CN113458244A - Multi-station precise full-automatic stamping device - Google Patents

Abstract

The invention relates to a multi-station precise full-automatic stamping device which comprises a bottom plate, wherein a vertical rod is fixed at the top of the bottom plate, a placing plate is fixed at the top of the vertical rod, a butting column is fixed at the top of the placing plate, a punching groove is formed in the center of the top of the butting column, a plurality of U-shaped grooves are formed in the top of the butting column, two moving blocks are connected in the U-shaped grooves in a sliding manner, a second supporting rod is fixed at the top of each moving block, a top block is fixed at the top of each second supporting rod, a second spring is fixed between the two moving blocks, two positioning rings are fixed in each U-shaped groove, the position of one positioning ring close to one side of the punching groove is higher than the position of the other positioning ring, and the two positioning rings are respectively sleeved with the corresponding second supporting rods; according to the invention, the outer ejector block is firstly contacted with the workpiece to support the workpiece, then the second spring is extruded to jack the inner ejector block and support the position near the punched hole, so that the deformation of the workpiece caused by the suspension of the bottom is avoided during punching.

Description

Multi-station precise full-automatic stamping device

Technical Field

The invention relates to the technical field of stamping, in particular to a multi-station precise full-automatic stamping device.

Background

The stamping is a forming method in which a press and a die are used to apply external force to a plate, a strip, a pipe, a profile and the like to cause plastic deformation or separation, thereby obtaining a workpiece (stamping part) with a required shape and size. Compared with castings and forgings, the stamping part has the characteristics of thinness, uniformity, lightness and strength. Stamping can produce workpieces with ribs, undulations or beads that are otherwise difficult to manufacture, to increase their rigidity.

Traditional stamping device is carrying out the during operation, the workman need stretch out the hand and put the stamping die with the work piece on, finish the back at the punching press simultaneously, need the manual work to take off the work piece, not only the process is loaded down with trivial details, and there is the potential safety hazard, consequently multistation stamping device has appeared on the market, can realize the material loading, the synchronization action of punching press and unloading, but the full-automatic stamping device of current multistation is when punching a hole to the work piece that has the cambered surface (like the pressure cooker pot cover), lead to the work piece to be poor and take place to warp easily, so provide a precise full-automatic stamping device of multistation and solve the above-mentioned problem of proposing.

In order to solve the problems, the invention provides a multi-station precise full-automatic stamping device.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the problem that workpieces are easy to deform in the prior art in the stamping process, meets the practical requirements, and provides a multi-station precise full-automatic stamping device to solve the technical problem.

(2) Technical scheme

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

the utility model provides a full-automatic stamping device of multistation precision, comprising a base plate, the bottom plate top has the montant through the bolt fastening, the montant top has the board of putting through the bolt fastening, it has the butt joint post through the bolt fastening to place the board top, butt joint post top central point puts and has seted up the punching groove, the U-shaped groove that a plurality of annular array distributes is seted up at the butt joint post top, sliding connection has two movable blocks in the U-shaped groove, the movable block top has second branch through the bolt fastening, second branch top extends to the U-shaped inslot portion and has the kicking block through the bolt fastening, there is same second spring through the bolt fastening between two movable blocks, U-shaped inslot has two holding rings that distribute from top to bottom through the bolt fastening, one of them is higher than the position of another holding ring near the holding ring of punching groove one side, and two holding rings cup joint with the second branch that corresponds respectively.

Further, the montant front end has the portal frame through the bolt fastening, and the portal frame bottom has the pneumatic cylinder through the bolt fastening, and the pneumatic cylinder output is connected with the hydraulic stem, and hydraulic stem output shaft has and punches a hole the post that punches a hole that the groove matches.

Furthermore, a deformation block is fixed at the bottom of the punching column through a bolt, a plurality of deformation grooves distributed in an annular array are formed in the bottom of the deformation block, and the deformation grooves are triangular prisms.

Furthermore, the rear end of the bottom plate is fixed with a vertical plate through a bolt, the front end of the vertical plate is fixed with a first sliding rail in an embedded mode, a first electric sliding block is connected in the first sliding rail in a sliding mode, and the front end of the first electric sliding block is fixed with a second sliding rail through a bolt.

Further, sliding connection has the electronic slider of second in the second slide rail, the electronic slider front end of second has the mounting panel through the bolt fastening, three equidistant distribution's first spout is seted up to the mounting panel front end, sliding connection has two first sliders in the first spout, there is same electric putter through the bolt fastening between first slider and the first spout inner wall, first slider front end has first branch through the bolt fastening, first branch front end has the layer board through the bolt fastening, the layer board top is provided with splint, the splint cross-section sets to the arc, place the board both sides and all seted up the groove of stepping down.

Furthermore, a second sliding groove is formed in the top of the supporting plate, a second sliding block is connected in the second sliding groove in a sliding mode, the same first spring is fixed between the second sliding block and the inner wall of the second sliding groove through bolts, and the second sliding block is fixedly connected with the clamping plate through bolts.

Further, the baffle box has been seted up to montant one side, the baffle box with punch a hole the groove intercommunication, the baffle box below is provided with collects the box, collects box and montant and articulates.

Furthermore, a material collecting box is placed on one side of the top of the bottom plate, a third sliding groove is formed in the inner wall of the rear end of the material collecting box, a third sliding block is connected in the third sliding groove in a sliding mode, a same third spring is fixed between the third sliding block and the inner wall of the third sliding groove through bolts, a material guide plate is connected to the inner wall of the rear end of the material collecting box in a rotating mode through a bearing, and a same third supporting rod is connected between the material guide plate and the third sliding block in a rotating mode through a bearing.

Furthermore, a fourth sliding groove is formed in the bottom of the material collecting box, a fourth sliding block is connected to the fourth sliding groove in a sliding mode, a same fourth spring is fixed between the fourth sliding block and the inner wall of the fourth sliding groove through bolts, a tidying plate is fixed to the top of the fourth sliding block through bolts, and a same fourth supporting rod is connected between the fourth sliding block and the third supporting rod through a bearing in a rotating mode.

(3) Has the advantages that:

A. the work piece is put on putting the board, start hydraulic cylinder, the hydraulic stem output shaft drives the post of punching a hole and moves down, punch a hole, the work piece is after the pressurized, the work piece periphery contacts with the kicking block in the outside gradually earlier, support the work piece, then the second spring receives the extrusion, the kicking block jack-up that will be located the inboard, support near position to punching a hole, and simultaneously, the air in the U-shaped inslot is also compressing, play the supporting role to two kicking blocks equally, thereby avoid when punching a hole, the work piece that has the cambered surface is because the bottom is unsettled and cause the deformation, and the cooperation through first spring and second slider, can make this splint can carry out the centre gripping to not unidimensional work piece, thereby improve the device's functionality.

B. The waste material that is cut away by punching gets into the inslot that punches a hole to at the punching press in-process, owing to be provided with the deformation piece, can make the waste material atress take place deformation, the centre forms sunkenly, can make the projected area of waste material reduce, and be provided with the deformation groove of triangular prism form, the deformation of waste material can be quickened, thereby the area that makes the waste material is less than the area in the groove that punches a hole, the waste material that can be convenient for falls down from the inslot that punches a hole, then along with the baffle box fall collect in the box and unify and collect.

C. After punching, the step of moving leftwards is repeated, two clamping plates located in the middle continue to clamp the next workpiece, the clamping plate on the rightmost side clamps the punched workpiece, after resetting, the clamping plate on the rightmost side loosens the workpiece, the workpiece slides along the material guide plate, and under the action of a third spring, the material guide plate rotates repeatedly in a small range, so that the falling speed of the workpiece is buffered, the workpiece is effectively prevented from being clamped and stopped on the material guide plate, when the workpiece falls into the material collecting box from the material guide plate, the movement of the third supporting rod drives the fourth supporting rod to move, the tidying plate is made to reciprocate along with the fourth sliding block, the workpiece is pushed, the effect of correcting the position of the workpiece is achieved, and the workpiece is automatically and orderly stacked.

Drawings

FIG. 1 is a schematic view of the overall structure of a multi-station precise full-automatic stamping device according to the present invention;

FIG. 2 is a schematic diagram of a deformable block structure of the multi-station precise full-automatic stamping device according to the present invention;

FIG. 3 is a schematic view of a mounting structure of a placing plate of the multi-station precise full-automatic stamping apparatus according to the present invention;

FIG. 4 is an enlarged schematic structural view of a position B of the multi-station precise full-automatic stamping device according to the present invention;

FIG. 5 is a schematic view of the internal structure of a docking post of the multi-station precise full-automatic stamping apparatus according to the present invention;

FIG. 6 is an enlarged schematic view of the position C of the multi-station precise full-automatic stamping device according to the present invention;

FIG. 7 is a schematic view of a vertical plate structure of a multi-station precise full-automatic stamping device according to the present invention;

FIG. 8 is an enlarged schematic view of the position A of the multi-station precise full-automatic stamping device according to the present invention;

fig. 9 is a schematic view of the internal structure of a material collecting box of the multi-station precise full-automatic stamping device.

The reference numbers are as follows:

1. a base plate; 2. a vertical rod; 3. placing a plate; 4. butting columns; 5. a U-shaped groove; 6. a second electric slider; 7. mounting a plate; 8. a first chute; 9. a first slider; 10. an electric push rod; 11. a first support bar; 12. a support plate; 13. a second chute; 14. a second slider; 15. a first spring; 16. a splint; 17. a vertical plate; 18. a first slide rail; 19. a yielding groove; 20. a first electric slider; 21. a second slide rail; 22. a moving block; 23. a second spring; 24. a positioning ring; 25. a second support bar; 26. a top block; 27. punching a hole groove; 28. a collection box; 29. a gantry; 30. a hydraulic cylinder; 31. punching a hole column; 32. a deformation block; 33. a material collecting box; 34. a third chute; 35. a third slider; 36. a third spring; 37. a material guide plate; 38. a third support bar; 39. a fourth chute; 40. a fourth slider; 41. a fourth spring; 42. trimming the plate; 43. and a fourth support bar.

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.

The invention will be further illustrated with reference to the following figures 1 to 9 and examples:

in the embodiment, as shown in fig. 1-7, a multi-station precise full-automatic stamping device comprises a base plate 1, a vertical rod 2 is fixed on the top of the base plate 1 through a bolt, a placing plate 3 is fixed on the top of the vertical rod 2 through a bolt, a docking post 4 is fixed on the top of the placing plate 3 through a bolt, a punching groove 27 is formed in the center position of the top of the docking post 4, a plurality of U-shaped grooves 5 distributed in an annular array are formed in the top of the docking post 4, two moving blocks 22 are connected in the U-shaped grooves 5 in a sliding manner, a second support rod 25 is fixed on the top of the moving block 22 through a bolt, a top block 26 is fixed on the top of the second support rod 25 and extends out of the U-shaped grooves 5 through a bolt, the same second spring 23 is fixed between the two moving blocks 22 through a bolt, two positioning rings 24 distributed up and down are fixed in the U-shaped grooves 5 through a bolt, one positioning ring 24 near one side of the punching groove 27 is higher than the other positioning ring 24, and two positioning rings 24 are respectively sleeved with the corresponding second supporting rods 25.

Further, the front end of the vertical rod 2 is fixed with a portal frame 29 through a bolt, the bottom of the portal frame 29 is fixed with a hydraulic cylinder 30 through a bolt, the output end of the hydraulic cylinder 30 is connected with a hydraulic rod, and the output shaft of the hydraulic rod is connected with a punching column 31 matched with the punching groove 27.

Furthermore, the bottom of the punching column 31 is fixed with a deformation block 32 through a bolt, the bottom of the deformation block 32 is provided with a plurality of deformation grooves distributed in an annular array, and the deformation grooves are triangular prism-shaped.

Furthermore, a vertical plate 17 is fixed at the rear end of the bottom plate 1 through a bolt, a first sliding rail 18 is fixed at the front end of the vertical plate 17 in an embedded mode, a first electric sliding block 20 is connected in the first sliding rail 18 in a sliding mode, and a second sliding rail 21 is fixed at the front end of the first electric sliding block 20 through a bolt.

Further, sliding connection has the electronic slider 6 of second in the second slide rail 21, the electronic slider 6 front end of second has mounting panel 7 through the bolt fastening, three equidistant distribution's first spout 8 is seted up to mounting panel 7 front end, sliding connection has two first sliders 9 in the first spout 8, there is same electric putter 10 through the bolt fastening between first slider 9 and the 8 inner walls of first spout, first slider 9 front end has first branch 11 through the bolt fastening, first branch 11 front end has layer board 12 through the bolt fastening, layer board 12 top is provided with splint 16, the 16 cross-sections of splint set the arc, it has all seted up groove 19 of stepping down to put 3 both sides of board.

In this embodiment, referring to fig. 8, a second sliding groove 13 is formed in the top of the supporting plate 12, a second sliding block 14 is slidably connected to the second sliding groove 13, a same first spring 15 is fixed between the second sliding block 14 and the inner wall of the second sliding groove 13 through a bolt, and the second sliding block 14 is fixedly connected to the clamping plate 16 through a bolt.

In this embodiment, referring to fig. 3, a material guiding groove is formed in one side of the vertical rod 2, the material guiding groove is communicated with the punching groove 27, a collecting box 28 is arranged below the material guiding groove, and the collecting box 28 is connected with the vertical rod 2 in a hanging manner.

In this embodiment, referring to fig. 9, a material collecting box 33 is placed on one side of the top of the bottom plate 1, a third sliding groove 34 is formed in the inner wall of the rear end of the material collecting box 33, a third sliding block 35 is slidably connected to the third sliding groove 34, a same third spring 36 is fixed between the third sliding block 35 and the inner wall of the third sliding groove 34 through a bolt, a material guide plate 37 is rotatably connected to the inner wall of the rear end of the material collecting box 33 through a bearing, and a same third support rod 38 is rotatably connected between the material guide plate 37 and the third sliding block 35 through a bearing.

Furthermore, a fourth sliding groove 39 is formed in the bottom of the material collecting box 33, a fourth sliding block 40 is connected to the fourth sliding groove 39 in a sliding mode, a same fourth spring 41 is fixed between the fourth sliding block 40 and the inner wall of the fourth sliding groove 39 through bolts, a trimming plate 42 is fixed to the top of the fourth sliding block 40 through bolts, and a same fourth supporting rod 43 is connected between the fourth sliding block 40 and the third supporting rod 38 through a bearing in a rotating mode.

The invention has the beneficial effects that:

when the punching machine is used, the mounting plate 7 is driven to move left and right through the second electric slide block 6, synchronous movement of three groups of clamping plates 16 is realized, after a workpiece is clamped from the left side by the middle group of clamping plates 16, the workpiece is moved to the initial position through the second electric slide block 6, the first electric slide block 20 is started to move downwards, after the preset position is reached, the electric push rod 10 is started to move towards two sides, the clamping plates 16 are further loosened, the workpiece is placed on the placing plate 3, the hydraulic cylinder 30 is started, the hydraulic rod output shaft drives the punching column 31 to move downwards for punching, after the workpiece is pressed, the periphery of the workpiece is gradually contacted with the outer top block 26 to support the workpiece, the second spring 23 is pressed to jack up the inner top block 26 to support the position near the punching hole, meanwhile, air in the U-shaped groove 5 is also compressed, and the two top blocks 26 are also supported, therefore, when punching is carried out, the workpiece with the cambered surface is prevented from being deformed due to suspension of the bottom, and the clamping plate 16 can clamp workpieces with different sizes through the matching of the first spring 15 and the second sliding block 14, so that the functionality of the device is improved.

Further, the waste material that is cut off by the punching gets into in the groove 27 that punches a hole, and at the punching press in-process, owing to be provided with deformation block 32, can make the waste material atress take place deformation, the centre forms sunkenly, can make the projected area of waste material reduce, and be provided with the deformation groove of triangular prism form, can accelerate the deformation of waste material, thereby make the area of waste material be less than the area of the groove 27 that punches a hole, the waste material that can be convenient for falls down from the groove 27 that punches a hole, then fall along the baffle box and collect in the collection box 28 uniformly.

Further, after the punching is completed, the step of moving leftward is repeated, the two clamping plates 16 located in the middle continue to clamp the next workpiece, the clamping plate 16 on the rightmost side clamps the punched workpiece, after the resetting, the clamping plate 16 on the rightmost side releases the workpiece, the workpiece slides down along the material guide plate 37, and under the action of the third spring 36, the material guide plate 37 rotates repeatedly in a small range, so that the falling speed of the workpiece is buffered, the workpiece is effectively prevented from being clamped and stopped on the material guide plate 37, when the workpiece falls into the material collecting box 33 from the material guide plate 37, the movement of the third supporting rod 38 drives the fourth supporting rod 43 to move, and then the tidying plate 42 reciprocates along with the fourth sliding block 40, so that the workpiece is pushed and squeezed, the effect of correcting the position of the workpiece is achieved, and the workpiece is automatically and neatly stacked.

The working principle is as follows: the mounting plate 7 is driven to move left and right by the second electric slider 6, synchronous movement of the three groups of clamping plates 16 is realized, the middle group of clamping plates 16 clamps the workpiece from the left side, the workpiece is moved to the initial position by the second electric slider 6, the first electric slider 20 is started to move downwards, the electric push rod 10 is started to move towards two sides after the workpiece reaches the preset position, then the clamping plates 16 are loosened, the workpiece is placed on the placing plate 3, the hydraulic cylinder 30 is started, the hydraulic rod output shaft drives the punching column 31 to move downwards for punching, the workpiece is gradually contacted with the top block 26 at the outer side after being pressed, the workpiece is supported, the second spring 23 is extruded, the top block 26 at the inner side is jacked up to support the position near the punched hole, meanwhile, the air in the U-shaped groove 5 is also compressed, and the two top blocks 26 are also supported, the punched waste materials enter the punching groove 27 and then fall into the collecting box 28 along the material guide groove for uniform collection, after punching is completed, the step of leftward movement is repeated, the two clamping plates 16 located in the middle continue to clamp the next workpiece, the clamping plate 16 on the rightmost side clamps the punched workpiece, after resetting, the clamping plate 16 on the rightmost side releases the workpiece, the workpiece slides down along the material guide plate 37, under the action of the third spring 36, the material guide plate 37 rotates repeatedly in a small range, when the workpiece falls into the material collecting box 33 from the material guide plate 37, the movement of the third supporting rod 38 drives the fourth supporting rod 43 to move, the tidying plate 42 reciprocates along with the fourth sliding block 40, and pushing and extruding are performed on the workpiece.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.

Claims (9)

1. A multi-station precise full-automatic stamping device comprises a bottom plate (1) and is characterized in that the top of the bottom plate (1) is fixedly connected with a vertical rod (2), the top of the vertical rod (2) is fixedly connected with a placing plate (3), the top of the placing plate (3) is fixedly connected with a butting column (4), the central position of the top of the butting column (4) is provided with a punching groove (27), the top of the butting column (4) is provided with a plurality of U-shaped grooves (5) distributed in an annular array, two movable blocks (22) are slidably connected in the U-shaped grooves (5), the top of each movable block (22) is fixedly connected with a second supporting rod (25), the top of each second supporting rod (25) extends to the outer part of the U-shaped groove (5) and is fixedly connected with a top block (26), the same second spring (23) is fixedly connected between the two movable blocks (22), and two positioning rings (24) which are vertically distributed are fixedly connected in the U-shaped grooves (5), and the two positioning rings (24) are respectively sleeved with the corresponding second supporting rods (25).

2. A multi-station precise full-automatic stamping device as claimed in claim 1, wherein: the front end of the vertical rod (2) is fixedly connected with a portal frame (29), the bottom of the portal frame (29) is fixedly connected with a hydraulic cylinder (30), the output end of the hydraulic cylinder (30) is connected with a hydraulic rod, and an output shaft of the hydraulic rod is connected with a punching column (31) matched with the punching groove (27).

3. A multi-station precise full-automatic stamping device as claimed in claim 2, wherein: the bottom of the punching column (31) is fixedly connected with a deformation block (32), a plurality of deformation grooves distributed in an annular array are formed in the bottom of the deformation block (32), and the deformation grooves are triangular prisms.

4. A multi-station precise full-automatic stamping device as claimed in claim 1, wherein: the rear end of the bottom plate (1) is fixedly connected with a vertical plate (17), a first sliding rail (18) is fixedly embedded in the front end of the vertical plate (17), a first electric sliding block (20) is connected in the first sliding rail (18) in a sliding mode, and a second sliding rail (21) is fixedly connected in the front end of the first electric sliding block (20).

5. The multi-station precise full-automatic stamping device according to claim 4, characterized in that: second slide rail (21) sliding connection has electronic slider (6) of second, electronic slider (6) front end fixedly connected with mounting panel (7) of second, first spout (8) of three equidistant distribution are seted up to mounting panel (7) front end, sliding connection has two first sliders (9) in first spout (8), the same electric putter (10) of fixedly connected with between first slider (9) and first spout (8) inner wall, first slider (9) front end fixedly connected with first branch (11), first branch (11) front end fixedly connected with layer board (12), layer board (12) top is provided with splint (16), splint (16) cross-section sets to the arc, place board (3) both sides and all seted up groove (19) of stepping down.

6. A multi-station precise full-automatic stamping device as claimed in claim 5, wherein: a second sliding groove (13) is formed in the top of the supporting plate (12), a second sliding block (14) is connected in the second sliding groove (13) in a sliding mode, a same first spring (15) is fixedly connected between the second sliding block (14) and the inner wall of the second sliding groove (13), and the second sliding block (14) and the clamping plate (16) are fixedly connected.

7. A multi-station precise full-automatic stamping device as claimed in claim 1, wherein: the guide groove is formed in one side of the vertical rod (2) and is communicated with the punching groove (27), the collecting box (28) is arranged below the guide groove, and the collecting box (28) is connected with the vertical rod (2) in a hanging mode.

8. A multi-station precise full-automatic stamping device as claimed in claim 1, wherein: the material collecting box (33) is placed on one side of the top of the bottom plate (1), a third sliding groove (34) is formed in the inner wall of the rear end of the material collecting box (33), a third sliding block (35) is connected to the inner wall of the third sliding groove (34) in a sliding mode, a same third spring (36) is fixedly connected between the third sliding block (35) and the inner wall of the third sliding groove (34), a material guide plate (37) is connected to the inner wall of the rear end of the material collecting box (33) through a bearing in a rotating mode, and a same third supporting rod (38) is connected between the material guide plate (37) and the third sliding block (35) through a bearing in a rotating mode.

9. A multi-station precise full-automatic punching device according to claim 8, characterized in that: fourth spout (39) have been seted up to case (33) bottom of gathering materials, and sliding connection has fourth slider (40) in fourth spout (39), and the same fourth spring (41) of fixedly connected with between fourth slider (40) and fourth spout (39) inner wall, fourth slider (40) top fixedly connected with neatly board (42), is connected with same fourth branch (43) through the bearing rotation between fourth slider (40) and third branch (38).

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