CN111922165A

CN111922165A - Stamping die is used in production of metal tray

Info

Publication number: CN111922165A
Application number: CN202011116260.7A
Authority: CN
Inventors: 林明青
Original assignee: Yantai Beilun Environmental Protection Technology Co ltd
Current assignee: SUZHOU ZEYU TECHNOLOGY Co.,Ltd.
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2020-11-13
Anticipated expiration: 2040-10-19
Also published as: CN111922165B

Abstract

The invention discloses a stamping die for producing a metal tray, and belongs to the technical field of stamping. A stamping die for producing metal trays comprises: the first stamping device further comprises: the stamping device comprises a first stamping device, a second stamping device and a power device, wherein the first stamping device and the second stamping device are arranged opposite to each other, the structural shapes of the first stamping device and the second stamping device are completely consistent, the power device used for providing power for the first stamping device and the second stamping device is arranged between the first stamping device and the second stamping device, the power device is meshed with the first stamping device and the second stamping device, and the connection relations between the first stamping device and the power device and between the second stamping device and the power device are consistent.

Description

Stamping die is used in production of metal tray

Technical Field

The invention belongs to the technical field of stamping, and particularly relates to a stamping die for producing a metal tray.

Background

The pallet is also called a pallet and a clamping plate, is a horizontal platform device used for containerizing, stacking, carrying and transporting goods and products which are used as unit loads, is important loading, unloading, storing and transporting equipment in the logistics operation process, is used as containerizing equipment similar to a container, and is widely applied to the fields of production, transportation, storage, circulation and the like.

In current tray production stamping technology, carry out stamping operation during the same time and only can carry out the punching press to a part, cause work efficiency low, and stamping operation, because long-time impact, a large amount of heats of punching press part accumulation, these heats can lead to the fact the influence to stamping operation.

Disclosure of Invention

The invention aims to solve the problems that the existing stamping die for tray production is low in efficiency and the heat generated during working can interfere with the stamping work, and provides a stamping die for metal tray production.

In order to achieve the purpose, the invention adopts the following technical scheme:

a stamping die for producing metal trays comprises: the first stamping device further comprises: the second stamping device is arranged opposite to the first stamping device, the structural shapes of the first stamping device and the second stamping device are completely consistent, a power device used for providing power for the first stamping device and the second stamping device is arranged between the first stamping device and the second stamping device, the power device is meshed with the first stamping device and the second stamping device, and the connection relations of the first stamping device and the second stamping device and the power device are consistent; the first stamping device comprises a lower die mechanism, an upper die mechanism which is positioned above the lower die mechanism and corresponds to the lower die mechanism, feeding mechanisms positioned at two sides of the lower die mechanism, and a material conveying mechanism positioned below the lower die mechanism; the lower die mechanism comprises two bearing plates which are parallel to each other, the two bearing plates are horizontally arranged and are cuboids, die holes are uniformly formed in four side faces of the two bearing plates at intervals, the die holes are perpendicular to the bearing plates, the bottoms of the die holes are conical, first rotating shafts penetrate through the two bearing plates, supporting plates which are vertically arranged are arranged at two ends of each first rotating shaft, through holes are formed in the supporting plates, the first rotating shafts are movably connected with the supporting plates, first gears are coaxially sleeved outside the same ends of the two first rotating shafts, two second gears are arranged between the two first gears and meshed with adjacent second gears, the two second gears are meshed with each other, second rotating shafts penetrate through the second gears coaxially, the second rotating shafts are movably connected with the supporting plates, a first bevel gear is coaxially sleeved at a suspension end of one second rotating shaft, and the first bevel gear is meshed with a power device.

Preferably, the power device comprises a second bevel gear meshed with the first bevel gear, and a second motor is coaxially connected with the second bevel gear.

Preferably, defeated material mechanism including the backup pad that is located two bearing plates below, the parallel bearing plate extending direction of backup pad length direction, the backup pad overcoat be equipped with the second conveyer belt, the parallel backup pad length direction of second conveyer belt direction of delivery, the backup pad both sides be connected with same first support, first support bottom is provided with the first pneumatic cylinder of vertical arrangement.

Preferably, reinforced mechanism be provided with two and divide and arrange lower die mechanism both sides in, reinforced mechanism including setting up in the mounting panel of bearing plate outside one side, the mounting panel is provided with the arm that corresponds with the nib towards one side of bearing plate, is provided with first conveyer belt between mounting panel and the bearing plate, the parallel mounting panel length direction of first conveyer belt direction of delivery, first conveyer belt on the area face be provided with a plurality of disc, the disc matches with the nib inner chamber.

Preferably, the upper die mechanism comprises a connecting plate and a second support, the connecting plate and the second support are horizontally arranged above the bearing plate, the top of the second support is movably connected with the connecting plate, the second support can slide up and down, the connecting plate is parallel to the bearing plate, a second hydraulic cylinder is vertically arranged at the center of the top of the connecting plate, and a plurality of stamping components corresponding to die holes at the top of the bearing plate are uniformly arranged at the bottom of the connecting plate at intervals;

the stamping component comprises a frame body assembly arranged at the bottom of the connecting plate, a rotating stamping assembly movably arranged at the bottom of the frame body assembly, and a lifting assembly arranged in the frame body assembly and used for lifting the rotating stamping assembly;

the frame body assembly comprises stress plates arranged at the bottoms of connecting plates, first vertical plates extending vertically and downwards are arranged on two sides of the bottoms of the stress plates, the connecting plates are arranged between the two first vertical plates, vertically extending sliding grooves are formed in the bottom ends of the two first vertical plates, second vertical plates are arranged between two sides of the two first vertical plates, abutting plates are arranged between the bottoms of the two second vertical plates, and clamping grooves are formed in the bottoms of the abutting plates;

the rotary stamping assembly comprises a third rotating shaft which is arranged in the two sliding grooves in a matched penetrating mode, one end of the third rotating shaft is provided with a first motor, the first motor is connected with the second support, a rotary drum is coaxially sleeved outside the third rotating shaft and is arranged between the two first vertical plates, four stamping rods are uniformly arranged on the outer circular surface of the rotary drum at intervals along the circumferential direction, the stamping rods extend along the radial direction of the rotary drum, the suspension ends of the stamping rods are matched with the die holes and the clamping grooves, a third gear is coaxially sleeved outside one end, close to the first motor, of the third rotating shaft, the same chain is arranged on each third gear, and the third gears are connected and driven through the chains;

the lifting assembly comprises a mounting groove and a bearing which are vertically arranged at the center of the top of the stress plate, an electric push rod is arranged in the mounting groove, a horizontal plate which is horizontally arranged is arranged at the bottom of the electric push rod and is positioned above the touch plate, the length direction of the horizontal plate is parallel to the axial direction of a third rotating shaft, the two ends of the bottom of the horizontal plate in the length direction are provided with a third vertical plate which vertically extends downwards, the bottom of the third vertical plate is coaxially sleeved outside the third rotating shaft, and the third vertical plate is movably connected with the third rotating shaft through the bearing.

Compared with the prior art, the invention provides a stamping die for producing a metal tray, which has the following beneficial effects:

1. according to the stamping die, the second motor drives the second bevel gear to rotate, the second bevel gear drives the first bevel gear to rotate, the first bevel gear drives the second gear to rotate through the second rotating shaft, the second gear drives the adjacent first gear to rotate, meanwhile, the second gear drives the other first gear to rotate through the other second gear, and the first gear drives the bearing plate to rotate ninety degrees through the first rotating shaft, so that die holes on different surfaces are replaced, the practical times of a single die hole are reduced, and the influence of heat generated by friction during stamping on the deformation of a stamping part is reduced.

2. According to the invention, the first hydraulic cylinder pushes the supporting plate to abut against the bottom of the bearing plate through the first support, so that the impact force generated by stamping is conveniently borne, the second conveying belt is used for conveying the stamped metal tray away, and the round iron sheet is placed at the bottom of the corresponding die hole facing the mounting plate through the sucking disc on the mechanical arm.

3. In the initial state of the invention, the suspension end of the stamping rod is arranged in the clamping groove in a matching way, the second hydraulic cylinder pushes the connecting plate to move downwards, the connecting plate drives the stamping component to move downwards, the stamping rod at the lowest part of the stamping component enters the die hole and stamps a round iron sheet into a metal tray, then the second hydraulic cylinder drives the stamping component to reset upwards through the connecting plate, then the bearing plate is turned to replace the die hole by ninety degrees, at the moment, the electric push rod drives the rotary stamping component to move downwards through the horizontal plate, the third vertical plate and the bearing, at the moment, the suspension end of the stamping rod is separated from the clamping groove, the first motor is started and drives the rotary drum and the stamping rod to rotate by ninety degrees through the third rotating shaft, so that the other stamping rod is positioned at the lowest part, the stamping rod is convenient to cool by replacing the stamping rod, the heat generated by impact is prevented from influencing the formation of the stamping part, the punching press pole suspension end matching of the top at this moment sets up in the draw-in groove, accomplishes fixedly, carries out the punching press afterwards, so relapse, and the third pivot passes through the chain and drives all rotation punching press subassembly synchronous motion, can accomplish the punching press work of a plurality of stamping parts simultaneously, has improved work efficiency.

Drawings

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

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic structural diagram of a first punching apparatus according to the present invention;

FIG. 4 is a schematic structural view of the charging mechanism of the present invention;

FIG. 5 is a schematic structural view of a feeding mechanism according to the present invention;

FIG. 6 is a schematic view of a first rotating shaft of the lower die mechanism of the present invention;

FIG. 7 is a schematic structural view of a bearing plate and a die hole of the present invention;

FIG. 8 is a schematic structural view of an upper die mechanism of the present invention;

FIG. 9 is a schematic structural view of a carriage assembly in the upper die mechanism of the present invention;

FIG. 10 is a schematic structural view of the lifting assembly, the force-bearing plate and the first vertical plate of the upper die mechanism of the present invention;

FIG. 11 is a schematic view of a rotary punching assembly according to the present invention;

FIG. 12 is a cutaway schematic view of the frame assembly of the present invention;

fig. 13 is a schematic structural diagram of the lifting assembly of the present invention.

The reference numbers in the figures illustrate:

10. a first stamping device; 110. a lower die mechanism; 111. a support plate; 112. a first rotating shaft; 113. a pressure bearing plate; 114. a die hole; 115. a first gear; 116. a second gear; 117. a second rotating shaft; 118. a first bevel gear; 119. a through hole; 120. a material conveying mechanism; 121. a support plate; 122. a second conveyor belt; 123. a first bracket; 124. a first hydraulic cylinder; 130. a feeding mechanism; 131. mounting a plate; 132. a mechanical arm; 133. a first conveyor belt; 134. a round iron sheet; 140. an upper die mechanism; 141. a second hydraulic cylinder; 142. a connecting plate; 143. a punch member; 1431. a frame assembly; 14311. a stress plate; 14312. a first vertical plate; 14313. a second vertical plate; 14314. a touch plate; 14315. a chute; 14316. a card slot; 1432. a lifting assembly; 14321. mounting grooves; 14322. an electric push rod; 14323. a horizontal plate; 14324. a third vertical plate; 14325. a bearing; 1433. rotating the stamping assembly; 14331. a first motor; 14332. a third rotating shaft; 14333. a rotating drum; 14334. a stamping rod; 14335. a third gear; 14336. a chain; 144. a second bracket; 20. a second stamping device; 30. a power plant; 310. a second motor; 320. a second bevel gear.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the mechanism or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 to 13, a metal pallet producing press mold includes: the first punching device 10 further includes: and the second punching device 20 is arranged opposite to the first punching device 10, the structural shapes of the first punching device 10 and the second punching device 20 are completely consistent, a power device 30 for supplying power to the first punching device 10 and the second punching device 20 is arranged between the first punching device 10 and the second punching device 20, the power device 30 is meshed with the first punching device 10 and the second punching device 20, and the connection relationship between the first punching device 10 and the second punching device 20 and the power device 30 is consistent.

The first stamping device 10 includes a lower die mechanism 110, an upper die mechanism 140 located above the lower die mechanism 110 and corresponding to the lower die mechanism 110, feeding mechanisms 130 located at two sides of the lower die mechanism 110, and a feeding mechanism 120 located below the lower die mechanism 110.

The lower die mechanism 110 comprises two parallel bearing plates 113, the two bearing plates 113 are horizontally arranged, the two bearing plates 113 are cuboid, die holes 114 are uniformly arranged on four side surfaces of the two bearing plates 113 at intervals, the die holes 114 are perpendicular to the bearing plates 113, the bottoms of the die holes 114 are conical, first rotating shafts 112 penetrate through the two bearing plates 113, supporting plates 111 which are vertically arranged are arranged at two ends of the first rotating shafts 112, through holes 119 are formed in the supporting plates 111, the first rotating shafts 112 are movably connected with the supporting plates 111, first gears 115 are coaxially sleeved outside the same ends of the two first rotating shafts 112, two second gears 116 are arranged between the two first gears 115, the first gears 115 are meshed with the adjacent second gears 116, the two second gears 116 are mutually meshed, second rotating shafts 117 coaxially penetrate through the second gears 116, the second rotating shafts 117 are movably connected with the supporting plates 111, a suspension end of one second rotating shaft 117 is coaxially sleeved with a first bevel gear 118, the first bevel gear 118 is engaged with the power device 30.

The power device 30 comprises a second bevel gear 320 engaged with the first bevel gear 118, and the second bevel gear 320 is coaxially connected with a second motor 310.

The second motor 310 drives the second bevel gear 320 to rotate, the second bevel gear 320 drives the first bevel gear 118 to rotate, the first bevel gear 118 drives the second gear 116 to rotate through the second rotating shaft 117, the second gear 116 drives the adjacent first gear 115 to rotate, meanwhile, the second gear 116 drives the other first gear 115 to rotate through the other second gear 116, the first gear 115 drives the bearing plate 113 to rotate ninety degrees through the first rotating shaft 112, so that the die holes 114 on different surfaces are replaced, the practical times of a single die hole 114 are reduced, and the influence of heat generated by friction during stamping on the deformation of the stamping part is reduced.

The material conveying mechanism 120 comprises a support plate 121 positioned below the two bearing plates 113, the length direction of the support plate 121 is parallel to the extending direction of the bearing plates 113, a second conveying belt 122 is sleeved outside the support plate 121, the conveying direction of the second conveying belt 122 is parallel to the length direction of the support plate 121, two sides of the support plate 121 are connected with a same first support 123, and the bottom of the first support 123 is provided with a first hydraulic cylinder 124 which is vertically arranged; the first hydraulic cylinder 124 pushes the support plate 121 to abut against the bottom of the bearing plate 113 through the first bracket 123, so as to bear the impact force generated by stamping, and the second conveyor belt 122 is used for conveying away the stamped metal tray.

The feeding mechanism 130 is provided with two feeding mechanisms which are respectively arranged at two sides of the lower die mechanism 110, the feeding mechanism 130 comprises a mounting plate 131 arranged at one side of the outer side of the bearing plate 113, a mechanical arm 132 corresponding to the die hole 114 is arranged at one side of the mounting plate 131 facing the bearing plate 113, a first conveyer belt 133 is arranged between the mounting plate 131 and the bearing plate 113, the conveying direction of the first conveyer belt 133 is parallel to the length direction of the mounting plate 131, a plurality of round iron sheets 134 are arranged on the upper belt surface of the first conveyer belt 133, and the round iron sheets 134 are matched with the inner cavity of the die hole 114; the round iron piece 134 is placed into the bottom of the corresponding hole of the molding hole 114 facing the mounting plate 131 by the suction cup of the robot arm 132.

The upper die mechanism 140 comprises a connecting plate 142 and a second support 144, the connecting plate 142 and the second support 144 are horizontally arranged above the bearing plate 113, the top of the second support 144 is movably connected with the connecting plate 142, the second support 144 can slide up and down, the connecting plate 142 is parallel to the bearing plate 113, a second hydraulic cylinder 141 is vertically arranged at the center of the top of the connecting plate 142, and a plurality of stamping members 143 corresponding to die holes 114 at the top of the bearing plate 113 are evenly arranged at the bottom of the connecting plate 142 at intervals.

The punching member 143 includes a frame assembly 1431 disposed at the bottom of the connecting plate 142, a rotary punching assembly 1433 movably disposed at the bottom of the frame assembly 1431, and an elevating assembly 1432 disposed inside the frame assembly 1431 for elevating and lowering the rotary punching assembly 1433.

The holder body assembly 1431 comprises a force bearing plate 14311 arranged at the bottom of the connecting plate 142, first vertical plates 14312 extending vertically and downwardly are arranged on two sides of the bottom of the force bearing plate 14311, the connecting plate 142 is arranged between the two first vertical plates 14312, sliding grooves 14315 extending vertically are formed in the bottom ends of the two first vertical plates 14312, second vertical plates 14313 are arranged between two sides of the two first vertical plates 14312, interference plates 14314 are arranged between the bottoms of the two second vertical plates 14313, and clamping grooves 14316 are formed in the bottoms of the interference plates 14314.

The rotary punching assembly 1433 includes a third rotating shaft 14332 passing through the two sliding slots 14315 in a matching manner, one end of the third rotating shaft 14332 is provided with a first motor 14331, the first motor 14331 is connected with the second bracket 144, a rotary drum 14333 is coaxially sleeved outside the third rotating shaft 14332, the rotary drum 14333 is interposed between the two first vertical plates 14312, four punching rods 14334 are uniformly arranged on the outer circumferential surface of the rotary drum 14333 at intervals along the circumferential direction, the punching rods 14334 radially extend along the rotary drum 14333, the suspension end of the punching rod 14334 is matched with the die hole 114 and the clamping slot 14316, a third gear 14335 is coaxially sleeved outside one end of the third rotating shaft 14332 close to the first motor 14331, each third gear 14335 is provided with a same chain 14336, and each third gear 14335 realizes connection transmission through the chain 14336.

The lifting assembly 1432 comprises a mounting groove 14321 and a bearing 14325 vertically arranged at the center of the top of the force bearing plate 14311, an electric push rod 14322 is arranged in the mounting groove 14321, a horizontal plate 14323 horizontally arranged is arranged at the bottom of the electric push rod 14322, the horizontal plate 14323 is located above the abutting plate 14314, the length direction of the horizontal plate 14323 is parallel to the axial direction of the third rotating shaft 14332, third vertical plates 14324 vertically extending downwards are arranged at two ends of the bottom of the horizontal plate 14323 in the length direction, the bottom of the third vertical plate 14324 is coaxially sleeved outside the third rotating shaft 14332, and the third vertical plate 14324 is movably connected with the third rotating shaft 14332 through the bearing 14325.

In the initial state, the suspended end of the punching rod 14334 is arranged in the clamping groove 14316 in a matching way, the second hydraulic cylinder 141 pushes the connecting plate 142 to move downwards, the connecting plate 142 drives the punching member 143 to move downwards, the punching rod 14334 at the lowest part of the punching member 143 enters the die hole 114 and punches the round iron sheet 134 into a metal tray, then the second hydraulic cylinder 141 drives the punching member 143 to reset upwards through the connecting plate 142, then the pressure bearing plate 113 overturns for replacing the die hole 114 by ninety degrees, at the same time, the electric push rod 14322 drives the rotary punching assembly 1433 to move downwards through the horizontal plate 14323, the third vertical plate 14324 and the bearing 14325, at the same time, the suspended end of the punching rod 14334 is separated from the clamping groove 14316, the first motor 14331 is started and drives the rotary drum 14333 and the punching rod 14334 to rotate by ninety degrees through the third rotating shaft 14332, so that the other punching rod 14334 is located at the lowest, the temperature of the punching rod 14334 is convenient to, finally, the electric push rod 14322 drives the rotary punching component 1433 to move upwards and reset through the horizontal plate 14323, the third vertical plate 14324 and the bearing 14325, the suspension end of the uppermost punching rod 14334 is matched and arranged in the clamping groove 14316 at the moment, fixing is completed, then punching is performed, and repeatedly, the third rotating shaft 14332 drives all the rotary punching components 1433 to move synchronously through the chain 14336, so that punching work of a plurality of punching parts can be completed simultaneously, and the working efficiency is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A stamping die for producing metal trays comprises: first stamping device (10), characterized by further comprising: the second stamping device (20) is arranged opposite to the first stamping device (10), the structural shapes of the first stamping device (10) and the second stamping device (20) are completely consistent, a power device (30) used for providing power for the first stamping device (10) and the second stamping device (20) is arranged between the first stamping device (10) and the second stamping device (20), the power device (30) is meshed with the first stamping device (10) and the second stamping device (20), and the connection relations of the first stamping device (10) and the second stamping device (20) and the power device (30) are consistent;

the first stamping device (10) comprises a lower die mechanism (110), an upper die mechanism (140) which is positioned above the lower die mechanism (110) and corresponds to the lower die mechanism (110), feeding mechanisms (130) which are positioned at two sides of the lower die mechanism (110), and a material conveying mechanism (120) which is positioned below the lower die mechanism (110);

the lower die mechanism (110) comprises two parallel bearing plates (113), the two bearing plates (113) are horizontally arranged, the two bearing plates (113) are cuboids, die holes (114) are uniformly arranged on four side faces of the two bearing plates (113) at intervals, the die holes (114) are perpendicular to the bearing plates (113), the bottoms of the die holes (114) are conical, first rotating shafts (112) penetrate through the two bearing plates (113), supporting plates (111) are vertically arranged at two ends of each first rotating shaft (112), through holes (119) are formed in the supporting plates (111), the first rotating shafts (112) are movably connected with the supporting plates (111), first gears (115) are coaxially sleeved outside the same ends of the two first rotating shafts (112), two second gears (116) are arranged between the two first gears (115), the first gears (115) are meshed with the adjacent second gears (116), the two second gears (116) are meshed with each other, a second rotating shaft (117) is coaxially arranged in the second gear (116) in a penetrating mode, the second rotating shaft (117) is movably connected with the support plate (111), a first bevel gear (118) is coaxially sleeved at the suspension end of one second rotating shaft (117), and the first bevel gear (118) is meshed with the power device (30).

2. The stamping die for producing metal trays as claimed in claim 1, wherein: the power device (30) comprises a second bevel gear (320) meshed with the first bevel gear (118), and the second bevel gear (320) is coaxially connected with a second motor (310).

3. The stamping die for producing metal trays as claimed in claim 1, wherein: defeated material mechanism (120) including backup pad (121) that are located two bearing plate (113) below, backup pad (121) parallel bearing plate of length direction (113) extending direction, backup pad (121) overcoat be equipped with second conveyer belt (122), parallel backup pad of second conveyer belt (122) direction of delivery (121) length direction, backup pad (121) both sides be connected with same first support (123), first support (123) bottom is provided with vertical first pneumatic cylinder (124) of arranging.

4. The stamping die for producing metal trays as claimed in claim 1, wherein: reinforced mechanism (130) be provided with two and divide and arrange lower die mechanism (110) both sides in, reinforced mechanism (130) including setting up in mounting panel (131) of bearing plate (113) outside one side, mounting panel (131) are provided with arm (132) that correspond with nib (114) towards one side of bearing plate (113), be provided with between mounting panel (131) and bearing plate (113) first conveyer belt (133), first conveyer belt (133) direction of delivery parallel mounting panel (131) length direction, first conveyer belt (133) upper band face be provided with a plurality of disc (134), disc (134) and nib (114) inner chamber match.

5. The stamping die for producing metal trays as claimed in claim 1, wherein: the upper die mechanism (140) comprises a connecting plate (142) and a second support (144), the connecting plate (142) and the second support (144) are horizontally arranged above the bearing plate (113), the top of the second support (144) is movably connected with the connecting plate (142), the second support (144) can slide up and down, the connecting plate (142) is parallel to the bearing plate (113), a second hydraulic cylinder (141) is vertically arranged at the center of the top of the connecting plate (142), and a plurality of stamping members (143) corresponding to die holes (114) in the top of the bearing plate (113) are uniformly arranged at intervals at the bottom of the connecting plate (142);

the stamping component (143) comprises a frame body component (1431) arranged at the bottom of the connecting plate (142), a rotating stamping component (1433) movably arranged at the bottom of the frame body component (1431), and a lifting component (1432) arranged in the frame body component (1431) and used for lifting and rotating the stamping component (1433);

the rack body assembly (1431) comprises a stress plate (14311) arranged at the bottom of a connecting plate (142), first vertical plates (14312) extending vertically and downwards are arranged on two sides of the bottom of the stress plate (14311), the connecting plate (142) is arranged between the two first vertical plates (14312), a sliding groove (14315) extending vertically is formed in the bottom end of each first vertical plate (14312), a second vertical plate (14313) is arranged between two sides of each first vertical plate (14312), a touch plate (14314) is arranged between the bottoms of the two second vertical plates (14313), and a clamping groove (14316) is formed in the bottom of the touch plate (14314);

the rotary punching component (1433) comprises a third rotating shaft (14332) which is arranged in the two sliding grooves (14315) in a penetrating mode, one end of the third rotating shaft (14332) is provided with a first motor (14331), the first motor (14331) is connected with the second support (144), a rotary drum (14333) is coaxially sleeved outside the third rotary shaft (14332), the rotary drum (14333) is arranged between the two first vertical plates (14312), four punching rods (14334) are uniformly arranged on the outer circular surface of the rotary drum (14333) at intervals along the circumferential direction, the punching rods (14334) radially extend along the rotary drum (14333), the suspension ends of the punching rods (14334) are matched with the die holes (114) and the clamping grooves (14316), a third gear (14335) is coaxially sleeved outside one end, close to the first motor (14331), of the third rotary shaft (14332), the same chain (14336) is arranged on each third gear (14335), and the third gears (14335) are connected and driven through the chain (14336);

the lifting assembly (1432) comprises a mounting groove (14321) and a bearing (14325) which are vertically arranged at the center of the top of the stress plate (14311), an electric push rod (14322) is arranged in the mounting groove (14321), a horizontal plate (14323) horizontally arranged is arranged at the bottom of the electric push rod (14322), the horizontal plate (14323) is located above the touch plate (14314), the length direction of the horizontal plate (14323) is parallel to the axial direction of a third rotating shaft (14332), third vertical plates (14324) vertically extending downwards are arranged at two ends of the bottom of the horizontal plate (14323) in the length direction, the bottom of each third vertical plate (14324) is coaxially sleeved outside the third rotating shaft (14332), and the third vertical plates (14324) are movably connected with the third rotating shaft (14332) through the bearing (14325).