CN117123668B

CN117123668B - Multi-angle stamping device for stainless steel part

Info

Publication number: CN117123668B
Application number: CN202311398153.1A
Authority: CN
Inventors: 叶圣和
Original assignee: Jiangsu Shengxin Stainless Steel Products Co ltd
Current assignee: Jiangsu Shengxin Stainless Steel Products Co ltd
Priority date: 2023-10-26
Filing date: 2023-10-26
Publication date: 2023-12-22
Anticipated expiration: 2043-10-26
Also published as: CN117123668A

Abstract

The invention discloses a multi-angle stamping device for stainless steel parts, which relates to the technical field of steel part stamping and comprises a lifting device arranged on the ground, wherein the lifting device is used for adjusting the height of the stamped stainless steel parts, a seat body device is arranged on the lifting device, the seat body device is used for placing a stamping die, and an adjusting device is arranged on the lifting device and is used for stamping the stainless steel parts. The adjusting device and the operating mechanism can drive the stamping head to stamp the stainless steel piece at multiple angles, and the height of the stamping die can be adjusted through the lifting device, so that the stamping accuracy is improved; the supporting and guiding mechanism can effectively guide and support the outer sleeve in an auxiliary manner, so that the stability of the stainless steel part during stamping is improved, and the reliability of the device is improved; the lifting device adopts a jack mode, so that the stamping die and the mounting plate are firmer when being stamped.

Description

Multi-angle stamping device for stainless steel part

Technical Field

The invention relates to the technical field of steel part stamping, in particular to a stainless steel part multi-angle stamping device.

Background

In the existing stainless steel stamping technology, stainless steel plates are required to be stamped and formed according to the use requirement, but when the existing stamping part is formed, the stamping angle cannot be adjusted and the stamping direction cannot be finely adjusted, and the China patent of invention with the publication number of CN202210852826.5 discloses a stamping device for the stainless steel plates; meanwhile, the prior art can realize automatic feeding and discharging. However, most stainless steel stamping can only be based on vertical horizontal stamping, and if swing angle stamping is needed, the stamping die needs to be restarted, so that the operation is troublesome and the processing cost is high.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a stainless steel spare multi-angle stamping device, includes the elevating gear of placing on ground, elevating gear include the chassis, fixed mounting has short support column and long support column on the chassis, elevating gear be used for adjusting the height of punching press stainless steel spare, elevating gear on be provided with pedestal device, pedestal device include the intermediate lamella, intermediate lamella fixed mounting is on short support column, pedestal device be used for placing stamping die, elevating gear on be provided with adjusting device, adjusting device include the footstock, footstock fixed mounting is on long support column, adjusting device be used for punching press to stainless steel spare.

The stamping die is placed on the base device, the angle is adjusted, the height of the stamping die is adjusted through the lifting device, and the stainless steel piece on the stamping die is stamped through the adjusting device.

Further, the lifting device comprises a rotating base fixedly mounted on the chassis, a lower rotating shaft is fixedly mounted on the rotating base, an outer lower rotating rod and an inner lower rotating rod are rotatably mounted on the lower rotating shaft, an electric cylinder shaft is rotatably mounted on the outer lower rotating rod, an upper inner rotating rod is rotatably mounted on the electric cylinder shaft, a lifting electric cylinder is fixedly mounted on the electric cylinder shaft, an end shaft is fixedly mounted at the end of the lifting electric cylinder, the end shaft is rotatably mounted with the inner lower rotating rod, the end shaft is rotatably mounted with the upper outer rotating rod, a lifting rod is rotatably mounted on the upper inner rotating rod, an upper outer rotating rod is rotatably mounted on the lifting rod, an outer lower rotating rod is rotatably mounted with the inner lower rotating rod, an inner lower rotating rod is rotatably mounted with the upper outer rotating rod, and a sliding sleeve is slidably mounted outside the lifting rod.

The lifting electric cylinder stretches and contracts to drive the outer lower rotating rod and the inner lower rotating rod to rotate relative to the rotating base, so that the upper outer rotating rod and the upper inner rotating rod are driven to rotate, the lifting rod is driven to slide in the sliding sleeve to lift, and the stamping die is driven to lift.

Further, the seat body device include fixed mounting the overcoat shell on the lifter, middle layer board and slip cap rotate the installation, fixed mounting has the upper cover circle on the overcoat shell, rotates on the lifter and installs the rotation inner shell, rotates on the rotation inner shell and installs the top runner, top runner and overcoat shell roll-mounting, fixed mounting has the mounting panel on the rotation inner shell, fixed mounting has the stamping die on the mounting panel, has placed stainless steel spare and connecting screw on the stamping die, fixes stainless steel spare on the stamping die through the connecting screw, is provided with support guiding mechanism on the middle layer board.

Further, the supporting and guiding mechanism comprises a peripheral frame fixedly arranged on the middle layer plate, a sliding rail is fixedly arranged on the peripheral frame, a sliding frame is slidably arranged on the sliding rail, an outer shaft is slidably arranged on the sliding frame, an outer wheel is rotatably arranged on the outer shaft, an inner shaft is fixedly arranged on the sliding frame, an inner wheel is rotatably arranged on the inner shaft, an elastic piece is arranged between the outer shaft and the inner shaft, and the outer wheel, the inner wheel and the outer casing are rotatably arranged.

Furthermore, the stamping die is replaced according to different stamping parts, when the stamping parts do not allow holes to be formed, the stamping die is provided with a magnet, and the stainless steel part is fixedly arranged on the stamping die through the magnet.

For stainless steel workpieces with different stamping sizes, different stamping dies are arranged on the mounting plate, for stainless steel workpieces with holes allowed, the stainless steel workpieces are fixedly arranged on the stamping die through connecting screws, for stainless steel workpieces without holes allowed, the stainless steel workpieces are fixedly arranged on the stamping die through magnets, the inner shell is rotated through manual rotation, the inner shell is driven to rotate relative to the outer shell through the top rotating wheel, and the initial angle of the stamping die is adjusted.

The lifting rod slides in the sliding sleeve to drive the outer sleeve shell to lift, so that the inner shell and the mounting plate are driven to rotate to lift, the stamping die and the stainless steel piece are driven to lift, the height of the stainless steel piece is adjusted, the outer wheel and the inner wheel are driven to lift along with the lifting of the outer sleeve shell, the sliding frame is driven to slide on the sliding rail, and the outer sleeve shell is guided and supported in an auxiliary mode through the outer wheel and the inner wheel in four directions.

Further, adjusting device include fixed mounting external tooth dish on the roof-plate, slidable mounting has the frame that slides on the roof-plate, fixed mounting has the ring motor on the frame that slides, fixed mounting has the ring gear on the motor shaft of ring motor, ring gear and external tooth dish meshing, slidable mounting is last to rotate and to be installed around wheel and standing wheel, around wheel, standing wheel and roof-plate rolling installation, fixed mounting has the arc frame on the frame that slides, fixed mounting has the arc gear on the arc frame, fixed mounting has the passive frame on the arc frame, passive frame and roof-plate slidable mounting, rotatable mounting has passive standing wheel and passive ring wheel on the passive frame, passive standing wheel, passive ring wheel and roof-plate rolling installation are provided with operation mechanism on the arc frame.

Further, the operation mechanism comprises an arc moving frame which is slidably arranged on the arc frame, an arc moving wheel is rotatably arranged on the arc moving frame, the arc moving wheel is in rolling installation with the arc gear, an electric cylinder frame is fixedly arranged on the arc moving frame, an arc moving motor is fixedly arranged on the electric cylinder frame, an arc moving gear is fixedly arranged on a motor shaft of the arc moving motor, the arc moving gear is meshed with the arc gear, a stamping cylinder is fixedly arranged on the electric cylinder frame, a stamping plate is fixedly arranged at the end part of the stamping cylinder, a sliding column is fixedly arranged on the stamping plate, the sliding column is in sliding installation with the arc moving frame, and a stamping head is fixedly arranged on the stamping plate.

Further, the stamping head is replaceable.

According to different punching demands, the appointed punching head is arranged on the punching plate, the annular motor rotates to drive the annular gear to rotate so as to drive the sliding frame to slide along the top disc, the arc motor rotates to drive the arc gear to rotate so as to drive the arc moving frame to slide along the arc frame, the punching position is adjusted, the punching electric cylinder stretches and contracts to drive the punching plate and the sliding column to slide along the electric cylinder frame, the punching head is driven to punch the stainless steel part, and the annular motor rotates to drive the sliding frame to slide around the top disc so as to punch multiple surfaces of the stainless steel part.

Compared with the prior art, the invention has the beneficial effects that: (1) The adjusting device and the operating mechanism can drive the stamping head to stamp the stainless steel piece at multiple angles, and the height of the stamping die can be adjusted through the lifting device, so that the stamping accuracy is improved; (2) The supporting and guiding mechanism provided by the invention can effectively guide and support the outer sleeve shell in an auxiliary way, so that the stability of stainless steel parts during stamping is improved, and the reliability of the device is improved; (3) The lifting device adopts a jack mode, so that the stamping die and the mounting plate are more stable during stamping.

Drawings

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

Fig. 2 is a schematic structural diagram of a lifting device according to the present invention.

Fig. 3 is a schematic structural diagram of a lifting device according to the second embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a seat device according to the present invention.

Fig. 5 is a schematic diagram of a seat device according to the second embodiment of the present invention.

Fig. 6 is a schematic diagram of a seat device according to the third embodiment of the present invention.

FIG. 7 is a schematic view showing the structure of the rotating inner shell of the seat device of the present invention.

Fig. 8 is a schematic view of the internal structure of the carriage of the support guide mechanism of the present invention.

Fig. 9 is a schematic structural view of an adjusting device according to the present invention.

Fig. 10 is a schematic diagram of a second embodiment of the adjusting device of the present invention.

FIG. 11 is a schematic view of the working mechanism of the present invention.

Reference numerals: 101-chassis; 102-short support columns; 103-long support columns; 104-an outer lower turning rod; 105-an inner lower turn bar; 106, rotating a base; 107-lower spindle; 108-an electric cylinder shaft; 109-lifting electric cylinders; 110-upper inner rotating rod; 111-upper outer turning rod; 112-end shaft; 113-lifting rod; 114-sliding sleeve; 201-a middle layer plate; 202-an outer sleeve; 203-rotating the inner housing; 204-mounting plate; 205-stamping die; 206-stainless steel piece; 207-connecting screws; 208-upper cover ring; 209-top wheel; 210-four frames; 211-sliding rails; 212-a carriage; 213-an outer wheel; 214-an outer shaft; 215-inner wheel; 216-an inner shaft; 217-shrapnel; 301-top plate; 302-an outer fluted disc; 303-a sliding frame; 304-a ring motor; 305-a ring gear; 306-encircling the wheel; 307-vertical wheels; 308-arc-shaped frame; 309-arc gear; 310-passive vertical wheel; 311-a passive ring wheel; 312-passive shelf; 313-arc moving frame; 314-arc wheel; 315-an electric cylinder frame; 316-arc motor; 317-arc gear; 318-stamping electric cylinder; 319-slide column; 320-stamping plate; 321-punching head.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Examples: referring to fig. 1-11, a stainless steel piece multi-angle stamping device comprises a lifting device placed on the ground, wherein the lifting device comprises a chassis 101, a short supporting column 102 and a long supporting column 103 are fixedly installed on the chassis 101, the lifting device is used for adjusting the height of the stamped stainless steel piece, a base device is arranged on the lifting device and comprises a middle layer plate 201, the middle layer plate 201 is fixedly installed on the short supporting column 102, the base device is used for placing a stamping die, an adjusting device is arranged on the lifting device and comprises a top disc 301, the top disc 301 is fixedly installed on the long supporting column 103, and the adjusting device is used for stamping the stainless steel piece.

As shown in fig. 2 and 3, the lifting device comprises a rotating base 106 fixedly mounted on a chassis 101, a lower rotating shaft 107 is fixedly mounted on the rotating base 106, an outer lower rotating rod 104 and an inner lower rotating rod 105 are rotatably mounted on the lower rotating shaft 107, an electric cylinder shaft 108 is rotatably mounted on the outer lower rotating rod 104, an upper inner rotating rod 110 is rotatably mounted on the electric cylinder shaft 108, a lifting electric cylinder 109 is fixedly mounted on the electric cylinder shaft 108, an end shaft 112 is fixedly mounted at the end of the lifting electric cylinder 109, the end shaft 112 is rotatably mounted with the inner lower rotating rod 105, the end shaft 112 is rotatably mounted with the upper outer rotating rod 111, a lifting rod 113 is rotatably mounted on the upper inner rotating rod 110, an upper outer rotating rod 111 is rotatably mounted on the lifting rod 113, an outer lower rotating rod 104 is rotatably mounted with the inner lower rotating rod 105, an inner lower rotating rod 105 is rotatably mounted with the upper outer rotating rod 111, an upper inner rotating rod 110 is rotatably mounted with the upper outer rotating rod 111, and a sliding sleeve 114 is slidably mounted outside the lifting rod 113.

The lifting cylinder 109 stretches and contracts to drive the outer lower rotating rod 104 and the inner lower rotating rod 105 to rotate relative to the rotating base 106, so that the upper outer rotating rod 111 and the upper inner rotating rod 110 are driven to rotate, the lifting rod 113 is driven to slide in the sliding sleeve 114 to lift, and the stamping die is driven to lift.

As shown in fig. 4 to 8, the seat body device includes an outer casing 202 fixedly mounted on a lifting rod 113, a middle layer plate 201 and a sliding sleeve 114 are rotatably mounted, an upper cover ring 208 is fixedly mounted on the outer casing 202, a rotary inner casing 203 is rotatably mounted on the lifting rod 113, a top rotating wheel 209 is rotatably mounted on the rotary inner casing 203, the top rotating wheel 209 is rotatably mounted with the outer casing 202, a mounting plate 204 is fixedly mounted on the rotary inner casing 203, a stamping die 205 is fixedly mounted on the mounting plate 204, a stainless steel member 206 and a connecting screw 207 are placed on the stamping die 205, the stainless steel member 206 is fixed on the stamping die 205 through the connecting screw 207, and a supporting and guiding mechanism is arranged on the middle layer plate 201.

As shown in fig. 4, 5 and 8, the supporting and guiding mechanism comprises a peripheral frame 210 fixedly mounted on a middle plate 201, a sliding rail 211 is fixedly mounted on the peripheral frame 210, a sliding frame 212 is mounted on the sliding rail 211 in a sliding manner, an outer shaft 214 is mounted on the sliding frame 212 in a sliding manner, an outer shaft 213 is rotatably mounted on the outer shaft 214, an inner shaft 216 is fixedly mounted on the sliding frame 212, an inner shaft 215 is rotatably mounted on the inner shaft 216, a spring piece 217 is arranged between the outer shaft 214 and the inner shaft 216, and the outer shaft 213, the inner shaft 215 and the outer casing 202 are rotatably mounted.

The stamping die 205 is replaced according to different stamping parts, and when the stamping parts do not allow holes to be formed, magnets are arranged on the stamping die 205, and stainless steel parts 206 are fixedly arranged on the stamping die 205 through the magnets.

For stainless steel workpieces with different stamping sizes, different stamping dies 205 are installed on the mounting plate 204, for stainless steel workpieces 206 with holes allowed, the stainless steel workpieces 206 are fixedly installed on the stamping dies 205 through connecting screws 207, for stainless steel workpieces 206 without holes allowed, the stainless steel workpieces 206 are fixedly installed on the stamping dies 205 through magnets, the inner shell 203 is rotated manually, the inner shell 203 is rotated relative to the outer shell 202 through the top rotating wheel 209, and the initial angle of the stamping dies 205 is adjusted.

The lifting rod 113 slides in the sliding sleeve 114 to drive the outer sleeve shell 202 to lift, so as to drive the inner shell 203 and the mounting plate 204 to rotate to lift, so as to drive the stamping die 205 and the stainless steel piece 206 to lift, thereby adjusting the height of the stainless steel piece 206, and along with the lifting of the outer sleeve shell 202, the outer wheel 213 and the inner wheel 215 are driven to lift, so as to drive the sliding frame 212 to slide on the sliding rail 211, and the outer sleeve shell 202 is guided and supported in an auxiliary manner through the outer wheel 213 and the inner wheel 215 in four directions.

As shown in fig. 9 to 11, the adjusting device includes an external gear plate 302 fixedly mounted on a top plate 301, a sliding frame 303 is slidably mounted on the top plate 301, a ring motor 304 is fixedly mounted on the sliding frame 303, a ring gear 305 is fixedly mounted on a motor shaft of the ring motor 304, the ring gear 305 is meshed with the external gear plate 302, a ring wheel 306 and a vertical wheel 307 are rotatably mounted on the sliding frame 303, the ring wheel 306, the vertical wheel 307 and the top plate 301 are rotatably mounted, an arc frame 308 is fixedly mounted on the sliding frame 303, an arc gear 309 is fixedly mounted on the arc frame 308, a driven frame 312 is slidably mounted on the top plate 301, a driven vertical wheel 310 and a driven ring wheel 311 are rotatably mounted on the driven frame 312, the driven ring wheel 310 and the top plate 301 are rotatably mounted, and an operating mechanism is arranged on the arc frame 308.

As shown in fig. 9 and 11, the operation mechanism includes an arc moving frame 313 slidably mounted on an arc frame 308, an arc moving wheel 314 rotatably mounted on the arc moving frame 313, an arc motor 316 fixedly mounted on the arc moving frame 313, an arc moving gear 317 fixedly mounted on a motor shaft of the arc motor 316, a punching cylinder 318 meshed with the arc gear 309, a punching plate 320 fixedly mounted on an end of the punching cylinder 318, a sliding column 319 fixedly mounted on the punching plate 320, and a punching head 321 fixedly mounted on the punching plate 320, wherein the arc moving wheel 314 and the arc gear 309 are rotatably mounted on each arc moving frame 313.

As shown in fig. 11, the punch 321 is replaceable.

According to different punching demands, a designated punching head 321 is mounted on a punching plate 320, a ring motor 304 rotates to drive a ring gear 305 to rotate so as to drive a sliding frame 303 to slide along a top disc 301, an arc motor 316 rotates to drive an arc gear 317 to rotate so as to drive an arc frame 313 to slide along an arc frame 308, so that the punching position is adjusted, a punching cylinder 318 stretches and contracts to drive the punching plate 320 and a sliding column 319 to slide along the cylinder frame 315, the punching head 321 is driven to punch a stainless steel piece 206, and the ring motor 304 rotates to drive the sliding frame 303 to slide around the top disc 301 so as to punch multiple surfaces of the stainless steel piece 206.

The invention discloses a working principle of a stainless steel piece multi-angle stamping device, which comprises the following steps: for stainless steel workpieces with different stamping sizes, different stamping dies 205 are installed on the mounting plate 204, for stainless steel workpieces 206 with holes allowed, the stainless steel workpieces 206 are fixedly installed on the stamping dies 205 through connecting screws 207, for stainless steel workpieces 206 without holes allowed, the stainless steel workpieces 206 are fixedly installed on the stamping dies 205 through magnets, the inner shell 203 is rotated manually, the inner shell 203 is rotated relative to the outer shell 202 through the top rotating wheel 209, and the initial angle of the stamping dies 205 is adjusted. The lifting rod 113 slides in the sliding sleeve 114 to drive the outer sleeve shell 202 to lift, so as to drive the inner shell 203 and the mounting plate 204 to rotate to lift, so as to drive the stamping die 205 and the stainless steel piece 206 to lift, thereby adjusting the height of the stainless steel piece 206, and along with the lifting of the outer sleeve shell 202, the outer wheel 213 and the inner wheel 215 are driven to lift, so as to drive the sliding frame 212 to slide on the sliding rail 211, and the outer sleeve shell 202 is guided and supported in an auxiliary manner through the outer wheel 213 and the inner wheel 215 in four directions. The lifting cylinder 109 stretches and contracts to drive the outer lower rotating rod 104 and the inner lower rotating rod 105 to rotate relative to the rotating base 106, so that the upper outer rotating rod 111 and the upper inner rotating rod 110 are driven to rotate, the lifting rod 113 is driven to slide in the sliding sleeve 114 to lift, and the stamping die is driven to lift. According to different punching demands, a designated punching head 321 is mounted on a punching plate 320, a ring motor 304 rotates to drive a ring gear 305 to rotate so as to drive a sliding frame 303 to slide along a top disc 301, an arc motor 316 rotates to drive an arc gear 317 to rotate so as to drive an arc frame 313 to slide along an arc frame 308, so that the punching position is adjusted, a punching cylinder 318 stretches and contracts to drive the punching plate 320 and a sliding column 319 to slide along the cylinder frame 315, the punching head 321 is driven to punch a stainless steel piece 206, and the ring motor 304 rotates to drive the sliding frame 303 to slide around the top disc 301 so as to punch multiple surfaces of the stainless steel piece 206.

The foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a stainless steel spare multi-angle stamping device, includes the elevating gear of placing on ground, its characterized in that: the lifting device comprises a chassis (101), a short supporting column (102) and a long supporting column (103) are fixedly arranged on the chassis (101), the lifting device is used for adjusting the height of a punched stainless steel piece, a seat body device is arranged on the lifting device and comprises a middle layer plate (201), the middle layer plate (201) is fixedly arranged on the short supporting column (102), the seat body device is used for placing a punching die, an adjusting device is arranged on the lifting device and comprises a top disc (301), the top disc (301) is fixedly arranged on the long supporting column (103), and the adjusting device is used for punching the stainless steel piece;

the lifting device comprises a rotating base (106) fixedly arranged on a chassis (101), a lower rotating shaft (107) is fixedly arranged on the rotating base (106), an outer lower rotating rod (104) and an inner lower rotating rod (105) are rotatably arranged on the lower rotating shaft (107), an electric cylinder shaft (108) is rotatably arranged on the outer lower rotating rod (104), an upper inner rotating rod (110) is rotatably arranged on the electric cylinder shaft (108), a lifting electric cylinder (109) is fixedly arranged on the electric cylinder shaft (108), an end shaft (112) is fixedly arranged at the end of the lifting electric cylinder (109), the end shaft (112) is rotatably arranged with the inner lower rotating rod (105), the end shaft (112) is rotatably arranged with the upper outer rotating rod (111), a lifting rod (113) is rotatably arranged on the upper inner rotating rod (110), an outer lower rotating rod (104) is rotatably arranged with the inner lower rotating rod (105), the outer lower rotating rod (104) is rotatably arranged with the upper inner rotating rod (110), and the outer rotating rod (111) is rotatably arranged with the outer rotating rod (111);

the seat body device comprises an outer casing (202) fixedly arranged on a lifting rod (113), a middle layer plate (201) and a sliding sleeve (114) are rotatably arranged, an upper cover ring (208) is fixedly arranged on the outer casing (202), a rotary inner casing (203) is rotatably arranged on the lifting rod (113), a top rotating wheel (209) is rotatably arranged on the rotary inner casing (203), the top rotating wheel (209) and the outer casing (202) are rotatably arranged, a mounting plate (204) is fixedly arranged on the rotary inner casing (203), a stamping die (205) is fixedly arranged on the mounting plate (204), a stainless steel piece (206) is arranged on the stamping die (205), the stainless steel piece (206) is fixed on the stamping die (205) through a connecting screw (207), and a supporting and guiding mechanism is arranged on the middle layer plate (201);

the adjusting device comprises an outer toothed disc (302) fixedly arranged on a top disc (301), a sliding frame (303) is slidably arranged on the top disc (301), a ring motor (304) is fixedly arranged on the sliding frame (303), a ring gear (305) is fixedly arranged on a motor shaft of the ring motor (304), the ring gear (305) is meshed with the outer toothed disc (302), a ring wheel (306) and a vertical wheel (307) are rotatably arranged on the sliding frame (303), an arc-shaped frame (308) is fixedly arranged on the sliding frame (303), an arc-shaped gear (309) is fixedly arranged on the arc-shaped frame (308), a driven frame (312) is slidably arranged on the arc-shaped frame (308), a driven vertical wheel (310) and a driven ring (311) are rotatably arranged on the driven frame (312), the driven vertical wheel (310), the driven ring (311) and the top disc (301) are rotatably arranged, and an arc-shaped operation mechanism is arranged on the arc-shaped frame (308);

the operation mechanism comprises an arc moving frame (313) which is slidably arranged on an arc frame (308), an arc wheel (314) is rotatably arranged on the arc moving frame (313), an electric cylinder frame (315) is fixedly arranged on the arc moving frame (313) in a rolling manner with an arc gear (309), an arc motor (316) is fixedly arranged on the electric cylinder frame (315), an arc gear (317) is fixedly arranged on a motor shaft of the arc motor (316), the arc gear (317) is meshed with the arc gear (309), a punching press cylinder (318) is fixedly arranged on the electric cylinder frame (315), a punching press plate (320) is fixedly arranged at the end part of the punching press cylinder (318), a sliding column (319) is fixedly arranged on the punching press plate (320), and the sliding column (319) is slidably arranged with the arc moving frame (313), and a punching press head (321) is fixedly arranged on the punching press plate (320).

2. The stainless steel piece multi-angle stamping device of claim 1, wherein: the support guiding mechanism comprises a peripheral frame (210) fixedly mounted on a middle layer plate (201), a sliding rail (211) is fixedly mounted on the peripheral frame (210), a sliding frame (212) is mounted on the sliding rail (211) in a sliding manner, an outer shaft (214) is mounted on the sliding frame (212) in a sliding manner, an outer shaft (213) is rotatably mounted on the outer shaft (214), an inner shaft (216) is fixedly mounted on the sliding frame (212), an inner shaft (215) is rotatably mounted on the inner shaft (216), an elastic sheet (217) is arranged between the outer shaft (214) and the inner shaft (216), and the outer shaft (213) and the inner shaft (215) are rotatably mounted with an outer casing (202).

3. The stainless steel piece multi-angle stamping device of claim 1, wherein: the stamping die (205) is replaced according to different stamping parts, when the stamping parts do not allow holes to be formed, a magnet is arranged on the stamping die (205), and a stainless steel part (206) is fixedly arranged on the stamping die (205) through the magnet.

4. The stainless steel piece multi-angle stamping device of claim 1, wherein: the stamping head (321) is replaceable.