CN216324905U - Double-station riveting mechanism - Google Patents

Abstract

The utility model discloses a double-station riveting mechanism which comprises a first base plate, wherein a cylinder reciprocating mechanism is arranged on the first base plate, linear slide rails are arranged on the first base plate and positioned on two sides of the cylinder reciprocating mechanism, a double-station lower die core is arranged on the linear slide rails, a double-station upper die core is arranged above the double-station lower die core, an upper pressurizing cylinder mechanism and a lower pressurizing cylinder mechanism are arranged at the upper end position of the double-station upper die core, support rods are arranged on the first base plate and positioned on two sides of the double-station upper die core, and a follower wheel floating mechanism is arranged at the bottom surface position on the double-station lower die core. The double-station riveting mechanism provided by the utility model belongs to the field of riveting, and is used for replacing manual clamping by adopting structures such as a double-station lower die core and a double-station upper die core, is a module riveting designed aiming at development of PACK soft package battery cores, is stable in mechanism, high in efficiency and strong in universality, can be used for replacing the die cores to switch, and is easy for riveting different products.

Description

Double-station riveting mechanism

Technical Field

The utility model relates to the field of riveting mechanisms, in particular to a double-station riveting mechanism.

Background

The new energy field is a field which is vigorously developed at present in China, along with the continuous development of new energy automobiles, a large number of new energy automobiles and oil-electricity hybrid automobiles influence the living habits and working modes of people, advanced manufacturing technology continuously absorbs the traditional technology and is comprehensively applied to the whole manufacturing processes of product development and design, manufacturing, detection, management and after-sales service, the front-end manufacturing technology which realizes high-quality, high-efficiency, low-energy consumption, cleanness and agility manufacturing and obtains ideal technical and economic effects can be essentially said to be an organic combination of automation technology and modern intelligent technology, a more convenient trip mode is provided for human life, more favorable equipment is continuously produced through reasonable utilization of resources, more favorable equipment is provided for economic competition of various countries in the world, particularly competition of manufacturing technology, and more powerful market competitiveness is provided, with the high-speed development of economic technology and the continuous change of customer requirements and market environments, the life style of Chinese people is more and more intelligent and convenient, and the double-station riveting mechanism is a rivet for fixing an external aluminum shell of a PCAK soft package battery cell, for example; increase the safety on soft package surface, the reinforcing is pleasing to the eye, the stability of electric core etc. provides reliable technology for intelligent product, but current product riveting is not in place, can't break away from last mould benevolence or lower mould benevolence after the product riveting.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a double-station riveting mechanism which can effectively solve the problems in the background technology.

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

the double-station riveting mechanism comprises a first base plate, wherein a cylinder reciprocating mechanism is arranged on the first base plate, linear slide rails are arranged on the first base plate and positioned on two sides of the cylinder reciprocating mechanism, a double-station lower die core is arranged on each linear slide rail, a double-station upper die core is arranged above the double-station lower die core, an upper pressurizing cylinder mechanism and a lower pressurizing cylinder mechanism are arranged at the upper end position of the double-station upper die core, support rods are arranged on the first base plate and positioned on two sides of the double-station upper die core, a follower wheel floating mechanism is arranged at the bottom position on the double-station lower die core, a die holder base plate is arranged on the double-station lower die core, a lower die core guide post mechanism is arranged on the die holder base plate, a second riveting die is arranged on the die holder base plate and positioned above the lower guide post die core mechanism, and a first riveting die is arranged on the die holder base plate and positioned above the second riveting die, the die holder base plate is provided with a pressing and leveling mechanism above the first riveting die, and the die holder base plate is provided with an upper riveting guide post mechanism above the pressing and leveling mechanism.

Preferably, the outer end of the cylinder reciprocating mechanism is provided with a row limiting joint, and a cylinder gasket is arranged on the outer end of the cylinder reciprocating mechanism below the row limiting joint.

Preferably, a guide rail base plate is arranged on the first bottom plate and below the linear slide rail, and the linear slide rail is fixedly mounted on the guide rail base plate.

Preferably, the first bottom plate is provided with wedges at positions on both sides of the cylinder reciprocating mechanism.

Preferably, a limiting adjusting seat is arranged on one side of the first bottom plate, which is located on the cylinder reciprocating mechanism, a buffer seat is arranged on the other side of the first bottom plate, the limiting adjusting seat and the buffer seat are located in front of the wedge block, and a first buffer is arranged on the buffer seat.

Preferably, the inductor adjusting seat is arranged at two sides of the first bottom plate, the inductor adjusting seat is provided with an induction support, and the induction support is provided with a correlation photoelectric switch.

Preferably, the double-station upper die core is movably mounted on the supporting rod, a second bottom plate is arranged below the double-station upper die core on the supporting rod, a top plate is arranged at the upper end of the supporting rod, the upper pressurizing cylinder mechanism and the lower pressurizing cylinder mechanism are fixedly mounted on the top plate, a first cushion block is arranged at the middle position of the double-station upper die core, a first connecting block is arranged at the outer side position of the first cushion block, and the bottom ends of the upper pressurizing cylinder mechanism and the lower pressurizing cylinder mechanism are fixedly mounted with the first connecting block.

Preferably, the first bottom plate is provided with a limiting column, and the limiting column is located between the supporting rods.

Compared with the prior art, the utility model has the following beneficial effects:

according to the mechanism, manual clamping is replaced by the double-station lower die core and the double-station upper die core, the mechanism is designed for developing and riveting PACK soft package cells, the mechanism is stable, the efficiency is high, the universality is strong, the mechanism can replace the die core to switch, and different products can be easily riveted.

Drawings

FIG. 1 is a first side view schematic diagram of the present invention;

FIG. 2 is a second side view of the present invention;

fig. 3 is a third side view schematic diagram of the present invention.

In the figure: 1. a cylinder reciprocating mechanism; 2. a double-station lower mold core; 3. double-station upper die core; 4. an upper and lower pressure cylinder mechanism; 5. an upper riveting guide pillar mechanism; 6. a pressing and leveling mechanism; 7. a lower die core guide post mechanism; 8. a follower wheel floating mechanism; 9. a first base plate; 10. a linear slide rail; 11. a row limiting joint; 12. a second base plate; 13. a cylinder gasket; 14. a die holder backing plate; 15. a guide rail backing plate; 16. a top plate; 17. a first cushion block; 18. a first connection block; 19. a support bar; 20. a wedge block; 21. a first riveting die; 22. a second riveting die; 23. a limiting adjusting seat; 24. a buffer seat; 25. an inductor adjusting seat; 26. an induction support; 27. a first buffer; 28. a correlation photoelectric switch; 29. a limiting column.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-3, the double-station riveting mechanism comprises a first base plate 9, a cylinder reciprocating mechanism 1 is arranged on the first base plate 9, linear slide rails 10 are arranged on the first base plate 9 and located at two sides of the cylinder reciprocating mechanism 1, a double-station lower mold core 2 is arranged on the linear slide rails 10, a double-station upper mold core 3 is arranged above the double-station lower mold core 2, an upper pressurizing cylinder mechanism 4 and a lower pressurizing cylinder mechanism 4 are arranged at the upper end position of the double-station upper mold core 3, support rods 19 are arranged on the first base plate 9 and located at two sides of the double-station upper mold core 3, a follower wheel floating mechanism 8 is arranged at the bottom position on the double-station lower mold core 2, a mold base plate 14 is arranged on the lower mold core 2, a lower mold core guide post mechanism 7 is arranged on the mold base plate 14, a second riveting mold 22 is arranged above the lower guide post mold core mechanism 7, a first riveting mold 21 is arranged on the mold base plate 14 and located above the second riveting mold 22, a pressing and leveling mechanism 6 is arranged on the die holder backing plate 14 above the first riveting die 21, and an upper riveting guide post mechanism 5 is arranged on the die holder backing plate 14 above the pressing and leveling mechanism 6.

In this embodiment, in order to facilitate installation of the cylinder reciprocating mechanism 1, the outer end of the cylinder reciprocating mechanism 1 is provided with a bank limiting joint 11, and a cylinder gasket 13 is provided on the outer end of the cylinder reciprocating mechanism 1 at a position below the bank limiting joint 11.

In this embodiment, in order to facilitate the installation of the linear slide 10, a guide pad 15 is disposed on the first base plate 9 at a position below the linear slide 10, and the linear slide 10 is fixedly mounted on the guide pad 15.

In this embodiment, wedges 20 are provided on the first base plate 9 at positions on both sides of the cylinder reciprocating mechanism 1 in order to facilitate engagement with the follower wheel floating mechanism 8.

In this embodiment, in order to limit the buffer double-station lower die core 2, a limit adjusting seat 23 is disposed on the first bottom plate 9 at one side of the cylinder reciprocating mechanism 1, a buffer seat 24 is disposed on the first bottom plate 9 at the other side of the cylinder reciprocating mechanism 1, the limit adjusting seat 23 and the buffer seat 24 are disposed in front of the wedge 20, and a first buffer 27 is disposed on the buffer seat 24.

In this embodiment, in order to sense a product, sensor adjusting seats 25 are disposed at two side positions of the first bottom plate 9, a sensing bracket 26 is disposed on the sensor adjusting seats 25, and a correlation photoelectric switch 28 is disposed on the sensing bracket 26.

In this embodiment, in order to facilitate installation of the double-station upper mold insert 3 and the upper and lower pressurizing cylinder mechanisms 4, the double-station upper mold insert 3 is movably mounted on the support rod 19, the second bottom plate 12 is arranged below the double-station upper mold insert 3 on the support rod 19, the top end of the support rod 19 is provided with the top plate 16, the upper and lower pressurizing cylinder mechanisms 4 are fixedly mounted on the top plate 16, the middle position of the double-station upper mold insert 3 is provided with the first cushion block 17, the outer side position of the first cushion block 17 is provided with the first connecting block 18, and the bottom ends of the upper and lower pressurizing cylinder mechanisms 4 are fixedly mounted on the first connecting block 18.

In addition, the first bottom plate 9 is provided with a limiting column 29, and the limiting column 29 is located between the supporting rods 19 for limiting the position of the double-station lower mold core 2.

It should be noted that the utility model is a double-station riveting mechanism, a product is manually placed on a double-station lower die core 2, the double-station lower die core 2 is driven by a cylinder reciprocating mechanism 1 to slide on a linear slide rail 10, when the double-station lower die core 2 moves forwards and is induced by a correlation photoelectric switch 28 on an induction bracket 26 on the side surface, the double-station lower die core 2 is driven by the cylinder reciprocating mechanism 1 to a designated position and is positioned at the lower position of a double-station upper die core 3, the upper and lower pressurizing cylinder mechanisms 4 are started at the moment to drive a first connecting block 18 to move downwards, so that a first cushion block 17 moves downwards, the upper die core 3 moves downwards, the product on the double-station lower die core 2 is processed, 8 rivets are pressed and processed in the processing process, the upper and lower directions of the riveting rivets are flanged, and after the processing is completed, the upper and lower pressurizing cylinder mechanisms 4 move upwards again, the cylinder reciprocating mechanism 1 drags the double-station lower die core 2 to reset and move, so that the follower wheel floating mechanism 8 and the wedge block 20 below the double-station lower die core 2 are movably mounted with each other, the follower wheel floating mechanism 8 is ejected upwards, a product is convenient to take out, the limiting adjusting seat 23 is limited to fall off, and the first buffer 27 buffers the double-station lower die core 2.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. While only the preferred embodiment of the present invention has been illustrated and described in detail, it should be understood that the utility model is not limited thereto, but is capable of numerous changes, modifications, substitutions and alterations all falling within the scope of the appended claims without departing from the spirit and scope of the present invention as set forth herein. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. Duplex position riveting mechanism, its characterized in that: the device comprises a first base plate (9), wherein a cylinder reciprocating mechanism (1) is arranged on the first base plate (9), linear slide rails (10) are arranged on the first base plate (9) and positioned at two sides of the cylinder reciprocating mechanism (1), a double-station lower mold core (2) is arranged on the linear slide rails (10), a double-station upper mold core (3) is arranged at the upper position of the double-station lower mold core (2), an upper pressurizing cylinder mechanism (4) and a lower pressurizing cylinder mechanism (4) are arranged at the upper end position of the double-station upper mold core (3), support rods (19) are arranged on the first base plate (9) and positioned at two sides of the double-station upper mold core (3), a follower wheel floating mechanism (8) is arranged at the bottom surface position of the double-station lower mold core (2), a mold base plate (14) is arranged on the double-station lower mold core (2), and a lower mold core guide post mechanism (7) is arranged on the mold base plate (14), the die holder base plate (14) is provided with a second riveting die (22) above the lower die core guide post mechanism (7), the die holder base plate (14) is provided with a first riveting die (21) above the second riveting die (22), the die holder base plate (14) is provided with a pressing and leveling mechanism (6) above the first riveting die (21), and the die holder base plate (14) is provided with an upper riveting guide post mechanism (5) above the pressing and leveling mechanism (6).

2. The double-station riveting mechanism according to claim 1, characterized in that: the outer end position of cylinder reciprocating mechanism (1) is provided with limit row joint (11), be provided with cylinder gasket (13) in the below position that is located limit row joint (11) on the outer end of cylinder reciprocating mechanism (1).

3. The double-station riveting mechanism according to claim 2, characterized in that: a guide rail base plate (15) is arranged on the first bottom plate (9) below the linear slide rail (10), and the linear slide rail (10) is fixedly installed on the guide rail base plate (15).

4. The double-station riveting mechanism according to claim 3, characterized in that: and wedge blocks (20) are arranged on the first bottom plate (9) at the positions of two sides of the cylinder reciprocating mechanism (1).

5. The double-station riveting mechanism according to claim 4, characterized in that: the limiting and adjusting device is characterized in that a limiting and adjusting seat (23) is arranged on one side of the first bottom plate (9) located on the cylinder reciprocating mechanism (1), a buffer seat (24) is arranged on the other side of the first bottom plate (9) located on the cylinder reciprocating mechanism (1), the limiting and adjusting seat (23) and the buffer seat (24) are located in the front of the wedge block (20), and a first buffer (27) is arranged on the buffer seat (24).

6. The double-station riveting mechanism according to claim 5, characterized in that: the device is characterized in that inductor adjusting seats (25) are arranged on two sides of the first bottom plate (9), induction supports (26) are arranged on the inductor adjusting seats (25), and opposite photoelectric switches (28) are arranged on the induction supports (26).

7. The double-station riveting mechanism according to claim 6, characterized in that: mould benevolence (3) movable mounting is gone up in the duplex position on bracing piece (19), be provided with second bottom plate (12) in the position of being located mould benevolence (3) below in the duplex position on bracing piece (19), the upper end position of bracing piece (19) is provided with roof (16), upper and lower pressure cylinder mechanism (4) fixed mounting is on roof (16), the middle part position of mould benevolence (3) is provided with first cushion (17) on the duplex position, the outside position of first cushion (17) is provided with first connecting block (18), the bottom and first connecting block (18) fixed mounting of upper and lower pressure cylinder mechanism (4).

8. The double-station riveting mechanism according to claim 7, characterized in that: the first bottom plate (9) is provided with limiting columns (29), and the limiting columns (29) are located between the supporting rods (19).

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