CN113664071B

CN113664071B - Closed metal barrel shaping device

Info

Publication number: CN113664071B
Application number: CN202111225454.5A
Authority: CN
Inventors: 冯向华
Original assignee: Zhangjiagang Nanguang Packing Container Recycling Co ltd
Current assignee: Zhangjiagang Nanguang Packing Container Recycling Co ltd
Priority date: 2021-10-21
Filing date: 2021-10-21
Publication date: 2022-01-14
Anticipated expiration: 2041-10-21
Also published as: CN113664071A

Abstract

The invention discloses a closed metal barrel shaping device which comprises a bottom plate, wherein the upper end surface of the bottom plate is provided with six annularly arranged clamping sliding grooves with upward openings, and clamping moving blocks are arranged in the clamping sliding grooves in a sliding manner; according to the invention, the magnetic fabric is attached to the inner wall of the metal barrel, the metal barrel is repaired under the interaction of the fabric and the electromagnet outside the metal barrel, the fabric can be easily taken out after the repair is finished, the metal barrel can be suitable for metal barrels with different closed positions, the metal barrel can be quickly shaped, the position of the clamping block is adjusted through the transmission of the bevel gear, the metal barrel can be suitable for metal barrels with different barrel diameters, the practicability is improved, and moreover, the weight of the metal barrel is sensed through the weight sensor to judge the wall thickness of the metal barrel, so that the power of the electromagnet is adjusted, and the shaping strength is changed.

Description

Closed metal barrel shaping device

Technical Field

The invention relates to the technical field of metal shaping, in particular to a shaping device for a closed metal barrel.

Background

The metal bucket is in carrying the way, probably because collide with and make the ladle wall change, lead to the volume of metal bucket to reduce, so need be to its plastic before the metal bucket uses, make the volume reply, but the opening of closing a mouthful metal bucket is less, and the opening position is generally not at the center, this results in some to make the equipment that the metal bucket replied will not use through the inflation, because the opening position is not at the center, this effort size that receives on making the ladle wall will be different, can't carry out the plastic to the metal bucket, the deflection that only can increase the metal bucket.

Disclosure of Invention

The invention aims to solve the technical problems and provides a closed metal barrel shaping device which is used for shaping closed metal barrels at different closed positions.

The technical scheme adopted by the invention is as follows:

a closed metal barrel shaping device is characterized by comprising a bottom plate, wherein the upper end surface of the bottom plate is provided with six annularly arranged clamping chutes with upward openings, clamping moving blocks are arranged in the clamping chutes in a sliding manner, a central cavity is arranged in the bottom plate at the central position of each clamping chute, a belt cavity is arranged on the lower end surface of the central cavity, and clamping mechanisms capable of adjusting the positions of the clamping moving blocks are arranged in the belt cavity and the central cavity; the upper end surface of the clamping moving block is provided with a buffer chute with an upward opening, a buffer sliding block is arranged in the buffer chute in a sliding manner, a buffer spring is fixedly arranged between the buffer sliding block and the inner wall of the buffer chute, the upper end surface of the buffer sliding block is fixedly provided with a clamping plate capable of sliding on the upper surface of the clamping moving block, the upper end surface of the bottom plate is fixedly provided with a vertical plate, the front end surface of the vertical plate is fixedly provided with an upper mounting plate, the lower end surface of the upper mounting plate is provided with a moving chute with a downward opening, a moving accommodating block extending downwards is arranged in the moving chute in a sliding manner, the left end surface of the moving chute is fixedly provided with a moving motor, the right end surface of the moving motor is connected with a moving lead screw extending into the moving chute in a driving manner, the lower end surface of the moving accommodating block is provided with an accommodating cavity with a downward opening, and the upper end surface of the accommodating cavity is fixedly provided with a telescopic mounting plate, the lower end face of the telescopic mounting plate is provided with a telescopic rod, the lower end face of the telescopic rod is provided with a telescopic sliding block which is arranged on the inner wall of the containing cavity in a sliding manner, and the telescopic sliding block is provided with a shaping mechanism capable of uniformly exerting force on the barrel wall; the retractable sliding block is characterized in that two retractable transmission cavities with symmetrical positions are arranged on the left inner wall and the right inner wall of each retractable transmission cavity, and a retractable mechanism capable of retracting the retractable sliding block is arranged in each retractable transmission cavity.

Preferably, in the above scheme, the shaping mechanism includes a winding motor fixedly arranged on the lower end surface of the telescopic slider, the lower end surface of the winding motor is in driving connection with a winding shaft, a fabric is wound on the winding shaft, a plurality of magnetic columns are arranged in the fabric at equal intervals, an electromagnet is fixedly arranged on the inner end surface of the clamping plate, and the shaping mechanism can be used for applying pressure to the inner wall of the barrel regardless of the opening position of the closed metal barrel.

Preferably, in the above scheme, a fracture is arranged on the inner surface of the fabric, and an electromagnetic shielding film extending to the fracture is attached to the inner side surface of the fabric, so that the electromagnetic shielding film can prevent the fabric from being too long and being wound for multiple turns, which causes different acting forces.

Preferably, in the above scheme, clamping mechanism sets up including rotating the belt chamber terminal surface down and extend to the knob axle of bottom plate upper surface, the fixed knob that is equipped with of up end of knob axle, the knob axle rear side the belt chamber terminal surface rotates to be equipped with and extends to the fluted disc axle in the central intracavity, in the belt chamber the knob axle with be equipped with between the fluted disc axle and press from both sides tight belt group, in the central intracavity the epaxial fluted disc that is equipped with of fluted disc, the outer terminal surface rotation that presss from both sides tight spout is equipped with and extends to the tight lead screw of clamp in the central intracavity, in the central intracavity the last bevel gear that is fixed of tight lead screw that presss from both sides, the bevel gear with the fluted disc meshing, this clamping mechanism can press from both sides the metal drum tightly, also can adapt to the metal drum of different barrel footpaths simultaneously.

Preferably, in the above scheme, the storage mechanism is in including rotating the setting accomodate the power shaft on accomodating transmission chamber front and back inner wall, it accomodates the power wheel to fixedly be equipped with on the power shaft to accomodate, accomodate the power wheel can with telescopic slide block meshing, accomodate the power shaft downside it is equipped with the closing axle to rotate on accomodating the transmission chamber inner wall, the closing axle with accomodate and be connected with between the power shaft and accomodate the belt unit, the fixed closing wheel that is equipped with on the closing axle, fixed being equipped with on the interior terminal surface of closing wheel extends to accomodate the closing plate of intracavity, this storage mechanism can accomodate the magnetism post, prevents that external environment from influencing the magnetism of magnetism post.

Preferably, in the above scheme, the lower end surface of the winding shaft is provided with a contact sliding chute with a downward opening, a contact block is arranged in the contact sliding chute in a sliding manner, a contact spring is fixedly connected between the contact block and the winding shaft, and the upper end surface of the contact sliding chute is fixedly provided with a contact switch which can control the switch of the telescopic rod and the electromagnet.

Preferably, in the above scheme, a weight sensor is fixedly arranged on the upper end face of the bottom plate between the clamping plates, and the weight sensor can adjust the power of the electromagnet according to the weight of the metal bucket.

The invention has the beneficial effects that: according to the invention, the magnetic fabric is attached to the inner wall of the metal barrel, the metal barrel is repaired under the interaction of the fabric and the electromagnet outside the metal barrel, and the fabric can be easily taken out only by winding out after the repair is finished, so that the metal barrel can be applied to various metal barrels with different closed positions, and the metal barrel can be shaped quickly;

the bevel gear is used for driving and adjusting the position of the clamping block, so that the bevel gear clamping device is suitable for metal barrels with different barrel diameters, and the practicability is improved;

the invention judges the wall thickness of the metal barrel by sensing the weight of the metal barrel through the weight sensor, thereby adjusting the power of the electromagnet and changing the shaping strength.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic view of the overall structure of a shaping device for a closed metal barrel according to the present invention;

FIG. 3 is a schematic view of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a block diagram of the contact block of FIG. 2 according to the present invention;

FIG. 5 is a block diagram of the clamping traveling block of FIG. 2 in accordance with the present invention;

FIG. 6 is a schematic view of B-B of FIG. 2 according to the present invention;

FIG. 7 is a schematic representation of C-C of FIG. 2 of the present invention;

FIG. 8 is a schematic view of the invention taken at D-D in FIG. 2;

as shown in the figure:

11. a vertical plate; 12. an upper mounting plate; 13. a moving motor; 14. a moving chute; 15. moving the screw rod; 16. moving the receiving block; 17. a telescopic mounting plate; 18. a telescopic rod; 19. a telescopic slide block; 20. a winding motor; 21. a winding shaft; 22. fabric; 23. a base plate; 24. clamping the chute; 25. clamping the screw rod; 26. clamping the moving block; 27. a central lumen; 28. a fluted disc; 29. a bevel gear; 30. a clamping plate; 31. an electromagnet; 32. a power shaft is stored; 33. a belt group is stored; 34. a power wheel is stored; 35. a sealing wheel; 36. closing the shaft; 37. a contact switch; 38. a contact chute; 39. a contact block; 40. a contact spring; 41. a receiving transmission cavity; 42. a closing plate; 43. breaking off; 44. a buffer slide block; 45. a buffer spring; 46. a buffer chute; 47. clamping the belt set; 48. a fluted disc shaft; 49. a knob shaft; 50. a knob; 51. a belt chamber; 52. a magnetic column; 53. a weight sensor; 54. a clamping mechanism; 55. a storage mechanism; 56. a shaping mechanism; 57. a receiving cavity.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe one closed metal drum reshaping device or several specific embodiments of the invention, and not to strictly limit the scope of the invention as specifically claimed, as used herein, the terms upper, lower, left and right are not limited to their strict geometric definition, but include tolerances for reasonable and inconsistent machining or human error, the following detailed description of which is given in detail:

referring to fig. 1 to 8, a shaping device for a closed metal barrel according to an embodiment of the present invention includes a bottom plate 23, six clamping chutes 24 annularly arranged and having upward openings are formed on an upper end surface of the bottom plate 23, clamping moving blocks 26 are slidably disposed in the clamping chutes 24, a central cavity 27 is disposed in the bottom plate 23 at a central position of the clamping chutes 24, a belt cavity 51 is disposed on a lower end surface of the central cavity 27, and clamping mechanisms 54 capable of adjusting positions of the clamping moving blocks 26 are disposed in the belt cavity 51 and the central cavity 27; a buffer sliding chute 46 with an upward opening is arranged on the upper end surface of the clamping moving block 26, a buffer sliding block 44 is arranged in the buffer sliding chute 46 in a sliding manner, a buffer spring 45 is fixedly arranged between the buffer sliding block 44 and the inner wall of the buffer sliding chute 46, a clamping plate 30 capable of sliding on the upper surface of the clamping moving block 26 is fixedly arranged on the upper end surface of the buffer sliding block 44, a vertical plate 11 is fixedly arranged on the upper end surface of the bottom plate 23, an upper mounting plate 12 is fixedly arranged on the front end surface of the vertical plate 11, a moving sliding chute 14 with a downward opening is arranged on the lower end surface of the upper mounting plate 12, a moving accommodating block 16 extending downwards is arranged in the moving sliding chute 14 in a sliding manner, a moving motor 13 is fixedly arranged on the left end surface of the moving sliding chute 14, a moving screw rod 15 extending into the moving sliding chute 14 is connected to the right end surface of the moving motor 13 in a driving manner, and an accommodating cavity 57 with a downward opening is arranged on the lower end surface of the moving accommodating block 16, a telescopic mounting plate 17 is fixedly arranged on the upper end face of the containing cavity 57, a telescopic rod 18 is arranged on the lower end face of the telescopic mounting plate 17, a telescopic slide block 19 which is arranged on the inner wall of the containing cavity 57 in a sliding manner is arranged on the lower end face of the telescopic rod 18, and a shaping mechanism 56 which can uniformly exert force on the barrel wall is arranged on the telescopic slide block 19; two symmetrically-arranged storage transmission cavities 41 are arranged on the left inner wall and the right inner wall of the storage cavity 57, and a storage mechanism 55 capable of storing the telescopic slide block 19 is arranged in each storage transmission cavity 41.

Advantageously or exemplarily, the truing mechanism 56 comprises a winding motor 20 fixedly arranged on the lower end face of the telescopic slider 19, the lower end surface of the winding motor 20 is connected with a winding shaft 21 in a driving way, a fabric 22 is wound on the winding shaft 21, a plurality of magnetic columns 52 are arranged in the fabric 22 at equal intervals, the inner end surface of the clamping plate 30 is fixedly provided with an electromagnet 31, when the fabric 22 extends into the metal barrel, the electromagnet 31 is electrified, at the same time, the winding motor 20 is started, the winding motor 20 drives the winding shaft 21 to rotate, at this time, the electromagnet 31 attracts the magnetic column 52, so that the magnetic column 52 drives the fabric 22 to be attached to the inner wall of the barrel, and with the rotation of the winding shaft 21, the fabric 22 is unscrewed, the fabric 22 covers the inner wall of the barrel completely under the action of the electromagnet 31, then, under the interaction force of the magnetic column 52 and the electromagnet 31, the inner wall of the metal barrel is shaped and repaired.

Advantageously or exemplarily, a fracture 43 is arranged on the inner surface of the fabric 22, and an electromagnetic shielding film extending to the fracture 43 is attached to the inner side surface of the fabric 22.

Advantageously or exemplarily, the clamping mechanism 54 includes a knob shaft 49 rotatably disposed at a lower end surface of the belt cavity 51 and extending to an upper surface of the bottom plate 23, a knob 50 is fixedly disposed at an upper end surface of the knob shaft 49, a fluted disc shaft 48 extending into the central cavity 27 is rotatably disposed at a lower end surface of the belt cavity 51 at a rear side of the knob shaft 49, a clamping belt set 47 is disposed between the knob shaft 49 and the fluted disc shaft 48 in the belt cavity 51, a fluted disc 28 is fixedly disposed on the fluted disc shaft 48 in the central cavity 27, an outer end surface of the clamping runner 24 is rotatably disposed with a clamping screw 25 extending into the central cavity 27, a bevel gear 29 is fixedly disposed on the clamping screw 25 in the central cavity 27, the bevel gear 29 is engaged with the fluted disc 28, when the knob 50 is rotated, the knob shaft 49 is driven by the knob shaft 49, the fluted disc shaft 48 is driven to rotate by the clamping belt set 47, the fluted disc shaft 48 drives the fluted disc 28 to rotate, the fluted disc 28 drives the clamping screw rod 25 to rotate through the bevel gear 29, and the clamping screw rod 25 drives the clamping moving block 26 to move.

Beneficially or exemplarily, the accommodating mechanism 55 includes an accommodating power shaft 32 rotatably disposed on the front and rear inner walls of the accommodating transmission cavity 41, an accommodating power wheel 34 is fixedly disposed on the accommodating power shaft 32, the accommodating power wheel 34 is capable of engaging with the retractable slider 19, a sealing shaft 36 is rotatably disposed on the inner wall of the accommodating transmission cavity 41 on the lower side of the accommodating power shaft 32, an accommodating belt set 33 is connected between the sealing shaft 36 and the accommodating power shaft 32, a sealing wheel 35 is fixedly disposed on the sealing shaft 36, a sealing plate 42 extending into the accommodating cavity 57 is fixedly disposed on the inner end surface of the sealing wheel 35, when the retractable slider 19 descends, the retractable slider 19 drives the accommodating power wheel 34 to rotate, the accommodating power wheel 34 drives the accommodating power shaft 32 to rotate, the accommodating power shaft 32 rotates the sealing shaft 36 through the accommodating belt set 33, the sealing shaft 36 drives the sealing wheel 35 to rotate, the closing wheel 35 rotates so that the closing plate 42 is opened, and when the telescopic slider 19 is raised, the closing shaft 36 is reversed so that the closing plate 42 closes the housing chamber 57.

Advantageously or exemplarily, the lower end surface of the winding shaft 21 is provided with a contact sliding chute 38 with a downward opening, a contact block 39 is slidably arranged in the contact sliding chute 38, a contact spring 40 is fixedly connected between the contact block 39 and the winding shaft 21, a contact switch 37 is fixedly arranged on the upper end surface of the contact sliding chute 38, when the contact block 39 contacts the bottom of the metal bucket, the contact block 39 moves upward relative to the winding shaft 21, the contact block 39 contacts the contact switch 37, and the contact switch 37 controls the telescopic rod 18 to stop extending and simultaneously starts the winding motor 20 and the electromagnet 31.

Advantageously or exemplarily, a weight sensor 53 is fixedly arranged on the upper end surface of the bottom plate 23 between the clamping plates 30, and the weight sensor 53 can adjust the power of the electromagnet 31 according to the weight of the metal bucket.

The invention relates to a closed metal barrel shaping device, which comprises the following working procedures:

putting a metal barrel to be shaped between clamping plates 30, rotating a knob 50, wherein the knob 50 drives a knob shaft 49 to rotate, the knob shaft 49 drives a fluted disc shaft 48 to rotate through a clamping belt set 47, the fluted disc shaft 48 drives a fluted disc 28 to rotate, the fluted disc 28 drives a clamping lead screw 25 to rotate through a bevel gear 29, the clamping lead screw 25 drives a clamping moving block 26 to move, the clamping moving block 26 drives the clamping plates 30 to move, so that the clamping plates 30 clamp the metal barrel, a buffer spring 45 plays a buffering role in the clamping process, then a moving motor 13 is started, the moving motor 13 drives a moving lead screw 15 to rotate, the moving lead screw 15 drives a moving containing block 16 to move until the moving containing block 16 faces the closed position of the metal barrel, then an expansion link 18 extends, the expansion link 18 drives an expansion slide block 19 to descend, the expansion slide block 19 drives a containing power wheel 34 to rotate, the containing power wheel 34 drives a containing power shaft 32 to rotate, the storage power shaft 32 rotates the sealing shaft 36 to rotate through the storage belt set 33, the sealing shaft 36 drives the sealing wheel 35 to rotate, the sealing wheel 35 rotates to open the sealing plate 42, then the winding shaft 21 gradually extends into the metal barrel, when the contact block 39 contacts the bottom of the metal barrel, the contact block 39 moves upwards relative to the winding shaft 21, the contact block 39 contacts the contact switch 37, the contact switch 37 controls the telescopic rod 18 to stop extending, the winding motor 20 and the electromagnet 31 are started simultaneously, the winding motor 20 drives the fabric 22 to rotate through the winding shaft 21, the electromagnet 31 attracts the magnetic column 52, the magnetic column 52 drives the fabric 22 to be attached to the inner wall of the barrel, the fabric 22 is unscrewed along with the rotation of the winding shaft 21, the fabric 22 completely covers the inner wall of the barrel under the action of the electromagnet 31, and the electromagnetic shielding film attached to the inner side surface of the fabric 22 prevents the attached second layer from generating acting force, then, under the interaction force of the magnetic column 52 and the electromagnet 31, the inner wall of the metal barrel is shaped and repaired;

after the shaping is finished, the electromagnet 31 is powered off, so that the fabric 22 falls off from the barrel wall, then the winding motor 20 rotates reversely, the winding motor 20 drives the winding shaft 21 to wind the fallen fabric 22 again, and because the electromagnetic shielding film is only attached to the fracture 43, so that the outermost magnetic column 52 can be adsorbed on the inner magnetic column 52, so that the wound fabric 22 cannot be scattered, then the telescopic rod 18 is restored, the telescopic rod 18 drives the telescopic slider 19 to ascend, the telescopic slider 19 drives the sealing shaft 36 to rotate reversely, so that the sealing plate 42 seals the accommodating cavity 57, the magnetism of the magnetic column 52 is prevented from being influenced by external factors, and the service life of the magnetic column 52 is prolonged.

The above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims

1. A closed metal bucket reshaping device, comprising a bottom plate (23), characterized in that: the upper end face of the bottom plate (23) is provided with six clamping sliding grooves (24) which are annularly arranged and have upward openings, clamping moving blocks (26) are arranged in the clamping sliding grooves (24) in a sliding mode, a central cavity (27) is formed in the bottom plate (23) at the central position of the clamping sliding grooves (24), a belt cavity (51) is formed in the lower end face of the central cavity (27), and clamping mechanisms (54) capable of adjusting the positions of the clamping moving blocks (26) are arranged in the belt cavity (51) and the central cavity (27);

the upper end face of the clamping moving block (26) is provided with a buffer sliding groove (46) with an upward opening, a buffer sliding block (44) is arranged in the buffer sliding groove (46) in a sliding manner, a buffer spring (45) is fixedly arranged between the buffer sliding block (44) and the inner wall of the buffer sliding groove (46), the upper end face of the buffer sliding block (44) is fixedly provided with a clamping plate (30) capable of sliding on the upper surface of the clamping moving block (26), the upper end face of the bottom plate (23) is fixedly provided with a vertical plate (11), the front end face of the vertical plate (11) is fixedly provided with an upper mounting plate (12), the lower end face of the upper mounting plate (12) is provided with a moving sliding groove (14) with a downward opening, a moving accommodating block (16) extending downwards is arranged in the moving sliding groove (14) in a sliding manner, the left end face of the moving sliding groove (14) is fixedly provided with a moving motor (13), and the right end face of the moving motor (13) is connected with a moving wire extending into the moving sliding groove (14) in a driving manner The lower end face of the movable containing block (16) is provided with a containing cavity (57) with a downward opening, the upper end face of the containing cavity (57) is fixedly provided with a telescopic mounting plate (17), the lower end face of the telescopic mounting plate (17) is provided with a telescopic rod (18), the lower end face of the telescopic rod (18) is provided with a telescopic sliding block (19) which is arranged on the inner wall of the containing cavity (57) in a sliding manner, and the telescopic sliding block (19) is provided with a shaping mechanism (56) capable of uniformly exerting force on the barrel wall; two symmetrically-arranged storage transmission cavities (41) are arranged on the left inner wall and the right inner wall of the storage cavity (57), and a storage mechanism (55) capable of storing the telescopic slide block (19) is arranged in each storage transmission cavity (41);

the shaping mechanism (56) comprises a winding motor (20) fixedly arranged on the lower end face of the telescopic sliding block (19), the lower end face of the winding motor (20) is connected with a winding shaft (21) in a driving mode, a fabric (22) is wound on the winding shaft (21), a plurality of magnetic columns (52) are arranged in the fabric (22) at equal intervals, and an electromagnet (31) is fixedly arranged on the inner end face of the clamping plate (30);

a fracture (43) is arranged on the inner surface of the fabric (22), and an electromagnetic shielding film extending to the fracture (43) is attached to the inner side surface of the fabric (22).

2. The closed metal bucket reshaping device as set forth in claim 1, wherein: the clamping mechanism (54) comprises a knob shaft (49) which is rotatably arranged on the lower end surface of the belt cavity (51) and extends to the upper surface of the bottom plate (23), a knob (50) is fixedly arranged on the upper end surface of the knob shaft (49), a gear disc shaft (48) extending into the central cavity (27) is rotatably arranged on the lower end surface of the belt cavity (51) at the rear side of the knob shaft (49), a clamping belt set (47) is arranged between the knob shaft (49) and the gear disc shaft (48) in the belt cavity (51), a fluted disc (28) is fixedly arranged on the fluted disc shaft (48) in the central cavity (27), the outer end surface of the clamping sliding chute (24) is rotationally provided with a clamping screw rod (25) extending into the central cavity (27), a bevel gear (29) is fixedly arranged on the clamping screw rod (25) in the central cavity (27), and the bevel gear (29) is meshed with the fluted disc (28).

3. The closed metal bucket reshaping device as set forth in claim 1, wherein: accomodate mechanism (55) and set up including rotating accomodate power shaft (32) on the inner wall around accomodating transmission chamber (41), it accomodate power wheel (34) to fixedly be equipped with on power shaft (32), accomodate power wheel (34) can with flexible slider (19) meshing, accomodate power shaft (32) downside it is equipped with closed axle (36) to rotate on accomodating transmission chamber (41) inner wall, closed axle (36) with it accomodates belt assembly (33) to be connected with between power shaft (32), fixedly on closed axle (36) be equipped with closed wheel (35), fixedly on the interior terminal surface of closed wheel (35) be equipped with extend to accomodate closing plate (42) in chamber (57).

4. The closed metal bucket reshaping device as set forth in claim 1, wherein: the winding device is characterized in that a contact sliding groove (38) with a downward opening is formed in the lower end face of the winding shaft (21), a contact block (39) is arranged in the contact sliding groove (38) in a sliding mode, the contact block (39) is fixedly connected with a contact spring (40) between the winding shaft (21), and a contact switch (37) is fixedly arranged on the upper end face of the contact sliding groove (38).

5. The closed metal bucket reshaping device as set forth in claim 1, wherein: and a weight sensor (53) is fixedly arranged on the upper end surface of the bottom plate (23) between the clamping plates (30), and the power of the electromagnet (31) can be adjusted by the weight sensor (53) according to the weight of the metal barrel.