fourth small cylinder 15 are respectively welded with a first cutter mounting seat 16, a second cutter mounting seat 17, a third cutter mounting seat 18 and a fourth cutter mounting seat 19 through push rods, the first cutter mounting seat 16, the second cutter mounting seat 17, the third cutter mounting seat 18 and the fourth cutter mounting seat 19 are respectively and slidably mounted on the inner end faces of the first cylinder fixing seat 6, the second cylinder fixing seat 7, the third cylinder fixing seat 8 and the fourth cylinder fixing seat 11, the left end of the sliding block base plate 10 is welded with a product fixing block 20, be provided with four support columns 21 between first cylinder fixing base 6 and the second cylinder fixing base 7 and between third cylinder fixing base 8 and the fourth cylinder fixing base 11 respectively, four common welding of top surface of support column 21 have an upper fixing plate 22, the top surface fixed mounting of upper fixing plate 22 has large-scale cylinder mount pad 23, the inside fixed mounting that the top surface of upper fixing plate 22 just is located large-scale cylinder mount pad 23 has large-scale cylinder 24, the welding of push rod end intercommunication upper fixing plate 22 on the large-scale cylinder 24 has fifth cutter mount pad 25, the bottom surface middle part of fifth cutter mount pad 25 is connected with clamp plate 27 through compression spring 26, form the clearance between fifth cutter mount pad 25 and the clamp plate 27.

The rear end of the fourth cylinder fixing seat 11 is fixedly provided with a switch controller 28, and the switch controller 28 is electrically connected with the machine table controller 5.

The switch controller 28 is provided with a rotary button switch 29, and the rotary button switch 29 is electrically connected with the switch controller 28. Through being equipped with the rotary button switch, can be convenient for the technical staff debugs equipment.

The front end of the fourth cylinder fixing seat 11 is fixedly provided with a flat button switch 30 and an emergency stop button switch 31 respectively, and the flat button switch 30 and the emergency stop button switch 31 are electrically connected with the switch controller 28 respectively. The emergency stop button switch is used for suddenly stopping and closing the equipment in an emergency situation.

The first small cylinder 12, the second small cylinder 13, the third small cylinder 14, the fourth small cylinder 15, the electric guide rail 9 and the large cylinder 24 are electrically connected with a switch controller 28 respectively.

The pressing plate 27 is provided with a through hole (not shown) for allowing the fifth tool mounting base 25 to pass through a tool. The through hole is convenient for the cutter to penetrate through the pressing plate and then punch the product.

The utility model discloses a theory of operation does: before work, firstly, corresponding cutters are installed on the cutter installation seats, particularly, the cutters on the fifth cutter installation seat 25 need to penetrate through holes in the pressing plate 27 and then are connected with the fifth cutter installation seat 25, a cutter head is downward, then a work program is set in the machine controller 5, the machine controller 5 can transmit a signal of the program to the switch controller 28, and then each air cylinder and the electric guide rail 9 are controlled to move, when the machine works, a worker puts a product on the product fixing block 20, then the worker presses the flat button switch 30, the machine starts to work, firstly, the electric guide rail 9 can drive the sliding block base plate 10 to move leftwards, and then the product is pushed to the lower part of the fifth cutter installation seat 25, then the large air cylinder 24 pushes the fifth cutter installation seat 25 and the pressing plate 27 to press downwards, when the pressing plate 27 contacts the product, the product can be pressed, and when the large air cylinder 24 continues to push, due to the action of the compression spring 26, the cutter on the fifth cutter mounting seat 25 can penetrate through the through hole to perform first punching on a product, after the first punching is completed, the large air cylinder 24 resets to retract the fifth cutter mounting seat 25 and the cutter thereof to the position where the pressing plate 27 originally just presses the product, namely, the fifth cutter mounting seat 25 and the cutter thereof retract, the pressing plate 27 continues to compress the product, then the first small air cylinder 12 and the second small air cylinder 13 respectively push the cutter mounting seat and the cutter connected therewith to move forwards, further, the product is subjected to second punching, after the second punching is completed, the first small air cylinder 12 and the second small air cylinder 13 simultaneously reset to retract the cutter mounting seat and the cutter connected therewith to the original positions, then the third small air cylinder 14 and the fourth small air cylinder 15 respectively push the cutter mounting seat and the cutter connected therewith to move forwards, and then carry out die-cut the third time to the product, after die-cut the third time finishes, third small-size cylinder 14 and fourth small-size cylinder 15 reset simultaneously, shrink to original position with its connected cutter mount pad and cutter on, finally, the die-cut of product finishes, electronic guide rail 9 will drive slider backing plate 10 and move back to the right, move fourth cylinder fixing base 11 to the position before processing, at this moment, the staff will take out the product after the processing, will wait that the product of processing continues to put on product fixed block 20, continue to carry out the die-cut work of processing of next round.

The utility model has the advantages that: the utility model discloses the practicality is strong, through being equipped with four small-size cylinders and a large-scale cylinder 24, and all be connected with the cutter mount pad on every cylinder, with the good back of cutter installation, can realize carrying out the cubic die-cut to the product, and then satisfy the die-cut requirement of zinc-aluminium alloy die casting, changed traditional punch press can only die-cut not enough of an action of product, effectively practiced thrift the time, reduce the cost of labor and improve work efficiency.

The foregoing embodiments and description have been provided to illustrate the principles and preferred embodiments of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed.

Claims (6)

1. The utility model provides a compound die-cut device of zinc-aluminum alloy die casting multiple operation which characterized in that: the aluminum profile supporting column comprises aluminum profile supporting columns (1), the number of the aluminum profile supporting columns (1) is four, aluminum profile reinforcing columns (3) are mounted at the bottoms between the aluminum profile supporting columns (1) and the aluminum profile supporting columns (1) through angle irons (2), a bottom plate (4) is mounted at the tops of the four aluminum profile supporting columns (1) through angle irons (2), a machine table controller (5) is mounted at the bottom surface of the bottom plate (4), a first air cylinder fixing seat (6) and a second air cylinder fixing seat (7) are mounted at the front end and the rear end of the top surface of the bottom plate (4) respectively, a third air cylinder fixing seat (8) is mounted at the left end of the top surface of the bottom plate (4), an electric guide rail (9) is mounted at the right end of the top surface of the bottom plate (4), the top surface of the electric guide rail (9) is connected with a sliding block backing plate (10, the outer end faces of the first cylinder fixing seat (6), the second cylinder fixing seat (7), the third cylinder fixing seat (8) and the fourth cylinder fixing seat (11) are respectively and fixedly provided with a first small cylinder (12), a second small cylinder (13), a third small cylinder (14) and a fourth small cylinder (15), the first small cylinder (12), the second small cylinder (13), the third small cylinder (14) and the fourth small cylinder (15) are respectively welded with a first cutter mounting seat (16), a second cutter mounting seat (17), a third cutter mounting seat (18) and a fourth cutter mounting seat (19) through push rods, and the first cutter mounting seat (16), the second cutter mounting seat (17), the third cutter mounting seat (18) and the fourth cutter mounting seat (19) are respectively installed on the first cylinder fixing seat (6), the second cylinder fixing seat (7) in a sliding mode, On the inner end face of a third cylinder fixing seat (8) and a fourth cylinder fixing seat (11), a product fixing block (20) is welded at the left end of a slider base plate (10), four supporting columns (21) are respectively arranged between a first cylinder fixing seat (6) and a second cylinder fixing seat (7) and between the third cylinder fixing seat (8) and the fourth cylinder fixing seat (11), an upper fixing plate (22) is welded on the top surfaces of the four supporting columns (21) together, a large cylinder mounting seat (23) is fixedly installed on the top surface of the upper fixing plate (22), a large cylinder (24) is fixedly installed on the top surface of the upper fixing plate (22) and positioned inside the large cylinder mounting seat (23), a push rod end on the large cylinder (24) is communicated with the upper fixing plate (22) and welded with a fifth cutter mounting seat (25), and a pressing plate (27) is connected to the middle part of the bottom surface of the fifth cutter mounting seat (25) through a compression spring (26, and a gap is formed between the fifth cutter mounting seat (25) and the pressure plate (27).

2. The multi-process composite die-cutting device for the zinc-aluminum alloy die-casting piece according to claim 1, wherein: the rear end fixed mounting of fourth cylinder fixing base (11) has on-off controller (28), on-off controller (28) and board controller (5) electric connection.

3. The multi-process composite die-cutting device for the zinc-aluminum alloy die-casting piece according to claim 2, wherein: the switch controller (28) is provided with a rotary button switch (29), and the rotary button switch (29) is electrically connected with the switch controller (28).

4. A zinc-aluminium alloy die casting multi-process composite die cutting device according to claim 3, characterized in that: the front end of the fourth cylinder fixing seat (11) is respectively and fixedly provided with a flat button switch (30) and an emergency stop button switch (31), and the flat button switch (30) and the emergency stop button switch (31) are respectively and electrically connected with the switch controller (28).

5. The multi-process composite die-cutting device for the zinc-aluminum alloy die-casting piece according to claim 4, wherein: the first small cylinder (12), the second small cylinder (13), the third small cylinder (14), the fourth small cylinder (15), the electric guide rail (9) and the large cylinder (24) are respectively electrically connected with the switch controller (28).

6. The multi-process composite die-cutting device for the zinc-aluminum alloy die-casting piece according to claim 5, wherein: and a through hole for allowing the fifth cutter mounting seat (25) to pass through a cutter is formed in the pressing plate (27).

Images