CN115971343A - Intelligent continuous machining stamping die - Google Patents

Abstract

An intelligent continuous processing stamping die comprises a lower die base and an upper die base; the bottom of the upper die base is provided with a stamping head; the connecting seat is provided with a lifting mechanism which acts on the upper die base; the second connecting piece is arranged on the upper die base, and a second limiting cylinder is arranged on the second connecting piece; a connecting rod is arranged on the second limiting cylinder, and a cutter is arranged at the bottom end of the connecting rod; a conveying roller is arranged on the first rotating shaft, and a press roller is arranged on the second rotating shaft; the two first rotating shafts are respectively provided with a belt pulley, and the transmission belt is in transmission connection with the two belt pulleys; a third guide groove is formed in the bearing seat, and a bidirectional screw is arranged in the third guide groove; second moving pieces are arranged on two sides of the third guide groove and are in threaded connection with the bidirectional screw; the limiting guide plate is arranged on the second moving piece. The invention integrates the functions of conveying, continuous stamping, cutting and collecting, has various functions, simple operation, time and labor saving and excellent use effect, obviously improves the stamping efficiency and is suitable for popularization and use.

Description

Intelligent continuous machining stamping die

Technical Field

The invention relates to the technical field of stamping dies, in particular to an intelligent continuous machining stamping die.

Background

The stamping is a forming processing method which applies external force to plates, strips, pipes, profiles and the like by a press and a die to cause the plates, the strips, the pipes, the profiles and the like to generate plastic deformation or separation so as to obtain workpieces (stamping parts) with required shapes and sizes; the stamping die is a special process device for processing materials (metal or nonmetal) into parts (or semi-finished products) in stamping processing, has a plurality of forms and is mainly classified according to three aspects of working properties, die structures and die materials;

the Chinese utility model patent with the publication number CN211413379U discloses a stamping die, which comprises an upper platform, a lower platform, a base, a shock absorption rod and a shock absorber, wherein the base is provided with the lower platform, the shock absorber is arranged between the lower platform and the base, the top of the lower platform is provided with a lower stamping die, the side surface of the lower platform is provided with a cooling device, the upper platform and the lower platform are arranged in a vertically corresponding manner, a guide rod is connected between the upper platform and the lower platform, the bottom side of the upper platform is provided with the shock absorption rod, and one end of the shock absorption rod, which is far away from the upper platform, is connected with the upper stamping die; the multistage damping of the stamping die can be realized by arranging the damping rod and the shock absorber, so that the service lives of an upper pressing die and a lower pressing die of the stamping die are prolonged simultaneously, water in an upper cavity and a lower cavity is kept in a circulating flow state all the time through the matching of the refrigerating water tank and the U-shaped pipe, so that the lower platform and the lower pressing die are cooled in real time, and the phenomenon that the die is deformed due to the temperature rise of the temperature pressing die in the stamping process can be prevented; however, when the punching machine is used, continuous punching cannot be performed, only one punching can be performed at a time, and after the punching is completed, a finished product is taken out and then is punched next time, so that the punching efficiency is low, time and labor are wasted, the using effect is poor, and the improvement is needed.

Disclosure of Invention

Objects of the invention

In order to solve the technical problems in the background art, the invention provides an intelligent continuous processing stamping die which integrates the functions of conveying, continuous stamping, cutting and collecting, has various functions, is simple to operate, saves time and labor, has an excellent use effect, obviously improves the stamping efficiency, and is suitable for popularization and use.

(II) technical scheme

The invention provides an intelligent continuous machining stamping die which comprises a machining table, a lower die base, an upper die base, a connecting base, a first connecting piece, a first limiting barrel, a movable head, a movable rod, a first spring, a second connecting piece, a U-shaped base, a transmission belt, a bearing base and a limiting guide plate, wherein the upper die base is fixedly connected with the lower die base;

the lower die base is arranged on the processing table, the upper die base is positioned right above the lower die base, and the bottom of the upper die base is provided with a stamping head; a vertical plate is arranged on the processing table and is positioned behind the lower die holder; the connecting seat is arranged on the vertical plate and positioned above the upper die holder, and a lifting mechanism is arranged on the connecting seat and acts on the upper die holder; the first connecting piece is vertically arranged on the connecting seat, and the first limiting cylinder is arranged on the first connecting piece; the movable rod is transversely arranged and inserted into the first limiting cylinder, a pressure sensor is arranged in the first limiting cylinder, a pressing block is correspondingly arranged on the movable rod, and the first spring is sleeved on the movable rod and is connected with the first limiting cylinder and the pressing block; the movable head is arranged on the movable rod, and one side of the upper die seat surface facing the first connecting piece is correspondingly provided with a hemispheroid;

a supporting plate is arranged on the processing table, and a collecting box with an upward opening is arranged on the supporting plate; the second connecting piece is transversely arranged on the upper die base, and a second limiting cylinder is vertically arranged at the other end of the second connecting piece; a connecting rod is arranged on the second limiting cylinder, a cutter is arranged at the bottom end of the connecting rod, and the cutter and the collecting box are positioned on the same side;

the U-shaped seats are arranged on two sides of the processing table, a first rotating shaft and a second rotating shaft are longitudinally arranged on the U-shaped seats, a conveying roller is arranged on the first rotating shaft, and a pressing roller is arranged on the second rotating shaft; the two first rotating shafts are respectively provided with a belt pulley, and the transmission belt is in transmission connection with the two belt pulleys; a first motor is arranged on one group of U-shaped seats, and the output end of the first motor is connected with a corresponding group of first rotating shafts;

the bearing seats are arranged on two sides of the processing table, third guide grooves are longitudinally formed in the bearing seats, bidirectional screws are longitudinally arranged in the third guide grooves, and second rocking handles are arranged on the bidirectional screws; second moving pieces are arranged on two sides of the third guide groove and are in threaded connection with the bidirectional screw; the limiting guide plate is arranged on the second moving piece and penetrates out of the third guide groove upwards; the bottom of the material belt to be punched is in contact with the bearing seat, the conveying roller and the lower die seat.

Preferably, the device further comprises a first threaded rod; a first guide groove is vertically formed in one side, facing the upper die base, of the first connecting piece, and a first threaded rod is vertically arranged in the first guide groove; the first limiting cylinder is provided with a first moving piece, and the first moving piece is positioned in the first guide groove and is in threaded connection with the first threaded rod;

the first connecting piece is provided with a transmission shaft, and the transmission shaft is provided with a first rocking handle; the transmission shaft is provided with a bevel gear, the first threaded rod is correspondingly provided with a bevel gear, and the two bevel gears are meshed and connected.

Preferably, the device further comprises a second threaded rod and a guide post; the connecting seat is connected with a vertical plate in a sliding manner, a fixing plate is arranged on the vertical plate, and the fixing plate is positioned above the connecting seat;

a second motor is arranged on the vertical plate, a second threaded rod is rotatably arranged on the fixing plate and is in threaded connection with the connecting seat, and the output end of the second motor is connected with the second threaded rod; the guide post is vertically arranged on the fixing plate and downwards penetrates through the connecting seat.

Preferably, the device also comprises a control device; the pressure sensor is in communication connection with the control device, and the control device is in control connection with the lifting mechanism.

Preferably, the connecting rod is provided with a limiting block, and the limiting block is positioned in the second limiting cylinder; a third spring is vertically arranged in the second limiting cylinder and connected with the limiting block.

Preferably, the first connecting piece is provided with a graduated scale, and the hemispheroid and the zero scale value of the graduated scale are positioned in the same horizontal plane.

Preferably, both ends of the second rotating shaft are provided with sliding parts, two inner sides of the U-shaped seat are vertically provided with second guide grooves, and the sliding parts are positioned in the second guide grooves and are in sliding connection with the U-shaped seat.

Preferably, the device further comprises a second spring; a guide rod is vertically arranged in the second guide groove, a guide hole for the guide rod to penetrate through is formed in the sliding piece, and the second spring is sleeved on the guide rod and connected with the U-shaped seat and the sliding piece.

Preferably, the supporting plate is transversely provided with a dovetail projection, the bottom of the collecting box is transversely provided with a dovetail groove with a downward opening, and the dovetail projection is inserted into the dovetail groove.

The invention provides an intelligent continuous processing stamping die and a stamping method thereof, wherein the stamping method comprises the following steps:

s1, placing a material belt to be punched so that the material belt to be punched passes through a space between a conveying roller and a pressing roller, pressing the middle part of the material belt to be punched on a lower die seat, and supporting the material belt to be punched by a bearing seat;

s2, shaking the second rocking handle to enable the bidirectional screw to rotate circumferentially, and further enabling the two second moving parts to move in opposite directions until the two limiting guide plates are in contact with the front side and the rear side of the material belt to be punched so as to play a role in guiding, and avoiding deviation generated in the conveying process of the material belt to be punched;

s3, enabling one group of first rotating shafts to rotate by the first motor, and enabling the other group of first rotating shafts to synchronously rotate by the driving belt so as to realize the conveying of the material belt to be punched;

s4, the upper die base moves downwards through the lifting mechanism, the punching head moves downwards along with the upper die base, and a part to be punched on the lower die base is punched; the second connecting piece moves downwards along with the upper die base, the cutter moves downwards along with the second connecting piece and cuts the punched part on the output side, and the cut part falls into the collecting box;

s5, in the downward stamping process, when the hemispheroid contacts the movable head, extrusion force is generated on the hemispheroid so that the movable rod moves towards the first limiting cylinder, and the pressing block abuts against the pressure sensor; the pressure sensor senses pressure, the lifting mechanism enables the upper die base to stop moving downwards to complete single stamping, then the lifting mechanism enables the upper die base to move upwards and recover to the original position, and the operation is repeated in a circulating mode to achieve continuous stamping operation.

The technical scheme of the invention has the following beneficial technical effects:

the material belt to be punched penetrates through the space between the conveying roller and the pressing roller, the middle part of the material belt to be punched is pressed on the lower die seat, and the bearing seat supports the material belt to be punched; the second rocking handle is rocked to enable the bidirectional screw rod to rotate circumferentially, and the two second moving parts move oppositely and are in contact with the front side and the rear side of the material belt to be punched, so that a guiding effect can be achieved, the material belt to be punched is prevented from being deviated in the conveying process, and the punching effect is improved;

the first motor enables one group of first rotating shafts to rotate, and the driving belt drives the other group of first rotating shafts to synchronously rotate so as to enable the material belt to be punched to move and realize the conveying of the material belt to be punched; the lifting mechanism enables the upper die base to move downwards, the punching head moves downwards along with the upper die base and punches the part to be punched on the lower die base; the hemisphere moves downwards along with the upper die base, and when the hemisphere contacts the movable head, extrusion force is generated on the hemisphere, so that the movable rod moves towards the first limiting cylinder, and the pressing block abuts against the pressure sensor; the pressure sensor senses the pressure, the lifting mechanism stops the upper die base from moving downwards to complete single stamping, then the lifting mechanism enables the upper die base to move upwards and return to the original position, and the steps are repeated in a circulating mode to realize continuous stamping operation;

when the upper die base carries out the downstream in order to realize the punching press operation, the second connecting piece is along with the upper die base downstream, and the cutter carries out the downstream thereupon and cuts off the operation to the punching press part that is located the output side, and the stamping workpiece that is cut off falls into and collects the box and collects the stamping workpiece, collects transport, continuous punching press, cut off and collect the function in an organic whole, and the function is various, easy operation, labour saving and time saving has showing and has improved punching press efficiency, and the result of use is splendid.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent continuous processing stamping die according to the present invention.

Fig. 2 is a front view of an intelligent continuous machining stamping die according to the present invention.

Fig. 3 is a schematic connection diagram of a first connecting piece and a first limiting cylinder in the intelligent continuous machining stamping die provided by the invention.

Fig. 4 is a schematic connection diagram of a first limiting cylinder, a movable rod and a movable head in the intelligent continuous processing stamping die provided by the invention.

Fig. 5 is a schematic connection diagram of a second limiting cylinder and a cutter in the intelligent continuous machining stamping die provided by the invention.

Fig. 6 is a schematic structural view (side view) of a U-shaped seat in an intelligent continuous processing stamping die according to the present invention.

Fig. 7 is an enlarged view of a portion a of an intelligent continuous machining stamping die according to the present invention.

Fig. 8 is a schematic structural view (side view) of a bearing seat in an intelligent continuous processing stamping die according to the present invention.

Fig. 9 is a schematic right-view diagram of an intelligent continuous-processing stamping die according to the present invention.

Reference numerals: 1. a processing table; 2. a lower die holder; 3. an upper die holder; 4. punching a head; 5. a connecting seat; 6. a lifting mechanism; 7. a vertical plate; 8. a hemisphere; 9. a first connecting member; 10. a first limiting cylinder; 11. a movable head; 12. a movable rod; 13. pressing into blocks; 14. a first spring; 15. a pressure sensor; 16. a first threaded rod; 17. a first guide groove; 18. a first moving member; 19. a drive shaft; 20. a first rocking handle; 21. a second connecting member; 22. a second limiting cylinder; 23. a cutter; 24. a U-shaped seat; 25. a conveying roller; 26. a compression roller; 27. a slider; 28. a guide bar; 29. a second spring; 30. a second guide groove; 31. a first rotating shaft; 32. a second rotating shaft; 33. a first motor; 34. a pulley; 35. a transmission belt; 36. a bearing seat; 37. a bidirectional screw; 38. a third guide groove; 39. a second rocking handle; 40. a second moving member; 41. a limiting guide plate; 42. a second motor; 43. a second threaded rod; 44. a guide post; 45. a collection box; 46. a support plate; 47. a limiting block; 48. a third spring; 49. a fixing plate; 50. a connecting rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-9, the intelligent continuous processing stamping die provided by the present invention includes a processing table 1, a lower die holder 2, an upper die holder 3, a connecting seat 5, a first connecting member 9, a first limiting cylinder 10, a movable head 11, a movable rod 12, a first spring 14, a second connecting member 21, a U-shaped seat 24, a transmission belt 35, a bearing seat 36 and a limiting guide plate 41;

the lower die base 2 is arranged on the processing table 1, the upper die base 3 is positioned right above the lower die base 2, and the bottom of the upper die base 3 is provided with a stamping head 4; a vertical plate 7 is arranged on the processing table 1, and the vertical plate 7 is positioned behind the lower die holder 2; the connecting seat 5 is arranged on the vertical plate 7 and positioned above the upper die holder 3, the lifting mechanism 6 is arranged on the connecting seat 5, and the lifting mechanism 6 acts on the upper die holder 3; the first connecting piece 9 is vertically arranged on the connecting seat 5, and the first limiting cylinder 10 is arranged on the first connecting piece 9; the movable rod 12 is transversely arranged and inserted into the first limiting cylinder 10, a pressure sensor 15 is arranged in the first limiting cylinder 10, a pressing block 13 is correspondingly arranged on the movable rod 12, and the first spring 14 is sleeved on the movable rod 12 and is connected with the first limiting cylinder 10 and the pressing block 13; the movable head 11 is arranged on the movable rod 12, and one side of the upper die base 3 facing the first connecting piece 9 is correspondingly provided with a hemispheroid 8;

a supporting plate 46 is arranged on the processing table 1, and a collecting box 45 with an upward opening is arranged on the supporting plate 46; the second connecting piece 21 is transversely arranged on the upper die holder 3, and the other end of the second connecting piece 21 is vertically provided with a second limiting cylinder 22; a connecting rod 50 is arranged on the second limiting cylinder 22, a cutter 23 is arranged at the bottom end of the connecting rod 50, and the cutter 23 and the collecting box 45 are positioned on the same side;

the U-shaped seats 24 are arranged at two sides of the processing table 1, a first rotating shaft 31 and a second rotating shaft 32 are longitudinally arranged on the U-shaped seats 24, a conveying roller 25 is arranged on the first rotating shaft 31, and a pressing roller 26 is arranged on the second rotating shaft 32; the two first rotating shafts 31 are respectively provided with belt pulleys 34, and the transmission belt 35 is in transmission connection with the two belt pulleys 34; a first motor 33 is arranged on one group of U-shaped seats 24, and the output end of the first motor 33 is connected with a corresponding group of first rotating shafts 31;

the bearing seats 36 are arranged at two sides of the processing table 1, third guide grooves 38 are longitudinally arranged on the bearing seats 36, two-way screws 37 are longitudinally arranged in the third guide grooves 38, and second rocking handles 39 are arranged on the two-way screws 37; two sides of the third guide groove 38 are provided with second moving parts 40, and the second moving parts 40 are in threaded connection with the bidirectional screw rod 37; the limit guide plate 41 is arranged on the second moving part 40 and penetrates out of the third guide groove 38 upwards; the bottom of the material belt to be punched contacts the bearing seat 36, the conveying roller 25 and the lower die seat 2.

In an alternative embodiment, a first threaded rod 16 is also included; a first guide groove 17 is vertically formed in one side, facing the upper die holder 3, of the first connecting piece 9, and a first threaded rod 16 is vertically arranged in the first guide groove 17; the first limiting cylinder 10 is provided with a first moving part 18, and the first moving part 18 is positioned in the first guide groove 17 and is in threaded connection with the first threaded rod 16; a transmission shaft 19 is arranged on the first connecting piece 9, and a first rocking handle 20 is arranged on the transmission shaft 19; a bevel gear is arranged on the transmission shaft 19, a bevel gear is correspondingly arranged on the first threaded rod 16, and the two bevel gears are meshed and connected; the first connecting piece 9 is provided with a graduated scale, and the hemispheroid 8 and the zero scale value of the graduated scale are positioned in the same horizontal plane. In operation, rotate first rocking handle 20 so that transmission shaft 19 rotates to make first threaded rod 16 carry out the circumferential rotation, first moving member 18 carries out vertical direction motion in first guide way 17, and the final realization is conveniently adjusted through setting up the scale to the regulation of the height that movable head 11 is located, helps using.

In an alternative embodiment, a second threaded rod 43 and a guide post 44 are also included; the connecting seat 5 is connected with a vertical plate 7 in a sliding manner, a fixing plate 49 is arranged on the vertical plate 7, and the fixing plate 49 is positioned above the connecting seat 5; a second motor 42 is arranged on the vertical plate 7, a second threaded rod 43 is rotatably arranged on the fixing plate 49 and is in threaded connection with the connecting seat 5, and the output end of the second motor 42 is connected with the second threaded rod 43; the guide post 44 is vertically provided on the fixing plate 49 and downwardly passes through the coupling seat 5. In operation, second motor 42 makes second threaded rod 43 carry out the horizontal direction circumferential direction, and connecting seat 5 carries out vertical direction motion under the guide effect of guide post 44, and the height that connecting seat 5 was located is adjusted as required to the convenience, helps using.

In an optional embodiment, the system further comprises a control device; the pressure sensor 15 is connected with a control device in a communication way, and the control device is connected with the lifting mechanism 6 in a control way. In operation, the pressure sensor 15 senses the received pressure and sends the information to the control device, which controls the operation of the lifting mechanism 6.

In an alternative embodiment, the connecting rod 50 is provided with a limiting block 47, and the limiting block 47 is located in the second limiting cylinder 22; a third spring 48 is vertically arranged in the second limiting cylinder 22, and the third spring 48 is connected with the limiting block 47. In operation, the third spring 48 is arranged to allow the connecting rod 50 to move in a vertical direction to provide a cushioning effect to help prevent damage to the cutting blade 23.

In an alternative embodiment, a second spring 29 is also included; the two ends of the second rotating shaft 32 are provided with sliding parts 27, the two inner sides of the U-shaped seat 24 are vertically provided with second guide grooves 30, and the sliding parts 27 are positioned in the second guide grooves 30 and are in sliding connection with the U-shaped seat 24; a guide rod 28 is vertically arranged in the second guide groove 30, a guide hole for the guide rod 28 to pass through is arranged on the sliding piece 27, and a second spring 29 is sleeved on the guide rod 28 and is connected with the U-shaped seat 24 and the sliding piece 27. In operation, the second spring 29 is in a compressed state and applies a downward pushing force to the slider 27, and then applies a downward pushing force to the pressing roller 26 through the second rotating shaft 32, so that the pressing roller 26 presses the material belt to be punched, thereby not only facilitating conveying the material belts with different thicknesses, but also facilitating improving the conveying effect.

In an alternative embodiment, the support plate 46 is provided with a dovetail projection transversely thereon, and the bottom of the collection box 45 is provided with a dovetail groove transversely opened downward, into which the dovetail projection is inserted. In operation, the dovetail lobes and dovetail slots cooperate to position the collection cassette 45 and also facilitate installation and removal of the collection cassette 45 to facilitate use.

In an optional embodiment, the lower die holder 2 is provided with a stamping hole and a blanking port, the processing table 1 is internally provided with a waste collecting tank, the blanking port is located below the stamping hole, and the waste collecting tank is located below the blanking port so as to collect waste generated in the stamping process, so that the use effect is good.

The invention provides an intelligent continuous processing stamping die and a stamping method thereof, wherein the stamping method comprises the following steps:

s1, placing a material belt to be punched so that the material belt to be punched passes through a space between a conveying roller 25 and a pressing roller 26, pressing the middle part of the material belt to be punched on a lower die holder 2, and supporting the material belt to be punched by a bearing seat 36;

s2, shaking the second rocking handle 39 to enable the bidirectional screw 37 to rotate circumferentially, and further enabling the two second moving parts 40 to move oppositely until the two limiting guide plates 41 are in contact with the front side and the rear side of the material belt to be punched so as to play a role in guiding, so that the material belt to be punched is prevented from being deviated in the conveying process;

s3, the first motor 33 enables one group of first rotating shafts 31 to rotate, and the transmission belt 35 drives the other group of first rotating shafts 31 to synchronously rotate so as to realize the conveying of the material belt to be punched;

s4, the upper die base 3 moves downwards through the lifting mechanism 6, the punching head 4 moves downwards along with the upper die base 3, and the part to be punched on the lower die base 2 is punched; the second connecting piece 21 moves downwards along with the upper die holder 3, the cutter 23 moves downwards along with the second connecting piece and cuts the punched part on the output side, and the cut part falls into the collecting box 45;

s5, in the downward stamping process, when the hemispheroid 8 contacts the movable head 11, extrusion force is generated on the movable head so that the movable rod 12 moves towards the inside of the first limiting cylinder 10, and the pressing block 13 abuts against the pressure sensor 15; the pressure sensor 15 senses the pressure, the lifting mechanism 6 stops the downward movement of the upper die holder 3 to complete single stamping, then the lifting mechanism 6 enables the upper die holder 3 to move upward and return to the original position, and the steps are repeated in a circulating manner to realize continuous stamping operation.

When the stamping die is used, a material belt to be stamped penetrates through the space between the conveying roller 25 and the compression roller 26, the middle part of the material belt to be stamped is pressed on the lower die seat 2, and the bearing seat 36 supports the material belt to be stamped; the second rocking handle 39 is rocked to enable the bidirectional screw 37 to rotate circumferentially, and the two second moving parts 40 move oppositely and contact with the front side and the rear side of the material belt to be punched, so that a guiding effect can be achieved, the material belt to be punched is prevented from being deviated in the conveying process, and the punching effect is improved;

the first motor 33 rotates one group of the first rotating shafts 31, and the transmission belt 35 drives the other group of the first rotating shafts 31 to synchronously rotate so as to move the material belt to be punched and realize the conveying of the material belt to be punched; the lifting mechanism 6 enables the upper die holder 3 to move downwards, the stamping head 4 moves downwards along with the upper die holder 3 and stamps the part to be stamped on the lower die holder 2; the hemisphere 8 moves downwards along with the upper die holder 3, and when the hemisphere 8 contacts the movable head 11, extrusion force is generated on the hemisphere so that the movable rod 12 moves towards the first limiting cylinder 10, and the pressing block 13 abuts against the pressure sensor 15; the pressure sensor 15 senses the pressure, the lifting mechanism 6 stops the downward movement of the upper die holder 3 to complete single stamping, then the lifting mechanism 6 enables the upper die holder 3 to move upward and return to the original position, and the steps are repeated in a circulating manner to realize continuous stamping operation;

when upper die base 3 carries out the downstream in order to realize the punching press operation, second connecting piece 21 is along with 3 downstream of upper die base, cutter 23 carries out the downstream thereupon and cuts off the operation to the punching press part that is located the output side, the stamping workpiece of being cut off falls into and collects box 45, collect box 45 and collect the stamping workpiece, collect and carry, continuous punching press, cut off and collect function in an organic whole, the function is various, and is easy operation, time saving and labor saving, excellent in use effect, transportation process and operation process are comparatively stable, the punching press efficiency has been shown to be improved, and is suitable for being generalized to use.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundary of the appended claims, or the equivalents of such scope and boundary.

Claims (10)

1. An intelligent continuous processing stamping die is characterized by comprising a processing table (1), a lower die holder (2), an upper die holder (3), a connecting seat (5), a first connecting piece (9), a first limiting cylinder (10), a movable head (11), a movable rod (12), a first spring (14), a second connecting piece (21), a U-shaped seat (24), a transmission belt (35), a bearing seat (36) and a limiting guide plate (41);

the lower die holder (2) is arranged on the processing table (1), the upper die holder (3) is positioned right above the lower die holder (2), and the bottom of the upper die holder (3) is provided with a stamping head (4); a vertical plate (7) is arranged on the processing table (1), and the vertical plate (7) is positioned behind the lower die holder (2); the connecting seat (5) is arranged on the vertical plate (7) and is positioned above the upper die holder (3), the connecting seat (5) is provided with a lifting mechanism (6), and the lifting mechanism (6) acts on the upper die holder (3); the first connecting piece (9) is vertically arranged on the connecting seat (5), and the first limiting cylinder (10) is arranged on the first connecting piece (9); the movable rod (12) is transversely arranged and inserted into the first limiting cylinder (10), a pressure sensor (15) is arranged in the first limiting cylinder (10), a pressing block (13) is correspondingly arranged on the movable rod (12), and the first spring (14) is sleeved on the movable rod (12) and is connected with the first limiting cylinder (10) and the pressing block (13); the movable head (11) is arranged on the movable rod (12), and one side of the upper die base (3) facing the first connecting piece (9) is correspondingly provided with a hemispheroid (8);

a supporting plate (46) is arranged on the processing table (1), and a collecting box (45) with an upward opening is arranged on the supporting plate (46); the second connecting piece (21) is transversely arranged on the upper die holder (3), and the other end of the second connecting piece (21) is vertically provided with a second limiting cylinder (22); a connecting rod (50) is arranged on the second limiting cylinder (22), a cutter (23) is arranged at the bottom end of the connecting rod (50), and the cutter (23) and the collecting box (45) are positioned on the same side;

the U-shaped seat (24) is arranged on two sides of the processing table (1), a first rotating shaft (31) and a second rotating shaft (32) are longitudinally arranged on the U-shaped seat (24), a conveying roller (25) is arranged on the first rotating shaft (31), and a pressing roller (26) is arranged on the second rotating shaft (32); the two first rotating shafts (31) are respectively provided with a belt pulley (34), and a transmission belt (35) is in transmission connection with the two belt pulleys (34); a first motor (33) is arranged on one group of U-shaped seats (24), and the output end of the first motor (33) is connected with a corresponding group of first rotating shafts (31);

the bearing seats (36) are arranged on two sides of the processing table (1), third guide grooves (38) are longitudinally formed in the bearing seats (36), two-way screws (37) are longitudinally arranged in the third guide grooves (38), and second rocking handles (39) are arranged on the two-way screws (37); two sides of the third guide groove (38) are provided with second moving parts (40), and the second moving parts (40) are in threaded connection with the two-way screw (37); the limiting guide plate (41) is arranged on the second moving piece (40) and penetrates out of the third guide groove (38) upwards.

2. An intelligent continuous working press die as claimed in claim 1, further comprising a first threaded bar (16); a first guide groove (17) is vertically formed in one side, facing the upper die holder (3), of the first connecting piece (9), and a first threaded rod (16) is vertically arranged in the first guide groove (17); the first limiting cylinder (10) is provided with a first moving piece (18), and the first moving piece (18) is positioned in the first guide groove (17) and is in threaded connection with the first threaded rod (16);

a transmission shaft (19) is arranged on the first connecting piece (9), and a first rocking handle (20) is arranged on the transmission shaft (19); the transmission shaft (19) is provided with a bevel gear, the first threaded rod (16) is correspondingly provided with a bevel gear, and the two bevel gears are meshed and connected.

3. The intelligent continuous working stamping die of claim 1, further comprising a second threaded rod (43) and a guide post (44); the connecting seat (5) is connected with a vertical plate (7) in a sliding manner, a fixing plate (49) is arranged on the vertical plate (7), and the fixing plate (49) is positioned above the connecting seat (5);

a second motor (42) is arranged on the vertical plate (7), a second threaded rod (43) is rotatably arranged on the fixing plate (49) and is in threaded connection with the connecting seat (5), and the output end of the second motor (42) is connected with the second threaded rod (43); the guide post (44) is vertically arranged on the fixing plate (49) and downwards penetrates through the connecting seat (5).

4. The intelligent continuous working stamping die of claim 1, further comprising a control device; the pressure sensor (15) is connected with a control device in a communication way, and the control device is connected with the lifting mechanism (6) in a control way.

5. The intelligent continuous machining stamping die as claimed in claim 1, wherein a limiting block (47) is arranged on the connecting rod (50), and the limiting block (47) is located in the second limiting cylinder (22); a third spring (48) is vertically arranged in the second limiting cylinder (22), and the third spring (48) is connected with a limiting block (47).

6. An intelligent continuous processing stamping die as claimed in claim 1, wherein the first connecting piece (9) is provided with a graduated scale, and the hemisphere (8) and the zero scale value of the graduated scale are in the same horizontal plane.

7. An intelligent continuous processing stamping die as claimed in claim 1, wherein sliding parts (27) are arranged at two ends of the second rotating shaft (32), second guide grooves (30) are vertically arranged at two inner sides of the U-shaped seat (24), and the sliding parts (27) are positioned in the second guide grooves (30) and are slidably connected with the U-shaped seat (24).

8. An intelligent continuous process stamping die according to claim 7, further comprising a second spring (29); a guide rod (28) is vertically arranged in the second guide groove (30), a guide hole for the guide rod (28) to pass through is formed in the sliding part (27), and a second spring (29) is sleeved on the guide rod (28) and is connected with the U-shaped seat (24) and the sliding part (27).

9. An intelligent continuous machining stamping die as claimed in claim 1, wherein dovetail protrusions are transversely arranged on the supporting plate (46), dovetail grooves with downward openings are transversely arranged at the bottoms of the collecting boxes (45), and the dovetail protrusions are inserted into the dovetail grooves.

10. The intelligent continuous processing stamping die of claim 1, further providing a stamping method thereof, which is characterized by comprising the following steps:

s1, placing a material belt to be punched so that the material belt to be punched penetrates through a space between a conveying roller (25) and a pressing roller (26), pressing the middle part of the material belt to be punched on a lower die seat (2), and supporting the material belt to be punched by a bearing seat (36);

s2, shaking the second rocking handle (39) to enable the bidirectional screw (37) to rotate circumferentially, and further enabling the two second moving parts (40) to move in opposite directions until the two limiting guide plates (41) are in contact with the front side and the rear side of the material belt to be punched to play a role in guiding, so that the material belt to be punched is prevented from being deviated in the conveying process;

s3, the first motor (33) enables one group of first rotating shafts (31) to rotate, and the transmission belt (35) drives the other group of first rotating shafts (31) to synchronously rotate so as to realize the conveying of the material belt to be punched;

s4, the upper die base (3) moves downwards through the lifting mechanism (6), the stamping head (4) moves downwards along with the upper die base, and the part to be stamped on the lower die base (2) is stamped; the second connecting piece (21) moves downwards along with the upper die holder (3), the cutter (23) moves downwards along with the second connecting piece and cuts the stamping part positioned on the output side, and the cut part falls into the collecting box (45);

s5, in the downward stamping process, when the hemispheroid (8) contacts the movable head (11), extrusion force is generated on the hemispheroid to enable the movable rod (12) to move towards the inside of the first limiting cylinder (10), and the pressing block (13) is abutted against the pressure sensor (15); the pressure sensor (15) senses pressure, the lifting mechanism (6) enables the upper die base (3) to stop moving downwards to complete single stamping, then the lifting mechanism (6) enables the upper die base (3) to move upwards and return to the original position, and the operation is repeated in a circulating mode to achieve continuous stamping operation.

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