CN117380888A

CN117380888A - Stainless steel material forging forming equipment

Info

Publication number: CN117380888A
Application number: CN202311409074.6A
Authority: CN
Inventors: 陈邦
Original assignee: Jiangsu Zhengtai Stainless Steel Industry Co ltd
Current assignee: Jiangsu Zhengtai Stainless Steel Industry Co ltd
Priority date: 2023-10-27
Filing date: 2023-10-27
Publication date: 2024-01-12
Anticipated expiration: 2043-10-27
Also published as: CN117380888B

Abstract

The invention discloses stainless steel material forging forming equipment, which belongs to the technical field of stainless steel forging and comprises a box body device, wherein a machine body device is used for forging stainless steel materials, a demoulding device is arranged on the machine body device and used for taking out forged stainless steel parts, a powder spraying device is arranged on the machine body device and used for spraying demoulding powder, and a forming device is arranged on the machine body device and used for loading stainless steel parts. The forming device provided by the invention can drive the stainless steel piece to move, when the stainless steel piece moves below the punch, the bottom of the forging piece is supported by the inner slide block, so that the forging operation is convenient, when the stainless steel piece reaches the upper part of the inner electric cylinder, the inner slide block moves outwards, the inner electric cylinder can smoothly eject the processed stainless steel piece, and the degree of automation is high; the demolding powder is sprayed in the demolding process of the stainless steel piece, so that the demolding process of the stainless steel piece is smoother.

Description

Stainless steel material forging forming equipment

Technical Field

The invention relates to the technical field of stainless steel forging, in particular to stainless steel material forging forming equipment.

Background

The forging is a processing method for applying pressure to a metal blank by using forging machinery to make the metal blank plastically deform to obtain a forging piece with certain mechanical property and certain shape and size, and in the processing of the metal piece, the defects of cast loosening and the like generated in the smelting process of the metal can be eliminated by forging, and the microstructure can be effectively optimized. However, most of the existing stainless steel forging forming devices are used by directly placing a stainless steel blank to be forged on a forging table for stamping forging. The stainless steel forging forming device mainly relies on manual work to realize that the stainless steel gets the material when using, leads to the forging machining efficiency of stainless steel stock comparatively low, simultaneously because the staff need stretch into the device inboard when getting the material, causes human damage easily when the unexpected start-up of device to greatly reduced device safety in utilization, be inconvenient for workman's operation.

The Chinese patent publication No. CN219378855U discloses forging forming equipment for stainless steel, which has the advantages of single forging mode, simple structure, low production efficiency and manual operation, and cannot be applicable to forging products of other types.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a stainless steel material forges former, includes box device, the organism device include the base box, the organism device be used for forging stainless steel material, the organism device on be provided with shedder, shedder include end motor and swivel mount, fork frame fixed mounting is in the base box, swivel mount fixed mounting is on the base box, shedder be used for taking out the fashioned stainless steel spare of forging, the organism device on be provided with the powder spraying device, the powder spraying device include the grudging post, grudging post fixed mounting is on the base box, the powder spraying device be used for spraying the drawing of patterns powder, the organism device on be provided with forming device, forming device include interior motor, interior motor fixed mounting is in the base box, forming device be used for loading the stainless steel spare.

And placing the stainless steel piece to be processed on a forming device, moving the stainless steel piece to the lower part of a machine body device by the forming device to forge the stainless steel piece, and then taking out the stainless steel piece after stamping by a demoulding device and a powder spraying device.

Further, the machine body device comprises a sliding rail fixedly arranged on the bottom box, a jacking column is fixedly arranged on the bottom box, a top plate is fixedly arranged on the jacking column, a jacking cylinder is fixedly arranged on the top plate, a descending plate is fixedly arranged at the top of the jacking cylinder, a punch is fixedly arranged on the descending plate, and the descending plate and the jacking column are slidably arranged.

When the forming device moves to the lower part of the punch along the sliding rail, the top electric cylinder stretches to drive the top plate and the punch to descend along the top column, and the stainless steel piece is forged through the punch.

Further, the demoulding device comprises a motor wheel fixedly arranged on a motor shaft of a bottom motor, a screw rod frame is fixedly arranged in a bottom box, a transverse sliding column is fixedly arranged on the screw rod frame, a screw rod is rotatably arranged on the screw rod frame, a driving wheel is fixedly arranged on the screw rod, a vertical driving belt is wound outside the driving wheel and the motor wheel, an inner thread block is slidably arranged on the transverse sliding column, the inner thread block and the screw rod form threaded transmission, a rotating rod is slidably arranged on the inner thread block, a fork frame is fixedly arranged on the rotating rod, a rotating shaft is rotatably arranged on the rotating shaft frame, and the fork frame and the rotating shaft are slidably arranged on the bottom box.

The bottom motor rotates to drive the motor wheel to rotate, thereby drive the drive wheel through standing the drive belt and rotate, thereby drive the lead screw and rotate, thereby drive internal thread piece and slide along the sideslip post, thereby drive bull stick and fork at first along interior flange and evagination board slip, the fork can not reach forging lower extreme for the pivot this moment, when the left end of slotted hole on the fork contacts with the pivot back, the lead screw continues to rotate and can drive internal thread piece and continue to slide along the sideslip post, can drive bull stick and fork and rotate for the pivot, thereby take out stainless steel spare from forming device, then stainless steel spare roll-off along the fork.

Further, the powder spraying device comprises a powder cylinder fixedly arranged on a vertical frame, a connecting pipe is fixedly arranged on the powder cylinder, the other end of the connecting pipe is fixedly arranged on an outer sliding seat, an outer sliding seat is fixedly arranged on a bottom box, an inner sliding column is arranged in the outer sliding seat, an inner spring is arranged between the inner sliding column and the outer sliding seat, an inner rotating shaft is fixedly arranged on the vertical frame, a rotating fork is rotatably arranged on the inner rotating shaft, an outlet pipe is fixedly arranged at the bottom of the powder cylinder, and a magnet plate is rotatably arranged on the outlet pipe.

Further, the forming device comprises an inner motor wheel fixedly arranged on an inner motor shaft, an inner screw rod frame is fixedly arranged in the bottom box, an inner screw rod is rotatably arranged on the inner screw rod frame, an inner driving wheel is fixedly arranged on the inner screw rod, an inner driving belt is wound outside the inner driving wheel and the inner motor wheel, an electric cylinder frame is fixedly arranged in the bottom box, an inner electric cylinder is fixedly arranged on the electric cylinder frame, an inner collecting frame is fixedly arranged on the bottom box, and a moving mechanism is arranged on the inner screw rod.

Further, the moving mechanism comprises a sliding box which is slidably mounted on the sliding rail, a threaded sliding block is fixedly mounted at the bottom of the sliding box, the threaded sliding block and the inner screw rod form threaded transmission, an inner sliding block is slidably mounted in the sliding box, a pressing-in block is fixedly mounted on the inner sliding block, a side spring is arranged between the inner sliding block and the sliding box, the pressing-in block and the sliding box are slidably mounted, and a forging piece is slidably mounted in the sliding box.

Further, an inner column hole and a bottom hole are arranged in the sliding box, and the diameter of the bottom hole is slightly larger than that of the output end of the inner electric cylinder.

When the forging piece to be processed is placed in the sliding box, the inner motor rotates to drive the inner driving wheel and the inner screw rod to rotate, thereby driving the threaded sliding block and the sliding box to slide along the sliding rail, the sliding box stretches in the moving process, when the pressing-in block is in contact with the inner frame, the pressing-in block can be driven to move into the sliding box due to the track of the inner frame, thereby driving the inner sliding block to move inwards, the inner sliding block can reach the upper part of the bottom hole, the side spring is prolonged, the sliding box carries the forging piece to the lower part of the punch, the forging piece is forged through the punch, then the inner motor rotates reversely, the sliding box is driven to return to the initial position, namely the upper part of the inner electric cylinder, when the pressing-in block is separated from the inner frame, the side spring rebounds, the inner sliding block is driven to move outwards, the bottom hole is exposed, then the inner electric cylinder stretches, the pressing-in block is pushed upwards along the inner column hole, when the inner sliding block moves upwards, the rotating fork is driven to rotate around the inner rotating shaft, thereby driving the inner sliding column to move downwards, the inner spring is extruded, the inner sliding column descends, the inner sliding block can reach the upper part, then the side spring is reversely, the inner sliding tube is pushed down, the powder is driven to the powder cylinder is pushed out, the powder ejection tube is driven to the magnet, the powder ejection tube is not to be closed, the powder ejection tube is opened, and the powder ejection tube is convenient to be closed, when the powder ejection tube is opened, and the powder ejection tube is opened.

Compared with the prior art, the invention has the beneficial effects that: (1) The forming device provided by the invention can drive the stainless steel piece to move, when the stainless steel piece moves below the punch, the bottom of the forging piece is supported by the inner slide block, so that the forging operation is convenient, when the stainless steel piece reaches the upper part of the inner electric cylinder, the inner slide block moves outwards, the inner electric cylinder can smoothly eject the processed stainless steel piece, and the degree of automation is high; (2) The demolding device provided by the invention is matched with the powder spraying device, so that the forged stainless steel piece can be effectively demolded and discharged, and the demolding process of the stainless steel piece is smoother by spraying the demolding powder in the demolding process of the stainless steel piece; (3) The forming device provided by the invention is matched with the demoulding device, the powder spraying device and the machine body device, so that the full-automatic stainless steel part forging work can be realized, the automation degree is high, and the processing efficiency is high.

Drawings

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

Fig. 2 is a schematic diagram of the overall structure of the present invention (the state to be taken out).

Fig. 3 is a schematic view of the overall structure of the present invention (to-be-forged state).

Fig. 4 is a schematic view of the whole structure of the present invention (taken out state).

Fig. 5 is a schematic view of the structure of the device of the present invention.

FIG. 6 is a schematic view of a demolding device according to the present invention.

Fig. 7 is a schematic structural diagram of the powder spraying device of the present invention.

FIG. 8 is a schematic view of the inner structure of the outer slide of the powder spraying device of the present invention.

Fig. 9 is a schematic structural view of a molding apparatus according to the present invention.

Fig. 10 is a schematic structural diagram of a molding device according to the second embodiment of the present invention.

FIG. 11 is a schematic diagram of a moving mechanism according to the present invention.

Fig. 12 is a schematic view of the internal structure of the sliding box (opened state) of the present invention.

Fig. 13 is a schematic view of the inner structure of the sliding box (tightened state) of the present invention.

Reference numerals: 101-a bottom box; 102-a slide rail; 103-prop; 104-jacking an electric cylinder; 105-lowering plate; 106-top plate; 107-punch; 201-a bottom motor; 202-a motor wheel; 203-standing a transmission belt; 204-a driving wheel; 205-a cross slide; 206-a screw rack; 207-screw rod; 208-an internally threaded block; 209-rotating rod; 210-a fork; 211-inner convex plates; 212-rotating shaft; 213-a spindle carrier; 214-an outer convex plate; 301-a vertical frame; 302-take over; 303-a powder cylinder; 304-an inner rotating shaft; 305-rotating fork; 306-exit tube; 307-inner slide; 308-an outer slide; 309-an inner spring; 310-magnet plate; 401-an inner motor; 402-an inner motor wheel; 403-inner drive belt; 404-an inner driving wheel; 405-an inner screw rod; 406-a threaded slider; 407-inner electric cylinder; 408-an electric cylinder frame; 409-a slide box; 4091-inner column hole; 4092-bottom hole; 410-forging; 411-inner frame; 412-pressing in the block; 413-inner slide; 414-side springs; 415-inner screw rack.

Detailed Description

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

Examples: referring to fig. 1 to 13, a stainless steel material forging forming apparatus includes a case device, the case device includes a base case 101, the case device is used for forging stainless steel material, a demoulding device is provided on the case device, the demoulding device includes a base motor 201 and a rotating shaft frame 213, a fork 210 is fixedly installed in the base case 101, the rotating shaft frame 213 is fixedly installed on the base case 101, the demoulding device is used for taking out forged stainless steel parts, a powder spraying device is provided on the case device, the powder spraying device includes a stand 301, the stand 301 is fixedly installed on the base case 101, the powder spraying device is used for spraying demoulding powder, a forming device is provided on the case device, the forming device includes an inner motor 401, the inner motor 401 is fixedly installed in the base case 101, and the forming device is used for loading stainless steel parts.

As shown in fig. 5, the body device includes a slide rail 102 fixedly mounted on a bottom case 101, a top column 103 fixedly mounted on the bottom case 101, a top plate 106 fixedly mounted on the top column 103, a top cylinder 104 fixedly mounted on the top plate 106, a descending plate 105 fixedly mounted on the top of the top cylinder 104, a punch 107 fixedly mounted on the descending plate 105, and the descending plate 105 and the top column 103 slidably mounted.

When the forming device moves to the lower part of the punch 107 along the sliding rail 102, the top cylinder 104 stretches to drive the top plate 106 and the punch 107 to descend along the top column 103, and the stainless steel piece is forged through the punch 107.

As shown in fig. 6, the demolding device comprises a motor wheel 202 fixedly installed on a motor shaft of a bottom motor 201, a screw rod frame 206 fixedly installed in the bottom box 101, a transverse strut 205 fixedly installed on the screw rod frame 206, a screw rod 207 rotatably installed on the screw rod frame 206, a driving wheel 204 fixedly installed on the screw rod 207, a vertical driving belt 203 externally wound on the driving wheel 204 and the motor wheel 202, an internal thread block 208 slidably installed on the transverse strut 205, the internal thread block 208 and the screw rod 207 form a thread transmission, a rotating rod 209 slidably installed on the internal thread block 208, a fork 210 fixedly installed on the rotating rod 209, a rotating shaft 212 rotatably installed on the rotating shaft frame 213, and an internal convex plate 211 and an external convex plate 214 slidably installed on the bottom box 101.

The bottom motor 201 rotates to drive the motor wheel 202 to rotate, so that the driving wheel 204 is driven to rotate through the vertical driving belt 203, the screw rod 207 is driven to rotate, the internal thread block 208 is driven to slide along the transverse sliding column 205, the rotating rod 209 and the fork 210 are driven to slide along the inner convex plate 211 and the outer convex plate 214 first, at the moment, the fork 210 does not rotate relative to the rotating shaft 212, the front end of the fork 210 can reach the lower end of the forging piece 410, after the leftmost end of a slotted hole on the fork 210 is contacted with the rotating shaft 212, the screw rod 207 continues to rotate to drive the internal thread block 208 to slide along the transverse sliding column 205, the rotating rod 209 and the fork 210 are driven to rotate relative to the rotating shaft 212, and then the stainless steel piece is taken out of the forming device and slides out along the fork 210.

As shown in fig. 7 and 8, the powder spraying device comprises a powder cylinder 303 fixedly installed on a vertical frame 301, a connecting pipe 302 is fixedly installed on the powder cylinder 303, the other end of the connecting pipe 302 is fixedly installed with an outer sliding seat 308, an outer sliding seat 308 is fixedly installed on a bottom box 101, an inner sliding column 307 is arranged in the inner sliding seat 308 in a sliding manner, an inner spring 309 is arranged between the inner sliding column 307 and the outer sliding seat 308, an inner rotating shaft 304 is fixedly installed on the vertical frame 301, a rotating fork 305 is rotatably installed on the inner rotating shaft 304, an outlet pipe 306 is fixedly installed at the bottom of the powder cylinder 303, and a magnet plate 310 is rotatably installed on the outlet pipe 306.

As shown in fig. 9 to 13, the forming device comprises an inner motor wheel 402 fixedly mounted on a motor shaft of an inner motor 401, an inner screw rod frame 415 fixedly mounted in the bottom box 101, an inner screw rod 405 rotatably mounted on the inner screw rod frame 415, an inner driving wheel 404 fixedly mounted on the inner screw rod 405, an inner driving belt 403 wound outside the inner driving wheel 404 and the inner motor wheel 402, an electric cylinder frame 408 fixedly mounted in the bottom box 101, an inner electric cylinder 407 fixedly mounted on the electric cylinder frame 408, an inner collecting frame 411 fixedly mounted on the bottom box 101, and a moving mechanism arranged on the inner screw rod 405.

As shown in fig. 9 to 13, the moving mechanism includes a slide box 409 slidably mounted on the slide rail 102, a threaded slider 406 is fixedly mounted at the bottom of the slide box 409, the threaded slider 406 and the inner screw rod 405 form a threaded transmission, an inner slider 413 is slidably mounted in the slide box 409, a press-in block 412 is fixedly mounted on the inner slider 413, a side spring 414 is provided between the inner slider 413 and the slide box 409, the press-in block 412 is slidably mounted with the slide box 409, and a forging piece 410 is slidably mounted in the slide box 409.

As shown in fig. 12 and 13, the slide box 409 is provided therein with an inner post hole 4091 and a bottom hole 4092, and the diameter of the bottom hole 4092 is slightly larger than the diameter of the output end of the inner cylinder 407.

As shown in fig. 1 to 13, after the forging piece 410 to be processed is placed in the sliding box 409, the inner motor 401 rotates to drive the inner motor wheel 402 to rotate, so that the inner driving wheel 404 and the inner screw rod 405 are driven to rotate by the inner driving belt 403, so that the threaded sliding block 406 and the sliding box 409 are driven to slide along the sliding rail 102, when the pressing block 412 comes into contact with the inner frame 411 during the movement of the sliding box 409, the pressing block 412 is driven to move into the sliding box 409 due to the track of the inner frame 411, so that the inner sliding block 413 is driven to move inwards, the inner sliding block 413 reaches above the bottom hole 4092, the side spring 414 is elongated, the sliding box 409 drives the forging piece 410 to reach below the punch 107, the forging piece 410 is forged by the punch 107, then the inner motor 401 is reversed, the sliding box 409 is driven to return to the initial position, namely above the inner cylinder 407, when the pressing block 412 is separated from the inner frame 411, the side spring 414 rebounds to drive the inner slide 413 to move outwards, the bottom hole 4092 is exposed, then the inner electric cylinder 407 stretches, the forging piece 410 is pushed upwards along the inner column hole 4091 through the bottom hole 4092, when the forging piece 410 moves upwards, the rotating fork 305 is driven to rotate around the inner rotating shaft 304, the inner slide 307 is driven to descend, the inner spring 309 is extruded, the inner slide 307 descends, the connecting pipe 302 is inflated and pressurized into the powder cylinder 303, so that demolding powder in the powder cylinder 303 is ejected from the outlet pipe 306, the demolding powder can be flushed out of the magnet plate 310, the magnet plate 310 rotates relative to the outlet pipe 306, demolding powder is ejected between the forging piece 410 and the sliding box 409, the forging piece 410 is convenient to demold, when the connecting pipe 302 does not air, the outlet pipe 306 is kept closed under the action of the magnet, and after the fork frame 210 takes out the forging piece 410, the inner spring 309 is rebounded to drive the rotating fork 305 to return to the initial position.

The invention discloses a working principle of stainless steel material forging forming equipment, which comprises the following steps: when the forging piece 410 to be processed is placed in the sliding box 409, the inner motor 401 rotates to drive the inner motor wheel 402 to rotate, so that the inner driving wheel 404 and the inner screw rod 405 are driven to rotate through the inner driving belt 403, so that the threaded sliding block 406 and the sliding box 409 are driven to slide along the sliding rail 102, the sliding box 409 drives the pressing block 412 to move into the sliding box 409 due to the track of the inner frame 411 when the pressing block 412 is contacted with the inner frame 411 in the moving process, so that the sliding block 413 is driven to move inwards, the sliding block 413 reaches the upper part of the bottom hole 4092, the side spring 414 is elongated, the sliding box 409 drives the forging piece 410 to reach the lower part of the punch 107, the top cylinder 104 stretches to drive the top plate 106 and the punch 107 to descend along the top column 103, the stainless steel piece is forged through the punch 107, then the inner motor 401 reverses to drive the sliding box 409 to return to the initial position, namely the upper part of the inner cylinder 407, when the pressing block 412 is separated from the inner collecting frame 411, the side spring 414 rebounds to drive the inner slide 413 to move outwards, the bottom hole 4092 is exposed, then the inner electric cylinder 407 stretches, the forging piece 410 is pushed upwards along the inner column hole 4091 through the bottom hole 4092, when the forging piece 410 moves upwards, the rotating fork 305 is driven to rotate around the inner rotating shaft 304 to drive the inner slide 307 to descend, the inner spring 309 is extruded, the inner slide 307 descends, the powder cylinder 303 is inflated and pressurized through the connecting tube 302 to spray the demolding powder in the powder cylinder 303 out of the pipe 306, the demolding powder can wash out the magnet plate 310, the magnet plate 310 rotates relative to the pipe 306, the demolding powder is sprayed between the forging piece 410 and the sliding box 409, the forging piece 410 is convenient to demold, when the connecting tube 302 does not air, the pipe 306 keeps closed under the action of the magnet, the bottom motor 201 rotates to drive the motor wheel 202 to rotate, the driving wheel 204 is driven to rotate through the vertical driving belt 203, the screw rod 207 is driven to rotate, the internal thread block 208 is driven to slide along the cross slide column 205, the rotating rod 209 and the fork frame 210 are driven to slide along the inner convex plate 211 and the outer convex plate 214 firstly, at the moment, the fork frame 210 does not rotate relative to the rotating shaft 212, the front end of the fork frame 210 can reach the lower end of the forging piece 410, after the leftmost end of a slotted hole on the fork frame 210 is contacted with the rotating shaft 212, the screw rod 207 continues to rotate, the internal thread block 208 is driven to slide along the cross slide column 205, the rotating rod 209 and the fork frame 210 can be driven to rotate relative to the rotating shaft 212, the forging piece 410 is taken out from the forming device, then the forging piece 410 slides out along the fork frame 210, and after the fork frame 210 takes out the forging piece 410, the internal spring 309 rebounds, and the rotating fork 305 is driven to return to the initial position.

Claims

1. The utility model provides a stainless steel material forges former, includes box device, its characterized in that: the machine body device include base box (101), the machine body device be used for forging stainless steel material, the machine body device on be provided with shedder, shedder include end motor (201) and pivot frame (213), fork frame (210) fixed mounting is in base box (101), pivot frame (213) fixed mounting is on base box (101), shedder be used for taking out the stainless steel spare of forging shaping, the machine body device on be provided with the powder spraying device, the powder spraying device include riser (301), riser (301) fixed mounting is on base box (101), the powder spraying device be used for spraying the drawing of patterns powder, the machine body device on be provided with forming device, forming device include interior motor (401), interior motor (401) fixed mounting is in base box (101), forming device be used for loading stainless steel spare.

2. The stainless steel material forging apparatus as recited in claim 1, wherein: the machine body device comprises a sliding rail (102) fixedly arranged on a bottom box (101), a top column (103) is fixedly arranged on the bottom box (101), a top plate (106) is fixedly arranged on the top column (103), a top electric cylinder (104) is fixedly arranged on the top plate (106), a descending plate (105) is fixedly arranged at the top of the top electric cylinder (104), a punch (107) is fixedly arranged on the descending plate (105), and the descending plate (105) and the top column (103) are slidably arranged.

3. The stainless steel material forging apparatus as recited in claim 1, wherein: the demolding device comprises a motor wheel (202) fixedly arranged on a motor shaft of a bottom motor (201), a screw rod frame (206) is fixedly arranged in a bottom box (101), a transverse sliding column (205) is fixedly arranged on the screw rod frame (206), a screw rod (207) is rotatably arranged on the screw rod frame (206), a driving wheel (204) is fixedly arranged on the screw rod (207), a vertical driving belt (203) is wound outside the driving wheel (204) and the motor wheel (202), an internal thread block (208) is slidably arranged on the transverse sliding column (205), the internal thread block (208) and the screw rod (207) form threaded transmission, a rotary rod (209) is slidably arranged on the internal thread block (208), a fork frame (210) is fixedly arranged on the rotary rod (209), a rotary shaft (212) is rotatably arranged on the rotary shaft frame (213), and an internal convex plate (211) and an external convex plate (214) are fixedly arranged on the bottom box (101).

4. The stainless steel material forging apparatus as recited in claim 1, wherein: the powder spraying device comprises a powder cylinder (303) fixedly arranged on a vertical frame (301), a connecting pipe (302) is fixedly arranged on the powder cylinder (303), the other end of the connecting pipe (302) is fixedly arranged with an outer sliding seat (308), an outer sliding seat (308) is fixedly arranged on a bottom box (101), an inner sliding column (307) is arranged in the inner sliding seat (308), an inner spring (309) is arranged between the inner sliding column (307) and the outer sliding seat (308), an inner rotating shaft (304) is fixedly arranged on the vertical frame (301), a rotating fork (305) is rotatably arranged on the inner rotating shaft (304), a pipe (306) is fixedly arranged at the bottom of the powder cylinder (303), and a magnet plate (310) is rotatably arranged on the pipe (306).

5. The stainless steel material forging apparatus as recited in claim 2, wherein: the forming device comprises an inner motor wheel (402) fixedly arranged on a motor shaft of an inner motor (401), an inner screw rod frame (415) is fixedly arranged in a bottom box (101), an inner screw rod (405) is rotatably arranged on the inner screw rod frame (415), an inner driving wheel (404) is fixedly arranged on the inner screw rod (405), an inner driving belt (403) is wound outside the inner driving wheel (404) and the inner motor wheel (402), an electric cylinder frame (408) is fixedly arranged in the bottom box (101), an inner electric cylinder (407) is fixedly arranged on the electric cylinder frame (408), an inner collecting frame (411) is fixedly arranged on the bottom box (101), and a moving mechanism is arranged on the inner screw rod (405).

6. The stainless steel material forging apparatus as recited in claim 5, wherein: the moving mechanism comprises a sliding box (409) which is slidably mounted on a sliding rail (102), a threaded sliding block (406) is fixedly mounted at the bottom of the sliding box (409), the threaded sliding block (406) and an inner screw rod (405) form threaded transmission, an inner sliding block (413) is mounted in the sliding box (409), a pressing-in block (412) is fixedly mounted on the inner sliding block (413), a side spring (414) is arranged between the inner sliding block (413) and the sliding box (409), the pressing-in block (412) and the sliding box (409) are slidably mounted, and a forging piece (410) is mounted in the sliding box (409).

7. The stainless steel material forging apparatus as recited in claim 6, wherein: the sliding box (409) is internally provided with an inner column hole (4091) and a bottom hole (4092), and the diameter of the bottom hole (4092) is slightly larger than the diameter of the output end of the inner electric cylinder (407).