CN112475169A - Full-automatic metal forging forming equipment - Google Patents

Abstract

The invention relates to the technical field of forging forming, and discloses full-automatic metal forging forming equipment which comprises a box body, wherein a mounting plate and a supporting box are respectively welded at the front part of the box body, a limiting block is welded at the front part of the mounting plate, a forging mechanism is arranged on the surface of the limiting block, a transmission mechanism is arranged on the right side of the mounting plate, a placing plate is connected to the top part of the supporting box through a bolt, a clamping mechanism is arranged on the top part of the placing plate, steel can be automatically clamped and overturned during forging through the matching operation of the transmission mechanism, the forging mechanism and the clamping mechanism, so that manual overturning of workers is not needed, the labor intensity of the workers is reduced, the long-time labor of the workers is prevented, the working efficiency is lowered, even safety accidents occur due to fatigue, the steel can intermittently rotate through the transmission mechanism, and the steel cannot rotate during forging, prevent steel and tup mutual interference, make the device damage.

Description

Full-automatic metal forging forming equipment

Technical Field

The invention relates to the technical field of forging forming, in particular to full-automatic metal forging forming equipment.

Background

Forging is a processing method which utilizes forging machinery to apply pressure on a metal blank to enable the metal blank to generate plastic deformation so as to obtain a forging with certain mechanical property, certain shape and certain size.

At present, a plurality of small steel materials are manually clamped and turned over by workers, and under the condition of high-temperature forging, the forging of the steel materials is difficult to a certain degree due to manual turning, the working efficiency is reduced after long-time working, safety accidents can be caused by fatigue of the workers, the labor intensity of the workers is increased, in addition, even if an automatic turning device is arranged, a driving mechanism is required to be additionally arranged on the turning device, the production cost of an enterprise is increased, and the energy consumption is increased; when the steel material can take place deformation when being forged, can make the centre gripping department strut the grow, can lead to anchor clamps to take off the hand, the incident appears, so provides a full-automatic metal forging former and solves above-mentioned problem of proposing.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides full-automatic metal forging forming equipment, which solves the problem that steel needs to be manually clamped and turned by workers during forging.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a full-automatic metal forging former, includes the box, mounting panel and supporting box have been welded respectively to the front portion of box, and the mounting panel is located the top of supporting box, the anterior welding of mounting panel has the stopper, the surface of stopper is provided with forges the mechanism, the right side of mounting panel is provided with drive mechanism, there is the board of placing at the top of supporting box through bolted connection, the top of placing the board is provided with clamping mechanism.

Preferably, the forging mechanism comprises a sliding block, a telescopic column is welded on the inner wall of the sliding block, a supporting spring is sleeved on the surface of the telescopic column, a stop block is welded on the left side of the sliding block, a supporting block and a supporting plate are respectively welded on the front part of the mounting plate, and the supporting block is positioned at the left side of the supporting plate, the inner wall of the supporting block is connected with a guide pillar in a sliding way, the surface of the guide pillar is sleeved with a buffer spring, the bottom of the sliding block is welded with a hammer head, the right side of the sliding block is respectively welded with a lower clamping block and an upper clamping block, the upper clamping block is positioned above the lower clamping block, the front part of the mounting plate is respectively and rotatably connected with a rotating plate and a short poking plate, and the rotating plate is located the left side of short group board, the front portion welding of rotating plate has the fixed block, the welding has reset spring between rotating plate and the backup pad, the axle center department welding of short group board has long group board.

Preferably, the inner wall of the slider is in sliding connection with the surface of the limiting block, the rear portion of the slider is in sliding connection with the front portion of the mounting plate, two ends of the supporting spring are in contact with the inner wall of the slider and the bottom of the limiting block respectively, two ends of the buffer spring are welded and fixed with the lower surface of the stop block and the upper surface of the supporting block respectively, the upper surface of the guide pillar is in contact with the lower surface of the stop block, the rear portion of the slider is welded with the inclined plate, the rear portion of the long shifting plate is in contact with the front portion of the rotating plate, the surface of the long shifting plate is in contact with the lower surface of the upper clamping block, the surface of the fixed block is in contact with the surface of the lower clamping block, the surface of the short shifting plate is in contact with the surface of the rotating plate.

Preferably, the transmission mechanism comprises a motor, the output end of the motor is clamped with a first gear, the surface of the first gear is engaged with a second gear, a first belt pulley is welded at the axis of the second gear, the surface of the first belt pulley is in transmission connection with the surface of the second belt pulley through a belt, the front part of the second belt pulley is provided with a clamping device, the axle center of the second belt pulley is rotationally connected with a rotating shaft, the inner wall of the box body is welded with a fixed plate, the rear end of the rotating shaft is clamped with a first bevel gear, the surface of the first bevel gear is engaged with a second bevel gear, the axis of the second bevel gear is welded with a turntable, the axis of the turntable is welded with a transmission gear, the inner wall of carousel has engaged with driven gear, driven gear's axle center department welding has No. three gears, the surface meshing of No. three gears has the rack.

Preferably, bolted connection is passed through on the surface of motor on the right side of mounting panel, the axle center department of belt pulley is fixed through the axle center department joint of connecting rod and short dial plate, the surface of pivot is rotated with the inner wall of fixed plate and is connected, the axle center department of No. two bevel gears is connected through the surface rotation of connecting rod and fixed plate, the front end of pivot is connected with the rear portion rotation of mounting panel, the left side of rack and the inner wall sliding connection of box, the axle center department of No. three gears is connected through the inner wall rotation of connecting rod and box.

Preferably, the clamping device comprises a chuck, a contraction spring is welded at the front part of the chuck, a limiting disc is welded at the front end of the rotating shaft, and the surface of the rotating shaft is movably connected with the chuck II.

Preferably, the inner wall of the first chuck is connected with the surface of the rotating shaft in a sliding mode, and the front end of the contraction spring is fixed to the rear end of the limiting disc in a welding mode.

Preferably, the clamping mechanism is including the installation piece, the inner wall of installation piece rotates and is connected with two clamp splices, two swing joint has the hydro-cylinder between the clamp splice, two the contact has the steel billet between the clamp splice, and the steel billet is located the front portion of hydro-cylinder, the rear portion welding of installation piece has No. four gears, the axle center department of No. four gears rotates and is connected with the connecting axle, the rear end of connecting axle rotates and is connected with the connecting rod, the top of connecting rod rotates and is connected with the transfer line, the inner wall of transfer line and connecting axle all rotates and is connected with the bracing piece.

Preferably, the top and the bottom of the steel block are in mutual contact with the bottom of the hammer head and the top of the placing plate respectively, the surface of the transmission rod is rotatably connected with the inner wall of the sliding block, and the two ends of the supporting rod are welded and fixed with the inner wall of the box body.

Compared with the prior art, the invention provides full-automatic metal forging forming equipment, which has the following beneficial effects:

1. this full-automatic metal forging former, through the cooperation function of drive mechanism, forging mechanism, clamping mechanism, can get the upset to steel voluntarily in the forging to need not the manual upset of workman, reduced workman's intensity of labour, prevent that the long-time work of workman from leading to the work efficiency step-down, cause the incident emergence because of fatigue even.

2. This full-automatic metal forging former drives clamping machine through the removal of forging in the mechanism and constructs and rotate, makes the steel billet can leave and place the board to can be free rotate, prevent to place the board and carry on spacingly to the steel billet, lead to the unable rotation of steel billet.

3. This full-automatic metal forging former can make the pivot carry out intermittent type nature rotation through the latch device among the drive mechanism to make its steel can not take place to rotate when forging, prevent steel and tup mutual interference, cause the device to take place to damage.

4. This full-automatic metal forges former can make No. three gears reciprocating rotation through carousel and inner structure to make rack reciprocating motion back and forth, thereby need not the positive and negative rotation in turn of motor, can reduce the burden of motor, increase the life of motor, reduce the maintenance cost.

5. This full-automatic metal forges former can drive mechanism, forging machine structure, the function of clamping mechanism simultaneously through a motor to can reduce the quantity of placing of motor, and then reduce with low costs and drop into, can also reduce occuping of space, make between each mechanism synchronous operation, work efficiency can promote.

Drawings

FIG. 1 is a schematic view of the overall structure of a fully automatic metal forging apparatus according to the present invention;

FIG. 2 is a schematic view of a part of the automatic metal forging apparatus according to the present invention;

FIG. 3 is a schematic view of a hammering mechanism of the fully automatic metal forging apparatus according to the present invention;

FIG. 4 is a schematic view of a transmission mechanism of a fully automatic metal forging apparatus according to the present invention;

FIG. 5 is a partial schematic view of a transmission mechanism of the fully automatic metal forging apparatus according to the present invention;

FIG. 6 is a schematic view of the inside of a turntable of the automatic metal forging apparatus according to the present invention;

FIG. 7 is a schematic view of a clamping device of the full-automatic metal forging apparatus according to the present invention;

FIG. 8 is a schematic view of a clamping mechanism of a full-automatic metal forging apparatus according to the present invention;

FIG. 9 is a front and rear view of the fully automatic metal forging apparatus according to the present invention.

In the figure: 1. a box body; 2. mounting a plate; 3. a support box; 4. a limiting block; 5. a forging mechanism; 51. a slider; 52. a telescopic column; 53. a support spring; 54. a stopper; 55. a support block; 56. a guide post; 57. a buffer spring; 58. a hammer head; 59. a lower clamping block; 511. an upper clamping block; 512. a rotating plate; 513. a fixed block; 514. a return spring; 515. a support plate; 516. a short dialing plate; 517. a long poking plate; 6. a transmission mechanism; 61. a motor; 62. a first gear; 63. a second gear; 64. a first belt pulley; 65. a second belt pulley; 66. a clamping device; 661. a first chuck; 662. a retraction spring; 663. a limiting disc; 664. a sloping plate; 665. a second chuck; 67. a rotating shaft; 68. a fixing plate; 69. a first bevel gear; 611. a second bevel gear; 612. a turntable; 6121. a driven gear; 6122. a transmission gear; 613. a rack; 614. a third gear; 7. placing the plate; 8. a clamping mechanism; 81. mounting blocks; 82. a clamping block; 83. an oil cylinder; 84. a steel block; 85. a fourth gear; 86. a connecting shaft; 87. a connecting rod; 88. a transmission rod; 89. a support rod.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The utility model provides a full-automatic metal forging former, as shown in fig. 1-7, including box 1, mounting panel 2 and supporting box 3 have been welded respectively to the front portion of box 1, and mounting panel 2 is located the top of supporting box 3, and the welding of the front portion of mounting panel 2 has stopper 4, and the surface of stopper 4 is provided with forging mechanism 5, and the right side of mounting panel 2 is provided with drive mechanism 6, and there is placing plate 7 at the top of supporting box 3 through bolted connection, and the top of placing plate 7 is provided with clamping mechanism 8.

In this embodiment, the forging mechanism 5 includes a sliding block 51, a telescopic column 52 is welded on the inner wall of the sliding block 51, a support spring 53 is sleeved on the surface of the telescopic column 52, a stopper 54 is welded on the left side of the sliding block 51, a support block 55 and a support plate 515 are respectively welded on the front portion of the mounting plate 2, the support block 55 is located on the left side of the support plate 515, a guide pillar 56 is slidably connected on the inner wall of the support block 55, a buffer spring 57 is sleeved on the surface of the guide pillar 56, a hammer head 58 is welded on the bottom of the sliding block 51, a lower fixture block 59 and an upper fixture block 511 are respectively welded on the right side of the sliding block 51, the upper fixture block 511 is located above the lower fixture block 59, a rotating plate 512 and a short shifting plate 516 are respectively rotatably connected on the front portion of the mounting plate 2, the rotating plate 512 is located on the left side of the short shifting, supporting spring 53 can be when slider 51 whereabouts, and a decurrent effort is applyed again to slider 51, and the dynamics that makes it fall is bigger to reach the forged purpose of steel, prevent that steel from forging not in place, lead to the product after forging unqualified, make the practicality greatly reduced of device.

Further, the inner wall of the slider 51 is slidably connected with the surface of the limit block 4, the rear portion of the slider 51 is slidably connected with the front portion of the mounting plate 2, two ends of the supporting spring 53 are respectively contacted with the inner wall of the slider 51 and the bottom of the limit block 4, two ends of the buffering spring 57 are respectively welded and fixed with the lower surface of the stop block 54 and the upper surface of the supporting block 55, the upper surface of the guide post 56 is contacted with the lower surface of the stop block 54, the rear portion of the slider 51 is welded with the inclined plate 664, during the machining and forming process, the rear portion of the long poking plate 517 is contacted with the front portion of the rotating plate 512, the surface of the long poking plate 517 is contacted with the lower surface of the upper fixture block 511, the surface of the fixed block 513 is contacted with the surface of the lower fixture block 59, the surface of the short poking plate 516 is contacted with the surface of the rotating plate 512, the buffer spring 57 can buffer the sliding block 51 when the sliding block 51 falls to the bottom, and supports the sliding block 51 for a certain distance after being beaten, so that the long poking plate 517 can contact the upper fixture block 511, and the sliding block 51 cannot be reset due to the fact that the long poking plate 517 cannot contact the upper fixture block 511, and the device cannot normally operate.

Furthermore, the transmission mechanism 6 includes a motor 61, a first gear 62 is clamped at an output end of the motor 61, a second gear 63 is engaged with a surface of the first gear 62, a first belt pulley 64 is welded at an axial center of the second gear 63, a surface of the first belt pulley 64 is in transmission connection with a surface of the second belt pulley 65 through a belt, a clamping device 66 is arranged at a front portion of the second belt pulley 65, a rotating shaft 67 is rotatably connected at an axial center of the second belt pulley 65, a fixing plate 68 is welded on an inner wall of the box body 1, a first bevel gear 69 is clamped at a rear end of the rotating shaft 67, a second bevel gear 611 is engaged with a surface of the first bevel gear 69, a rotating disc 612 is welded at an axial center of the second bevel gear 611, a transmission gear 6122 is welded at an axial center of the rotating disc 612, a driven gear 6121 is engaged with an inner wall of the rotating disc 612, a third gear 614 is welded at an axial center of the driven, can drive mechanism 6 simultaneously through a motor 61, to the forging of steel, the upset of steel to can reduce the quantity of placing of motor 61, and then reduce with low costs and drop into, can also reduce occuping of space, make the synchronous operation between each mechanism, work efficiency can promote.

In addition, the surface of the motor 61 is connected to the right side of the mounting plate 2 through a bolt, the axis of the first belt pulley 64 is clamped and fixed with the axis of the short shifting plate 516 through a connecting rod, the surface of the rotating shaft 67 is rotatably connected with the inner wall of the fixing plate 68, the axis of the second bevel gear 611 is rotatably connected with the surface of the fixing plate 68 through a connecting rod, the front end of the rotating shaft 67 is rotatably connected with the rear part of the mounting plate 2, the left side of the rack 613 is slidably connected with the inner wall of the box body 1, the axis of the third gear 614 is rotatably connected with the inner wall of the box body 1 through a connecting rod, the third gear 614 can rotate in a reciprocating manner through the turntable 612 and an internal structure, and the rack 613 can move in a reciprocating manner, so that the motor 61 does not need to rotate in a forward and reverse direction alternately.

In addition, latch device 66 is including a chuck 661, the front portion welding of a chuck 661 has shrink spring 662, the front end welding of pivot 67 has spacing dish 663, the surface swing joint of pivot 67 has No. two chucks 665, pass through splined connection between a chuck 661 and the pivot 67, can make a chuck 661 slide on pivot 67, and can drive pivot 67 rotatory, it can drive pivot 67 rotatory to prevent that No. two belt pulleys 65 from can driving pivot 67 or not driving pivot 67 rotatory always, and then lead to the unable normal operating of device, be unfavorable for using widely.

Example 2

As shown in fig. 7-9, the inner wall of the first chuck 661 is slidably connected to the surface of the rotating shaft 67, the front end of the retraction spring 662 is welded to the rear end of the spacing disk 663, the retraction spring 662 can move down along the sloping plate 664 and then pull the first chuck 661 to reset, so that the first chuck 661 can be separated from the second chuck 665, the rotating shaft 67 can move intermittently, steel material can not rotate during forging, the steel material is prevented from interfering with the hammer head 58, the device is prevented from being damaged, maintenance cost is increased, and practicability is reduced.

It is worth noting that the clamping mechanism 8 comprises an installation block 81, the inner wall of the installation block 81 is rotatably connected with two clamping blocks 82, an oil cylinder 83 is movably connected between the two clamping blocks 82, a steel block 84 is in contact with the two clamping blocks 82, the steel block 84 is located in the front of the oil cylinder 83, a fourth gear 85 is welded at the rear of the installation block 81, a connecting shaft 86 is rotatably connected at the axis of the fourth gear 85, a connecting rod 87 is rotatably connected at the rear end of the connecting shaft 86, the top of the connecting rod 87 is rotatably connected with a transmission rod 88, the transmission rod 88 and the inner wall of the connecting shaft 86 are rotatably connected with a support rod 89, the transmission rod 88 can drive the steel block 84 to be lifted and rotated, and therefore the steel block 84 can be freely rotated, the steel block 84 is prevented from being limited by a placement plate 7, the steel block 84 cannot.

It is worth to say that the top and the bottom of the steel block 84 respectively contact with the bottom of the hammer 58 and the top of the placing plate 7, the surface of the transmission rod 88 is rotatably connected with the inner wall of the sliding block 51, the two ends of the supporting rod 89 are fixedly welded with the inner wall of the box body 1, the two clamping blocks 82 can be directly driven to clamp and fix the steel block 84 through contraction of the oil cylinder 83, the steel block 84 is convenient and quick to use, knurling is arranged on the contact portion of the clamping blocks 82 and the steel block 84, slipping can be prevented, the steel block 84 slides down during forging, and safety accidents can be reduced.

When the full-automatic metal forging forming equipment is used, a steel block 84 is placed between two clamping blocks 82, an oil cylinder 83 contracts to drive the two clamping blocks 82 to clamp the steel block 84, at the moment, a motor 61 drives a first gear 62 to rotate, the first gear 62 drives a second gear 63 to rotate, the second gear 63 drives a first belt pulley 64 to rotate, the first belt pulley 64 drives a short shifting plate 516 to rotate, the short shifting plate 516 drives a long shifting plate 517 to rotate, the short shifting plate 516 drives a rotating plate 512 to rotate, the rotating plate 512 drives a fixed block 513 to move, so that the fixed block does not support a lower clamping block 59 any more, at the moment, a sliding block 51 can forge the steel block 84 downwards under the action of gravity and a supporting spring 53, at the moment, the long shifting plate 517 rotates, at the moment, the long shifting plate 517 is in contact with the upper clamping block 511, and drives the upper clamping block 511 to move upwards and simultaneously drive the sliding block 51 to move upwards and reset, so that the steel, during forging, the oil cylinder 83 extends to prevent the clamping block 82 from being spread due to deformation of the steel material, so that the oil cylinder 83 is damaged, the slide block 51 moves upwards and simultaneously drives the transmission rod 88 to rotate clockwise by taking the upper support rod 89 as a support point, the transmission rod 88 drives the connecting rod 87 to press downwards, the connecting rod 87 drives the connecting shaft 86 to rotate clockwise by taking the lower support rod 89 as a support point, the connecting shaft 86 drives the fourth gear 85 to lift upwards, the fourth gear 85 drives the mounting block 81 to move upwards, the mounting block 81 drives the steel block 84 on the clamping block 82 to move upwards to leave the placing plate 7, the slide block 51 also drives the inclined plate 664 to move upwards, the inclined plate 664 pushes the first chuck 661 to move, the first chuck 661 is connected with the second chuck 665, the first belt pulley 64 drives the second belt pulley 65 to rotate, the second belt pulley 65 drives the second chuck 665 to rotate, the second chuck 665 drives the first chuck 661 to rotate, the first chuck 661 drives the rotating shaft 67 to rotate, the rotating shaft 67 drives the first bevel gear 69 to rotate, the first bevel gear 69 drives the second bevel gear 611 to rotate, the second bevel gear 611 drives the rotating disc 612 to rotate, the rotating disc 612 drives the transmission gear 6122 to rotate, the rotating disc 612 and the transmission gear 6122 drive the driven gear 6121 to reciprocate and rotate positively and negatively, the driven gear 6121 drives the third gear 614 to rotate, the third gear 614 drives the rack 613 to move, the lifted fourth gear 85 is meshed with the rack 613, the rack 613 drives the lifted fourth gear 85 to rotate, when the rack 613 drives the fourth gear 85 to rotate 90 degrees, the fourth gear 85 drives the steel block 84 to rotate through the clamping block 82, when the sliding block 51 falls down again, the steel block 84 can be automatically turned over once, the sliding block 51 forges the steel block 84 again, the steel block 84 can be automatically turned over by repeating the steps, and manual turning over is not needed by workers, the labor intensity of workers is reduced, the phenomenon that the working efficiency is lowered due to long-time working of the workers and even safety accidents occur due to fatigue is avoided.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims (7)

1. The utility model provides a full-automatic metal forging former, includes box (1), its characterized in that: the front part of the box body (1) is respectively welded with a mounting plate (2) and a supporting box (3), the mounting plate (2) is positioned above the supporting box (3), the front part of the mounting plate (2) is welded with a limiting block (4), the surface of the limiting block (4) is provided with a forging mechanism (5), the right side of the mounting plate (2) is provided with a transmission mechanism (6), the top part of the supporting box (3) is connected with a placing plate (7) through a bolt, and the top part of the placing plate (7) is provided with a clamping mechanism (8);

the forging mechanism (5) comprises a sliding block (51), a hammer head (58) is welded at the bottom of the sliding block (51), a lower clamping block (59) and an upper clamping block (511) are respectively welded at the right side of the sliding block (51), the upper clamping block (511) is positioned above the lower clamping block (59), and the front part of the mounting plate (2) is respectively and rotatably connected with a rotating plate (512) and a short shifting plate (516);

the transmission mechanism (6) comprises a motor (61), a first gear (62) is clamped at the output end of the motor (61), a second gear (63) is meshed on the surface of the first gear (62), a first belt pulley (64) is welded at the axis of the second gear (63), the surface of the first belt pulley (64) is in transmission connection with the surface of the second belt pulley (65) through a belt, a clamping device (66) is arranged at the front part of the second belt pulley (65), a rotating shaft (67) is rotatably connected at the axis of the second belt pulley (65), a fixing plate (68) is welded on the inner wall of the box body (1), a first bevel gear (69) is clamped at the rear end of the rotating shaft (67), a second bevel gear (611) is meshed on the surface of the first bevel gear (69), and a rotating disc (612) is welded at the axis of the second bevel gear (611), a transmission gear (6122) is welded at the axis of the turntable (612), a driven gear (6121) is meshed with the inner wall of the turntable (612), a third gear (614) is welded at the axis of the driven gear (6121), and a rack (613) is meshed with the surface of the third gear (614);

clamping machine constructs (8) including installation piece (81), the inner wall of installation piece (81) rotates and is connected with two clamp splice (82), two swing joint has hydro-cylinder (83), two between clamp splice (82) the contact has steel block (84) between clamp splice (82), and steel block (84) are located the front portion of hydro-cylinder (83), the rear portion welding of installation piece (81) has No. four gear (85), the axle center department of No. four gear (85) rotates and is connected with connecting axle (86), the rear end rotation of connecting axle (86) is connected with connecting rod (87), the top of connecting rod (87) is rotated and is connected with transfer line (88), the inner wall of transfer line (88) and connecting axle (86) all rotates and is connected with bracing piece (89).

2. The full-automatic metal forging forming device according to claim 1, wherein: the inner wall welding of slider (51) has flexible post (52), supporting spring (53) have been cup jointed on the surface of flexible post (52), the left side welding of slider (51) has dog (54), supporting shoe (55) and backup pad (515) have been welded respectively to the front portion of mounting panel (2), and supporting shoe (55) are located the left side of backup pad (515), the inner wall sliding connection of supporting shoe (55) has guide pillar (56), buffer spring (57) have been cup jointed on the surface of guide pillar (56), and rotor plate (512) are located the left side of short board (516) of dialling, the anterior welding of rotor plate (512) has fixed block (513), the welding has reset spring (514) between rotor plate (512) and backup pad (515), the axle center department welding of short board (516) of dialling has long board (517).

3. The full-automatic metal forging forming device according to claim 2, wherein: the inner wall of the sliding block (51) is in sliding connection with the surface of the limiting block (4), the rear portion of the sliding block (51) is in sliding connection with the front portion of the mounting plate (2), two ends of the supporting spring (53) are in mutual contact with the inner wall of the sliding block (51) and the bottom of the limiting block (4) respectively, two ends of the buffer spring (57) are in welded connection with the lower surface of the stop block and the upper surface of the supporting block (55) respectively, the upper surface of the guide post (56) is in mutual contact with the lower surface of the stop block (54), and the inclined plate (664) is welded to the rear portion of the sliding block (51).

4. The full-automatic metal forging forming device according to claim 1, wherein: the surface of motor (61) passes through bolted connection on the right side of mounting panel (2), the axle center department of a belt pulley (64) is fixed through the axle center department joint of connecting rod and short dial plate (516), the surface of pivot (67) is connected with the inner wall rotation of fixed plate (68), the axle center department of second number bevel gear (611) is connected through the surface rotation of connecting rod and fixed plate (68), the left side of rack (613) and the inner wall sliding connection of box (1), the axle center department of third number gear (614) is connected through the inner wall rotation of connecting rod and box (1).

5. The full-automatic metal forging forming device according to claim 4, wherein: clamping device (66) is including chuck (661), the front portion welding of chuck (661) has shrink spring (662), the front end welding of pivot (67) has spacing dish (663), the surface swing joint of pivot (67) has No. two chucks (665).

6. The full-automatic metal forging forming device according to claim 5, wherein: the inner wall of the first chuck (661) is in sliding connection with the surface of the rotating shaft (67), and the front end of the contraction spring (662) is fixed with the rear end of the limiting disc (663) in a welding mode.

7. The full-automatic metal forging forming device according to claim 1, wherein: the top and the bottom of the steel block (84) are respectively contacted with the bottom of the hammer head (58) and the top of the placing plate (7), the surface of the transmission rod (88) is rotatably connected with the inner wall of the sliding block (51), and two ends of the support rod (89) are welded and fixed with the inner wall of the box body (1).

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