CN210877166U - Semi-automatic aluminum sleeve riveting terminal equipment - Google Patents

Abstract

The utility model provides a semi-automatic aluminium sheathing riveting terminal equipment, including material loading part and riveting part, the material loading part is including vibrations dish group, vibrations dish group is connected with the riveting part through straight oscillator group, the riveting part includes oil hydraulic cylinder, connecting rod and riveting mould, straight oscillator unit connection is to on the riveting mould, the riveting mould is connected to the lower extreme of oil hydraulic cylinder through the connecting rod. The utility model adopts the automatic feeding of the vibration plate, and simultaneously cooperates with the bidirectional cylinder to position the terminal, thereby replacing the operation mode of manually installing the terminal; the problem of former processing procedure manual work dress terminal inefficiency is solved, reduces the recruitment number simultaneously, has promoted production efficiency, promotes the processing procedure quality.

Description

Semi-automatic aluminum sleeve riveting terminal equipment

Technical Field

The utility model relates to a semi-automatic aluminium cover riveting equipment technical field, in particular to semi-automatic aluminium cover riveting terminal equipment.

Background

The aluminum sleeve (power shielding cover) needs to be riveted with an L-shaped terminal on the body after being blanked by a continuous die, the terminal is manually arranged on the aluminum sleeve body by the current manufacturing procedure, and then the aluminum sleeve is put on a punching machine by an operator for pressing and riveting, and the mode has the defects of low production efficiency, large manual use and high cost.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a semi-automatic aluminum sleeve riveting terminal equipment.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a semi-automatic aluminium sheathing riveting terminal equipment, includes material loading part and riveting part, the material loading part includes vibrations dish group, vibrations dish group is connected with the riveting part through straight oscillator group, the riveting part includes oil hydraulic cylinder, connecting rod and riveting mould, straight oscillator group is connected to on the riveting mould, the riveting mould is connected to the lower extreme of oil hydraulic cylinder through the connecting rod.

Furthermore, the oil hydraulic cylinder is fixed on an upper supporting plate of the machine table, the upper supporting plate of the machine table is fixed above the machine table through four supporting columns, and the machine table is connected with the rack through a connecting plate of the machine table; the bottom of the pressure cylinder is provided with a connecting rod, and the connecting rod penetrates through the upper supporting plate of the machine table and extends into the die shank at the top of the riveting die; two through holes are formed in the upper supporting plate of the machine table, guide pillars are connected in the through holes respectively, one ends of the guide pillars are fixed on the riveting die, and the other ends of the guide pillars penetrate through the upper supporting plate of the machine table.

Further, the riveting die comprises a die handle, a connecting block, an upper die holder, an upper backing plate, an upper clamping plate, a stripper plate, an upper die plate, a guide pillar, a lower die plate, an inner guide pillar, an outer clamping plate, a baffle plate, a push rod, a lower baffle plate, a lower backing plate, a pad foot, a lower supporting plate, a first cover plate, a second cover plate and a lower pad block, the die handle is fixed at the top of the upper die holder through a connecting block, an upper base plate and an upper clamping plate are sequentially connected below the upper die holder, a stripper plate is connected below the upper clamping plate, an upper template is connected below the stripper plate and positioned above the lower template, an inner guide post and an outer clamping plate are arranged below the lower template, the outer clamping plate is fixed on the push rod, a lower baffle plate is arranged below the push rod, the lower baffle is fixed on the lower backing plate, the lower part of the lower backing plate is fixed on the lower supporting plate through two pad feet, and the lower supporting plate is fixed on the machine table;

a double-rod cylinder is arranged in a cavity defined by the lower base plate, the pad feet and the lower supporting plate, a baffle is connected to a cylinder push rod on one side of the double-rod cylinder, a push rod is further connected to the baffle, and when the double-rod cylinder pushes the baffle to move through the cylinder push rod, the push rod and an outer clamping plate and a lower template on the upper portion of the push rod move together;

the upper surface of one end of the lower baffle close to the direct vibrator group is connected with two lower cushion blocks, the top of each lower cushion block is fixed with a second cover plate, the second cover plate is provided with a first cover plate, and the first cover plate and the second cover plate are arranged right at the end of the direct vibrator group.

Further, the vibration plate group is fixed on a machine table lower base plate, the machine table lower base plate is connected to a machine table lower base through four springs, and the machine table lower base plate is fixed on the rack.

Further, the bottom of board and frame is equipped with the shock attenuation callus on the sole, the upper surface of board is equipped with two start button.

Furthermore, a proximity switch fixing seat is arranged at the top of the upper supporting plate of the machine table, a proximity switch is mounted on the proximity switch fixing seat, and the proximity switch fixing seat and the proximity switch are positioned on one side of the oil hydraulic cylinder; and an emergency stop button is arranged on the side surface of the upper supporting plate of the machine table.

Furthermore, the lower part of the stripper plate is connected to the lower backing plate through a guide post.

Furthermore, a photoelectric switch II is arranged between the lower cushion blocks and is over against the end part of the push rod.

Furthermore, a first photoelectric switch is arranged at the joint of the straight vibrator set and the riveting die.

Further, the straight vibrator group comprises a straight vibrator and a straight vibration groove, the straight vibration groove is connected between the vibration plate group and the riveting die, and the straight vibrator is fixed between the straight vibration groove and the machine table.

The utility model discloses the beneficial effect who brings is: the vibration disc is adopted for automatic feeding, and the bidirectional air cylinder is matched for positioning the terminal, so that the operation mode of manually installing the terminal is replaced; the problem of former processing procedure manual work dress terminal inefficiency is solved, reduces the recruitment number simultaneously, has promoted production efficiency, promotes the processing procedure quality.

Drawings

Fig. 1 is a perspective view of the structure of the present invention.

Fig. 2 is a front view of the structure of the present invention.

Fig. 3 is a top view of the structure of the present invention.

Fig. 4 is a perspective view of the riveting die of the present invention.

Fig. 5 is a front view of the riveting die of the present invention.

Fig. 6 is a right side view of the riveting die of the present invention.

Fig. 7 is a cross-sectional view taken along the line C-C in fig. 6 according to the present invention.

Reference numbers in the figures:

1. a shock-absorbing foot pad; 2. a frame; 3. a lower die holder of the machine table; 4. a machine table lower base plate; 5. a spring; 6. vibrating the disc pack; 7. a direct vibration unit; 8. an oil hydraulic cylinder; 9. a proximity switch holder; 10. a proximity switch; 11. a supporting plate is arranged on the machine table; 12, a guide post; 13. a connecting rod; 14. riveting the mould; 15. a double-rod cylinder; 16. connecting a machine table; 17. an emergency stop button; 18. a first photoelectric switch; 19. a photoelectric switch II; 20. a start button; 21. a die shank; 22. connecting blocks; 23. an upper die holder; 24. an upper base plate; 25. an upper splint; 26. a material removing plate; 27. mounting a template; 29. a lower template; 30. an inner guide post; 31. an outer splint; 32. a baffle plate; 33. a push rod; 34. a lower baffle plate; 35. a lower base plate; 36. a foot pad; 37. a lower supporting plate; 38. a first cover plate; 39. a second cover plate; 40. and (5) filling the block.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

As shown in fig. 1 to 7, a semi-automatic aluminum bushing rivet terminal device includes a feeding portion and a rivet portion, the feeding portion includes a vibration plate set 6, the vibration plate set 6 is connected to the rivet portion through a straight vibration plate set 7, the rivet portion includes an oil pressure cylinder 8, a connecting rod 13 and a rivet mold 14, the straight vibration plate set 7 is connected to the rivet mold 14, and the rivet mold 14 is connected to a lower end of the oil pressure cylinder 8 through the connecting rod 13.

The oil hydraulic cylinder 8 is fixed on a machine table upper supporting plate 11, the machine table upper supporting plate 11 is fixed above a machine table through four supporting columns, and the machine table is connected with the rack 2 through a machine table connecting sheet 16; the bottom of the pressure cylinder 8 is provided with a connecting rod 13, and the connecting rod 13 penetrates through the upper supporting plate 11 of the machine table and extends into a die shank 21 at the top of the riveting die 14; two through holes are formed in the machine table upper supporting plate 11, guide pillars 12 are connected in the through holes respectively, one end of each guide pillar 12 is fixed on the riveting die 14, and the other end of each guide pillar passes through the machine table upper supporting plate 11.

The riveting die 14 comprises a die shank 21, a connecting block 22, an upper die base 23, an upper backing plate 24, an upper clamping plate 25, a stripper plate 26, an upper die plate 27, a guide post 12, a lower die plate 29, an inner guide post 30, an outer clamping plate 31, a baffle 32, a push rod 33, a lower baffle 34, a lower backing plate 35, a pad foot 36, a lower supporting plate 37, a first cover plate 38, a second cover plate 39 and a lower padding block 40, wherein the die shank 21 is fixed on the top of the upper die base 23 through the connecting block 22, the upper backing plate 24 and the upper clamping plate 25 are sequentially connected below the upper die base 23, the stripper plate 26 is connected below the upper clamping plate 25, the upper die plate 27 is connected below the stripper plate 26, the upper die plate 27 is positioned above the lower die plate 29, the inner guide post 30 and the outer clamping plate 31 are arranged below the lower die plate 29, the outer clamping plate 31 is fixed on the push rod 33, the lower baffle 34 is arranged below the push rod 33, and, the lower part of the lower backing plate 35 is fixed on a lower supporting plate 37 through two backing feet 36, and the lower supporting plate 37 is fixed on a machine table;

a double-rod cylinder 15 is placed in a cavity defined by the lower cushion plate 35, the cushion foot 36 and the lower supporting plate 37, a baffle 32 is connected to a cylinder push rod on one side of the double-rod cylinder 15, a push rod 33 is further connected to the baffle 32, and when the double-rod cylinder 15 pushes the baffle 32 to move through the cylinder push rod, the push rod 33 and an outer clamping plate 31 and a lower template 29 on the upper portion of the push rod move together;

the upper surface of one end of the lower baffle 34 close to the direct vibration unit 7 is connected with two lower cushion blocks 40, the top of each lower cushion block 40 is fixed with a second cover plate 39, the second cover plate 39 is provided with a first cover plate 38, the first cover plate 38 and the second cover plate 39 are arranged right at the end part of the direct vibration unit 7, and the terminal enters a gap between the first cover plate 38 and the second cover plate 3 after coming out along the direct vibration unit 7, so as to enter the lower template 29.

The vibration disc group 6 is fixed on a machine table lower cushion plate 4, the machine table lower cushion plate 4 is connected on a machine table lower die base 3 through four springs 5, and the machine table lower die base 3 is fixed on the rack 2.

The bottom of board and frame 2 is equipped with shock attenuation callus on the sole 1, the upper surface of board is equipped with two start button 20, and two start button 20 need be pressed simultaneously to the hydraulic cylinder 8 during operation, play the guard action.

A proximity switch fixing seat 9 is arranged at the top of the machine table upper supporting plate 11, a proximity switch 10 is installed on the proximity switch fixing seat 9, the proximity switch 10 is used for detecting the position of a guide pillar 12 on the machine table upper supporting plate 11, and the proximity switch fixing seat 9 and the proximity switch 10 are located on one side of the oil hydraulic cylinder 8; and an emergency stop button 17 is arranged on the side surface of the machine table upper supporting plate 11.

The lower part of the stripper plate 26 is connected to the lower backing plate 35 through the guide post 12, and the stripper plate 26 can slide up and down along the guide post 12.

And a second photoelectric switch 19 is arranged between the lower cushion blocks 40, the second photoelectric switch 19 is arranged right opposite to the end part of the push rod 33, and the second photoelectric switch 19 detects the front and rear positions of the movement of the push rod 33, so that the position of a terminal on the lower template 29 is determined.

A first photoelectric switch 18 is arranged at the joint of the linear vibrator set 7 and the riveting die 14, and the first photoelectric switch 18 detects whether a terminal coming out along the linear vibrator set 7 reaches the riveting die 14.

The direct vibration unit 7 comprises a direct vibration device and a direct vibration groove, the direct vibration groove is connected between the vibration plate unit 6 and the riveting die 14, the direct vibration device is fixed between the direct vibration groove and the machine table, and the direct vibration device enables the lead terminal in the direct vibration groove to move forward through vibration.

The present invention will be further explained with reference to the drawings and the working principle.

After the equipment is powered on, an L-shaped terminal is poured into the vibrating disc set 6, the vibrating disc set 6 starts to vibrate and feed, the terminal enters the riveting die 14 after passing through the straight vibrator set 7, the first photoelectric switch 18 drives the double-rod cylinder 15 to move after sensing the terminal, the terminal on the lower template 29 is sent to a designated position of the die by pushing the lower template 29, the position is detected by the second photoelectric switch 19, an operator puts a product into the die at the moment, simultaneously presses the two start buttons 20, the oil pressure cylinder 8 is actuated at the moment, the upper template 27 of the riveting die 14 is pushed downwards by the connecting rod 13, an upper die descends to be riveted, and after riveting is finished, the oil pressure cylinder 8 returns to the original point; repeating the above steps and processing circularly.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can be covered within the protection scope of the present invention without the changes or substitutions thought by the inventive work within the technical scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (10)

1. The utility model provides a semi-automatic aluminium sheathing riveting terminal equipment, characterized in that, includes material loading portion and riveting portion, the material loading portion includes vibrations dish group (6), vibrations dish group (6) are connected with the riveting portion through straight oscillator group (7), the riveting portion includes oil hydraulic cylinder (8), connecting rod (13) and riveting mould (14), straight oscillator group (7) are connected to on riveting mould (14), riveting mould (14) are connected to the lower extreme of oil hydraulic cylinder (8) through connecting rod (13).

2. The semi-automatic aluminum sleeve riveting terminal equipment as claimed in claim 1, wherein the oil hydraulic cylinder (8) is fixed on a machine table upper supporting plate (11), the machine table upper supporting plate (11) is fixed above a machine table through four supporting columns, and the machine table is connected with the rack (2) through a machine table connecting sheet (16); the bottom of the pressure cylinder (8) is provided with a connecting rod (13), and the connecting rod (13) penetrates through the upper supporting plate (11) of the machine table and extends into a die shank (21) at the top of the riveting die (14); the riveting die is characterized in that two through holes are formed in the machine table upper supporting plate (11), guide pillars (12) are connected in the through holes respectively, one end of each guide pillar (12) is fixed to the riveting die (14), and the other end of each guide pillar penetrates through the machine table upper supporting plate (11).

3. The semi-automatic aluminum bushing riveting terminal equipment of claim 1 or 2, wherein the riveting die (14) comprises a die shank (21), a connecting block (22), an upper die base (23), an upper backing plate (24), an upper clamping plate (25), a stripper plate (26), an upper die plate (27), a guide post (12), a lower die plate (29), an inner guide post (30), an outer clamping plate (31), a baffle (32), a push rod (33), a lower baffle plate (34), a lower backing plate (35), a backing foot (36), a lower backing plate (37), a first cover plate (38), a second cover plate (39) and a lower padding block (40), the die shank (21) is fixed on the top of the upper die base (23) through the connecting block (22), the upper backing plate (24) and the upper clamping plate (25) are sequentially connected below the upper die base (23), the stripper plate (26) is connected below the upper clamping plate (25), an upper template (27) is connected below the stripper plate (26), the upper template (27) is positioned above a lower template (29), an inner guide post (30) and an outer clamping plate (31) are arranged below the lower template (29), the outer clamping plate (31) is fixed on a push rod (33), a lower baffle (34) is arranged below the push rod (33), the lower baffle (34) is fixed on a lower backing plate (35), the lower part of the lower backing plate (35) is fixed on a lower supporting plate (37) through two backing feet (36), and the lower supporting plate (37) is fixed on a machine table;

a double-rod cylinder (15) is placed in a cavity defined by the lower backing plate (35), the backing foot (36) and the lower supporting plate (37), a baffle (32) is connected to a cylinder push rod on one side of the double-rod cylinder (15), a push rod (33) is further connected to the baffle (32), and when the double-rod cylinder (15) pushes the baffle (32) to move through the cylinder push rod, the push rod (33) and an outer clamping plate (31) and a lower backing plate (29) on the upper portion of the push rod move together;

baffle (34) are close to one end upper surface of straight group of shaking (7) down and have two lower income blocks (40), it is fixed with apron two (39) to fill up in block (40) top down, be equipped with apron one (38) on apron two (39), apron one (38) and apron two (39) are just to the tip setting of straight group of shaking (7).

4. The semi-automatic aluminum sleeve riveting terminal equipment as claimed in claim 1, wherein the vibrating disc set (6) is fixed on a machine table lower cushion plate (4), the machine table lower cushion plate (4) is connected on a machine table lower seat (3) through four springs (5), and the machine table lower seat (3) is fixed on the rack (2).

5. The semi-automatic aluminum sleeve riveting terminal equipment as claimed in claim 2, wherein the bottom of the machine table and the rack (2) is provided with a shock absorption foot pad (1), and the upper surface of the machine table is provided with two start buttons (20).

6. The semi-automatic aluminum sleeve riveting terminal equipment according to claim 2, wherein a proximity switch fixing seat (9) is arranged at the top of the machine table upper supporting plate (11), a proximity switch (10) is mounted on the proximity switch fixing seat (9), and the proximity switch fixing seat (9) and the proximity switch (10) are positioned on one side of the oil hydraulic cylinder (8); and an emergency stop button (17) is arranged on the side surface of the machine table upper supporting plate (11).

7. A semi-automatic aluminum bushing riveting terminal equipment according to claim 3, characterized in that the lower part of the stripper plate (26) is connected on the lower backing plate (35) through the guide post (12).

8. The semi-automatic aluminum sleeve riveting terminal equipment as claimed in claim 3, wherein a second photoelectric switch (19) is arranged between the lower cushion blocks (40), and the second photoelectric switch (19) is arranged opposite to the end part of the push rod (33).

9. The semi-automatic aluminum sleeve riveting terminal equipment according to claim 1, wherein a first photoelectric switch (18) is arranged at the joint of the straight vibrator set (7) and the riveting die (14).

10. A semi-automatic aluminium sleeve riveting terminal device according to claim 1, wherein the straight vibrator group (7) comprises a straight vibrator and a straight vibration groove, the straight vibration groove is connected between the vibrating plate group (6) and the riveting die (14), and the straight vibrator is fixed between the straight vibration groove and the machine table.

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