A motorcycle parts cutting, punching and forming apparatus
By integrating cutting and punching functions into one machine, the automated processing of motorcycle parts is achieved, solving the problems of low efficiency, high cost and large space occupation in the existing technology, and improving processing efficiency and precision.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- KARASAWA TRAFFIC EQUIP TAIZHOU
- Filing Date
- 2024-03-20
- Publication Date
- 2026-07-10
AI Technical Summary
Currently, cutting and punching of motorcycle parts require separate equipment, resulting in low efficiency, high cost, and large space occupation.
Design a motorcycle parts cutting and punching forming equipment that integrates cutting and punching functions into one device. It includes a cutting mechanism, a punching mechanism and an automatic feeding mechanism. Automatic feeding, cutting and punching are achieved through cylinder-driven lifting and push-pull rod linkage.
It improves processing efficiency, reduces equipment space requirements, lowers costs, and enhances processing accuracy and usability through automated operation.
Smart Images

Figure CN118204776B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of parts processing, and in particular to a cutting, punching and forming equipment for motorcycle parts. Background Technology
[0002] Accessories refer to parts or components used in assembling machinery, as well as parts or components that are reinstalled after damage. Accessories can be divided into two categories: standard accessories and optional accessories. Existing motorcycle accessories are widely used and have the advantages of diverse types and mass production. Motorcycle accessories can be regular or irregular in shape. When processing some regular accessories, especially plate-shaped accessories, steps such as cutting and punching are generally required.
[0003] In the existing technology, the cutting and punching of parts are carried out on two separate machines. The cutting machine does not have a punching function, and the punching machine does not have a cutting function. As a result, the processing efficiency of motorcycle parts that require both cutting and punching is greatly reduced, and the cost is high. The two machines also occupy more workshop space, making them less practical.
[0004] Therefore, it is necessary to propose a cutting, punching, and forming equipment for motorcycle parts to solve the above problems. Summary of the Invention
[0005] The main objective of this invention is to provide a cutting, punching, and forming equipment for motorcycle parts, which can effectively solve the problems in the background art.
[0006] To achieve the above objectives, the technical solution adopted by the present invention is as follows:
[0007] A cutting, punching and forming equipment for motorcycle parts includes a frame, a cutting mechanism at one end of the top of the frame, a punching mechanism on one side of the cutting mechanism, and an automatic feeding mechanism located at the top of the frame.
[0008] The cutting mechanism includes a cutting frame disposed on the top of the frame, a mounting frame disposed below the cutting frame, a first cylinder disposed on the top of the cutting frame to drive the mounting frame to lift and lower, and a cutting machine disposed on one side of the mounting frame.
[0009] The punching mechanism includes a punching frame disposed on the top of the frame, a second support disposed below the punching frame, a second cylinder disposed on the top of the punching frame to drive the second support to rise and fall, and a punching head disposed on the bottom of the second support.
[0010] The automatic feeding mechanism includes a conveying channel located on the top of the frame, corresponding to the cutting and punching mechanisms. A protective sleeve is provided at the end of the top of the frame near the cutting mechanism. A workpiece storage cylinder for storing spare parts and corresponding to one end of the conveying channel is movably inserted into the inner side of the protective sleeve. Slide grooves are symmetrically arranged on both sides of the conveying channel near the cutting mechanism. Slide rods are symmetrically slidably connected to the inner sides of the two slide grooves. A pusher plate is movably arranged at the end of the conveying channel near the protective sleeve. A connecting plate is provided at the end of the slide rod and the pusher plate away from the cutting mechanism. A push-pull rod is movably connected to the top of the slide rod. The end of the push-pull rod away from the slide rod is movably connected to one side of the mounting frame. Thus, when the mounting frame is raised or lowered, the pusher plate and slide rod can be moved as a whole through the push-pull rod.
[0011] Preferably, the conveying channel is adapted to the spare parts; the corresponding part of the conveying channel and the cutting machine is provided with a cutting groove adapted to the cutting machine; the corresponding part of the conveying channel and the punching head is provided with a through hole adapted to the punching head.
[0012] Preferably, one end of the bottom of the mounting frame has a first pressing structure. The first pressing structure includes a first bracket disposed at one end of the bottom of the mounting frame. The lower end of the first bracket is movably connected to a first column. The bottom of the first column is provided with a first pressure plate. A first spring is sleeved on the outside of the first column. In the initial state of the first spring, the first pressure plate is lower than the bottom of the cutting machine.
[0013] The bottom of the second bracket is provided with a second pressing structure. The second pressing structure includes a second column movably connected to the end of the second bracket. The bottom of the second column is provided with a second pressure plate. A second spring is sleeved on the outside of the second column. When the second spring is in its initial state, the second pressure plate is lower than the bottom of the punch head.
[0014] Preferably, it further includes a waste ejection mechanism, which includes a displacement groove disposed at one end of the top of the frame. A drive plate is movably connected to the inner side of the displacement groove. A push-pull arm is disposed at one end of the connecting plate. The end of the push-pull arm away from the connecting plate extends to the inner side of the displacement groove and is fixedly connected to one end of the drive plate. Thus, when the connecting plate is displaced, the drive plate can be displaced by the push-pull arm. An inclined groove is disposed at the top end of the drive plate away from the push-pull arm. A straight groove communicating with the inclined groove is disposed at the end of the drive plate near the push-pull arm, and the straight groove is parallel to the drive plate. A hidden channel corresponding to the cutting groove is provided on the side of the inner cavity of the conveying channel near the displacement groove. A waste channel is provided on the side of the inner cavity of the conveying channel opposite to the hidden channel. A displacement block is slidably connected to the inner cavity of the hidden channel. A connecting block is provided at the end of the displacement block near the displacement groove. A guide wheel that is rotatably connected to the bottom end of the connecting block and is movable with the straight groove and the inclined groove is provided. A telescopic rod is provided on the side of the displacement block away from the displacement groove. A third spring is sleeved on the outside of the telescopic rod. A waste push block corresponding to the waste channel is provided at the end of the telescopic rod away from the displacement block.
[0015] Preferably, when the cutting machine moves downward to its limit distance, there is a gap between the pusher plate and the bottom of the workpiece storage cylinder. At this time, the guide wheel is located at the end of the inclined groove away from the straight groove. When the cutting machine moves upward to its limit distance, the pusher plate can push the cutting part of the bottom part of the workpiece storage cylinder to the cutting groove. When the pusher plate pushes the subsequent parts, it can push the punching part of the cut parts to the through hole. When the guide wheel is located at the junction of the inclined groove and the straight groove, one end of the pusher plate corresponds to the bottom part of the workpiece storage cylinder. At this time, the waste pusher block is located in the hidden channel.
[0016] Preferably, a waste collection box is provided at the bottom of the frame, with one end of the waste collection box corresponding to the tail end of the waste channel and the other end corresponding to the through hole; a finished product collection box is provided at the tail end of the conveying channel.
[0017] Preferably, the lower end of the inner cavity of the workpiece storage cylinder is provided with receiving grooves on opposite sides. The inner side of the receiving groove is movably connected to a support plate for supporting parts. The other two sides of the lower end of the inner cavity of the workpiece storage cylinder are provided with grooves. Push rods are provided diagonally on opposite sides of the two support plates. A fourth spring is provided between the side of the support plate away from the push rod and the inner wall of the receiving groove. When the fourth spring is in its reset state, one end of the support plate protrudes from the inner wall of the workpiece storage cylinder, and the end of the push rod away from the support plate protrudes from the outer wall of the workpiece storage cylinder. The protrusion distance of the push rod is the same as the protrusion distance of the support plate. Vertical grooves corresponding to the push rods are provided diagonally on opposite sides of the inner cavity of the protective cylinder.
[0018] Preferably, one side of the vertical groove cavity is an inclined surface, and the end of the push rod protruding from the outer wall of the workpiece storage cylinder abuts against the inclined surface of the vertical groove cavity. When the workpiece storage cylinder is completely inserted into the inner cavity of the protective cylinder, the protruding part of the push rod is completely inserted into the inner side wall of the workpiece storage cylinder.
[0019] Preferably, the top periphery of the frame is provided with a cover, and the top of the protective sleeve protrudes beyond the top of the cover. Beneficial effects
[0020] Compared with the prior art, the present invention provides a cutting and punching forming equipment for motorcycle parts, which has the following advantages:
[0021] This motorcycle parts cutting and punching forming equipment integrates the cutting mechanism and punching structure into one machine. Combined with a workpiece storage cylinder, conveying channel, push-pull rod, slide rod, connecting plate, and pusher plate, it enables automatic feeding of parts. The automatic feeding is linked to the lifting and lowering of the cutting machine. The cutting machine rises to feed and push the parts, then cuts them. After cutting, the cut parts are automatically pushed to the punching mechanism. This design features good linkage, high precision, and improved efficiency. Simultaneously, the coordinated operation of the push-pull arm, drive plate, inclined groove, straight groove, connecting block, guide wheel, displacement block, telescopic rod, third spring, waste pusher, and waste channel facilitates the ejection of cut waste from the conveying channel. Furthermore, the linkage with the connecting plate facilitates punching the cut parts, further improving efficiency.
[0022] This motorcycle parts cutting and punching forming equipment features a support plate that facilitates the support of parts stored in a workpiece storage cylinder, making it easy to pick up and put down the workpiece storage cylinder. With the addition of a vertical groove, a receiving groove, a fourth spring, and a push rod, the support plate can be hidden when the workpiece storage cylinder is inserted into the protective cylinder, allowing the parts to fall automatically. This makes the operation convenient and increases its practicality. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the structure of the present invention;
[0024] Figure 2 This is a schematic diagram of the structure after the cover of the present invention has been removed;
[0025] Figure 3 This is a structural schematic diagram from another perspective based on the present invention, soil 2;
[0026] Figure 4 This is a schematic diagram of the mounting bracket of the present invention;
[0027] Figure 5 This is a schematic diagram of the structure of the second support of the present invention;
[0028] Figure 6 This is a schematic diagram of the automatic feeding mechanism and waste ejection mechanism of the present invention;
[0029] Figure 7 This is a schematic diagram of the overall structure of the waste pusher, displacement block, and guide wheel of the present invention;
[0030] Figure 8 This is a schematic diagram of the frame structure of the present invention;
[0031] Figure 9 This is a top view cross-sectional structural diagram of the workpiece storage cylinder and the protective cylinder in the connected state of the present invention;
[0032] Figure 10 This is a schematic diagram of the workpiece storage cylinder and the protective cylinder in their disassembled state according to the present invention;
[0033] Figure 11 This is a side view cross-sectional structural diagram of the protective sleeve of the present invention.
[0034] In the diagram: 1. Frame; 2. Machine cover; 3. Cutting frame; 4. First cylinder; 5. Waste collection box; 6. Waste channel; 7. Workpiece storage cylinder; 8. Connecting plate; 9. Push plate; 10. Slide rod; 11. Push-pull arm; 12. Protective cylinder; 13. Mounting frame; 14. Punching frame; 15. Second cylinder; 16. Displacement groove; 17. Conveying channel; 18. Finished product collection box; 19. Drive plate; 20. Push-pull rod; 21. Waste pusher block; 22. Cutting machine; 23. First support; 24. First pressure... 25. Plate; 26. First column; 27. First spring; 28. Second bracket; 29. Punch head; 30. Second pressure plate; 31. Second column; 32. Second spring; 33. Inclined groove; 34. Straight groove; 35. Displacement block; 36. Telescopic rod; 37. Third spring; 38. Connecting block; 39. Guide wheel; 40. Sliding groove; 41. Cutting groove; 42. Through hole; 43. Receiving groove; 44. Support plate; 45. Fourth spring; 46. Push rod; 47. Groove; 48. Hidden channel. Detailed Implementation
[0035] To make the technical means, creative features, objectives and effects of this invention easier to understand, the invention will be further described below in conjunction with specific embodiments. Example
[0036] like Figures 1-11 As shown, a motorcycle parts cutting and punching forming equipment includes a frame 1, a cutting mechanism is provided at one end of the top of the frame 1, a punching mechanism is provided on one side of the cutting mechanism, and an automatic feeding mechanism is provided at the top of the frame 1.
[0037] Furthermore, the cutting mechanism includes a cutting frame 3 disposed on the top of the frame 1, a mounting frame 13 disposed below the cutting frame 3, a first cylinder 4 disposed on the top of the cutting frame 3 to drive the mounting frame 13 to lift and lower, and a cutting machine 22 disposed on one side of the mounting frame 13.
[0038] Furthermore, one end of the bottom of the mounting frame 13 has a first pressing structure. The first pressing structure includes a first bracket 23 disposed at one end of the bottom of the mounting frame 13. The lower end of the first bracket 23 is movably connected to a first column 25. A first pressure plate 24 is disposed at the bottom of the first column 25. A first spring 26 is sleeved on the outside of the first column 25. In the initial state, the first pressure plate 24 is lower than the bottom of the cutting machine 22.
[0039] Furthermore, the punching mechanism includes a punching frame 14 disposed on the top of the frame 1, a second support 27 disposed below the punching frame 14, a second cylinder 15 disposed on the top of the punching frame 14 to drive the second support 27 to rise and fall, and a punching head 28 disposed on the bottom of the second support 27.
[0040] Furthermore, a second pressing structure is provided at the bottom of the second bracket 27. The second pressing structure includes a second column 30 movably connected to the end of the second bracket 27. A second pressure plate 29 is provided at the bottom of the second column 30. A second spring 31 is sleeved on the outside of the second column 30. In the initial state, the second pressure plate 29 is lower than the bottom of the punch head 28.
[0041] As one embodiment, the automatic feeding mechanism includes a conveying channel 17 located on the top of the frame 1, corresponding to the cutting mechanism and the punching mechanism. The conveying channel 17 is adapted to the parts. A cutting groove 40 adapted to the cutting machine 22 is provided at the corresponding position of the conveying channel 17 and the punching head 28. A through hole 41 adapted to the punching head 28 is provided at the corresponding position of the conveying channel 17. A protective sleeve 12 is provided at the top of the frame 1 near the cutting mechanism. A workpiece storage cylinder for storing parts and corresponding to one end of the conveying channel 17 is movably inserted into the inner side of the protective sleeve 12. 7. Slide grooves 39 are symmetrically arranged on both sides of the conveying channel 17 near the cutting mechanism. Slide rods 10 are symmetrically slidably connected to the inner sides of the two slide grooves 39. A pusher plate 9 is movably arranged at the end of the conveying channel 17 near the protective cylinder 12. A connecting plate 8 is provided at the end of the slide rod 10 and the pusher plate 9 away from the cutting mechanism. A push-pull rod 20 is movably connected to the top of the slide rod 10. The end of the push-pull rod 20 away from the slide rod 10 is movably connected to one side of the mounting frame 13. Thus, when the mounting frame 13 is raised or lowered, the pusher plate 9 and the slide rod 10 can be moved as a whole through the push-pull rod 20.
[0042] Furthermore, it also includes a waste ejection mechanism, which includes a displacement groove 16 located at one end of the top of the frame 1. A drive plate 19 is movably connected to the inner side of the displacement groove 16. A push-pull arm 11 is provided at one end of the connecting plate 8. The end of the push-pull arm 11 away from the connecting plate 8 extends to the inner side of the displacement groove 16 and is fixedly connected to one end of the drive plate 19. Thus, when the connecting plate 8 is displaced, the drive plate 19 can be displaced through the push-pull arm 11. An inclined groove 32 is provided at the top end of the drive plate 19 away from the push-pull arm 11. A straight groove 33 communicating with the inclined groove 32 is provided at the end of the drive plate 19 near the push-pull arm 11, and the straight groove 33 is parallel to the drive plate 19. A hidden channel 48 corresponding to the cutting groove 40 is provided on the side of the inner cavity of the conveying channel 17 near the displacement groove 16. A waste channel 6 is provided on the side of the inner cavity of the conveying channel 17 opposite to the hidden channel 48. A displacement block 34 is slidably connected to the inner cavity of the hidden channel 48. A connecting block is provided at the end of the displacement block 34 near the displacement groove 16. 37. One end of the bottom of the connecting block 37 is rotatably connected to a guide wheel 38 that movably engages with the straight groove 33 and the inclined groove 32. A telescopic rod 35 is provided on the side of the displacement block 34 away from the displacement groove 16. A third spring 36 is sleeved on the outside of the telescopic rod 35. A waste pusher block 21 corresponding to the waste channel 6 is provided on the end of the telescopic rod 35 away from the displacement block 34. When the cutting machine 22 moves downward to the limit distance, there is a gap between the pusher plate 9 and the bottom of the workpiece storage cylinder 7. At this time, the guide wheel 38 is located in the inclined groove 32. At the end furthest from the straight groove 33, when the cutting machine 22 moves upward to the limit distance, the pusher plate 9 can push the cutting part of the bottom part of the workpiece storage cylinder 7 to the cutting groove 40. When the pusher plate 9 pushes the subsequent parts, it can push the punching part of the cut parts to the through hole 41. When the guide wheel 38 is located at the junction of the inclined groove 32 and the straight groove 33, one end of the pusher plate 9 corresponds to the bottom part of the workpiece storage cylinder 7. At this time, the waste pusher block 21 is located in the hidden channel 48.
[0043] Furthermore, a waste collection box 5 is provided at the bottom of the frame 1, with one end of the waste collection box 5 corresponding to the tail end of the waste channel 6 and the other end corresponding to the through hole 41; a finished product collection box 18 is provided at the tail end of the conveying channel 17.
[0044] In one embodiment, receiving grooves 42 are respectively provided on opposite sides of the lower end of the inner cavity of the workpiece storage cylinder 7. A support plate 43 for supporting parts is movably connected to the inner side of the receiving groove 42. Grooves 46 are respectively provided on the other two sides of the lower end of the inner cavity of the workpiece storage cylinder 7. Push rods 45 are diagonally provided on opposite sides of the two support plates 43. A fourth spring 44 is provided between the side of the support plate 43 away from the push rod 45 and the inner wall of the receiving groove 42. When the fourth spring 44 is in its reset state, one end of the support plate 43 protrudes from the workpiece storage cylinder 7. The inner wall of the push rod 45 has one end protruding from the outer wall of the workpiece storage cylinder 7 away from the support plate 43, and the protrusion distance of the push rod 45 is the same as the protrusion distance of the support plate 43. The inner cavity of the protective cylinder 12 has vertical grooves 47 corresponding to the push rod 45 on opposite sides. One side of the inner cavity of the vertical groove 47 is an inclined surface. The end of the push rod 45 protruding from the outer wall of the workpiece storage cylinder 7 abuts against the inclined surface of the inner cavity of the vertical groove 47. When the workpiece storage cylinder 7 is completely inserted into the inner cavity of the protective cylinder 12, the protruding part of the push rod 45 is completely inserted into the inner side wall of the workpiece storage cylinder 7.
[0045] Furthermore, a cover 2 is provided on the top periphery of the frame 1, and the top of the protective cylinder 12 protrudes from the top of the cover 2; in addition, the device also includes a controller (the controller is a conventional technology such as a PLC or a microcontroller, which will not be described in detail).
[0046] Working principle: During use, several spare parts are stacked and stored in the inner cavity of the workpiece storage cylinder 7, with the bottom supported by the support plate 43. Then, the push rod 45 protruding from the side of the workpiece storage cylinder 7 aligns with the vertical groove 47, and the workpiece storage cylinder 7 is pressed down. As the workpiece storage cylinder 7 moves downward, the push rod 45 abuts against the inner wall of the vertical groove 47, and the push rod 45 drives the support plate 43 to compress the fourth spring 44. When the workpiece storage cylinder 7 is completely inserted into the protective cylinder 12, the support plate 43 is completely hidden in the receiving groove 42. At this time, the bottommost spare part falls to one end of the conveying channel 17. In the initial state, the lower end of the cutting machine 22 is located in the cutting groove 40, the push plate 9 has a gap from the bottom of the workpiece storage cylinder 7, the guide wheel 38 is located at the end of the inclined groove 32 away from the straight groove 33, and the waste push block 21 is located at the conveying... At the corresponding location of the inner side of channel 17 and waste channel 6, the first cylinder 4 drives the mounting frame 13 and the cutting machine 22 to rise as a whole. The push-pull rod 20 drives the slide rod 10 to move, the slide rod 10 drives the connecting plate 8 to move, and the connecting plate 8 drives the push plate 9 and the push-pull arm 11 to move. The push plate 9 moves closer to the top of the workpiece storage cylinder 7, and the push-pull arm 11 drives the drive plate 19 to move. Under the action of the guide wheel 38 and the inclined groove 32, the waste push block 21 moves towards the hidden channel 48. When the push plate 9 just contacts the bottom part of the workpiece storage cylinder 7, the guide wheel 38 is located at the junction of the inclined groove 32 and the straight groove 33. At this time, the waste push block 21 enters the hidden channel 48 and continues to rise a certain distance. The guide wheel 38 moves relative to the straight groove 33, and the waste push block 21 remains stationary. The pusher plate 9 pushes the bottommost component downwards towards the cutting machine 22. When the cutting part of the component reaches the cutting groove 40, it stops rising. Then, the first cylinder 4 starts to drive the mounting frame 13 and the cutting machine 22 to move downwards as a whole. Subsequently, the pusher plate 9 returns to its original position. As the mounting frame 13 moves downwards, the first pressure plate 24 first contacts the component. Then, the first spring 26 contracts to generate a reverse force to press the component. Immediately afterwards, the cutting machine 22 performs cutting. Then, when the guide wheel 38 enters the inclined groove 32, the waste pusher block 21 starts to push the part to be cut off. Then, the third spring 36 contracts. After the cutting is completed, the third spring 36 returns to its original position, and the waste pusher block 21 pushes the cut-off waste from the conveying channel 17 to the waste channel 6. After that, the first cylinder... 4. The mounting bracket 13 and the cutting machine 22 are driven to rise and reset. After resetting, the mounting bracket 13 and the cutting machine 22 continue to move downward as a whole. At this time, the bottommost part is pushed to move, and the part to be cut can be pushed to the bottom of the punching frame 14, with the punching part corresponding to the through hole 41. Then, the second cylinder 15 drives the second bracket 27 and the punching head 28 to move downward as a whole. The second pressure plate 29 first contacts the part, and then the second spring 31 contracts to generate a reverse force to press the part. After that, the punching head 28 punches the part. After punching, the second bracket 27 and the punching head 28 rise and reset. When feeding materials again, the punched parts can be pushed into the finished product collection box 18 for collection.Furthermore, the waste material from cutting and punching can be collected in the waste collection box 5. This device integrates cutting and punching, automatically feeding, unloading, and discharging waste. It features good linkage, high precision, improved efficiency, and saves costs and workshop space.
[0047] The foregoing has shown and described the basic principles, main features, and advantages of the present invention. Those skilled in the art should understand that the present invention is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of the invention. Various changes and modifications can be made to the invention without departing from its spirit and scope, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of protection of this invention is defined by the appended claims and their equivalents.
Claims
1. A cutting, punching, and forming equipment for motorcycle parts, comprising a frame (1), characterized in that: A cutting mechanism is provided at one end of the top of the frame (1), a punching mechanism is provided on one side of the cutting mechanism, and an automatic feeding mechanism is also provided at the top of the frame (1). The cutting mechanism includes a cutting frame (3) disposed on the top of the frame (1), a mounting frame (13) disposed below the cutting frame (3), a first cylinder (4) for driving the mounting frame (13) to lift and lower is disposed on the top of the cutting frame (3), and a cutting machine (22) is disposed on one side of the mounting frame (13). The punching mechanism includes a punching frame (14) disposed on the top of the frame (1), a second support (27) disposed below the punching frame (14), a second cylinder (15) for driving the second support (27) to rise and fall disposed on the top of the punching frame (14), and a punching head (28) disposed on the bottom of the second support (27). The automatic feeding mechanism includes a conveying channel (17) located on the top of the frame (1) corresponding to the cutting mechanism and the punching mechanism. A protective sleeve (12) is provided at the top of the frame (1) near the cutting mechanism. A workpiece storage cylinder (7) for storing spare parts and corresponding to one end of the conveying channel (17) is movably inserted into the inner side of the protective sleeve (12). Slide grooves (39) are symmetrically arranged on both sides of the conveying channel (17) near the cutting mechanism. Slide rods (1) are symmetrically slidably connected to the inner sides of the two slide grooves (39). 0), the conveying channel (17) is movably provided with a pusher plate (9) at one end near the protective cylinder (12), and the slide rod (10) and the pusher plate (9) are jointly provided with a connecting plate (8) at the end away from the cutting mechanism. The top of the slide rod (10) is movably connected with a push-pull rod (20), and the end of the push-pull rod (20) away from the slide rod (10) is movably connected to one side of the mounting frame (13). Thus, when the mounting frame (13) is raised or lowered, the pusher plate (9) and the slide rod (10) can be moved as a whole through the push-pull rod (20). It also includes a waste ejection mechanism, which includes a displacement groove (16) located at one end of the top of the frame (1). A drive plate (19) is movably connected to the inner side of the displacement groove (16). A push-pull arm (11) is provided at one end of the connecting plate (8). The end of the push-pull arm (11) away from the connecting plate (8) extends to the inner side of the displacement groove (16) and is fixedly connected to one end of the drive plate (19). Thus, when the connecting plate (8) is displaced, the drive plate (19) can be displaced by the push-pull arm (11). An inclined groove (32) is provided at the top of the drive plate (19) away from the push-pull arm (11). A straight groove (33) communicating with the inclined groove (32) is provided at the end of the drive plate (19) near the push-pull arm (11). The straight groove (33) is parallel to the drive plate (19). The conveying channel (17) is located within... A hidden channel (48) corresponding to the cutting groove (40) is provided on the side of the cavity near the displacement groove (16). A waste channel (6) is provided on the side of the inner cavity of the conveying channel (17) opposite to the hidden channel (48). A displacement block (34) is slidably connected to the inner cavity of the hidden channel (48). A connecting block (37) is provided at the end of the displacement block (34) near the displacement groove (16). A guide wheel (38) that is rotatably connected to the bottom end of the connecting block (37) and is movablely engaged with the straight groove (33) and the inclined groove (32) is rotatably connected to the bottom end of the connecting block (37). A telescopic rod (35) is provided on the side of the displacement block (34) away from the displacement groove (16). A third spring (36) is sleeved on the outside of the telescopic rod (35). A waste push block (21) corresponding to the waste channel (6) is provided at the end of the telescopic rod (35) away from the displacement block (34). When the cutting machine (22) moves downward to the limit distance, there is a gap between the push plate (9) and the bottom of the workpiece storage cylinder (7). At this time, the guide wheel (38) is located at the end of the inclined groove (32) away from the straight groove (33). When the cutting machine (22) moves upward to the limit distance, the push plate (9) can push the cutting part of the bottom part of the workpiece storage cylinder (7) to the cutting groove (40). When the push plate (9) pushes the subsequent parts, it can push the punching part of the cut parts to the through hole (41). When the guide wheel (38) is located at the junction of the inclined groove (32) and the straight groove (33), one end of the push plate (9) corresponds to the bottom part of the workpiece storage cylinder (7). At this time, the waste push block (21) is located in the hidden channel (48).
2. The motorcycle parts cutting and punching forming equipment according to claim 1, characterized in that: The conveying channel (17) is adapted to the spare parts; the corresponding part of the conveying channel (17) and the cutting machine (22) is provided with a cutting groove (40) adapted to the cutting machine (22); the corresponding part of the conveying channel (17) and the punching head (28) is provided with a through hole (41) adapted to the punching head (28).
3. The motorcycle parts cutting and punching forming equipment according to claim 2, characterized in that: The mounting bracket (13) has a first pressing structure at one end of its bottom. The first pressing structure includes a first bracket (23) located at one end of the bottom of the mounting bracket (13). The lower end of the first bracket (23) is movably connected to a first column (25). A first pressure plate (24) is provided at the bottom of the first column (25). A first spring (26) is sleeved on the outside of the first column (25). In the initial state, the first pressure plate (24) is lower than the bottom of the cutting machine (22). The bottom of the second bracket (27) is provided with a second pressing structure. The second pressing structure includes a second column (30) movably connected to the end of the second bracket (27). The bottom of the second column (30) is provided with a second pressure plate (29). A second spring (31) is sleeved on the outside of the second column (30). When the second spring (31) is in its initial state, the second pressure plate (29) is lower than the bottom of the punch head (28).
4. The motorcycle parts cutting and punching forming equipment according to claim 1, characterized in that: The bottom of the frame (1) is provided with a waste collection box (5), one end of which corresponds to the tail end of the waste channel (6) and the other end corresponds to the through hole (41); the tail end of the conveying channel (17) is provided with a finished product collection box (18).
5. A motorcycle parts cutting and punching forming equipment according to any one of claims 1 to 4, characterized in that: The workpiece storage cylinder (7) has receiving grooves (42) on opposite sides of its inner cavity. The receiving grooves (42) are movably connected to a support plate (43) for supporting spare parts. The workpiece storage cylinder (7) has grooves (46) on the other two sides of its inner cavity. The two support plates (43) have push rods (45) diagonally arranged on opposite sides. A fourth spring (44) is arranged between the side of the support plate (43) away from the push rod (45) and the inner wall of the receiving groove (42). When the fourth spring (44) is in its reset state, one end of the support plate (43) protrudes from the inner wall of the workpiece storage cylinder (7), and the end of the push rod (45) away from the support plate (43) protrudes from the outer wall of the workpiece storage cylinder (7). The protrusion distance of the push rod (45) is the same as the protrusion distance of the support plate (43). The inner cavity of the protective cylinder (12) has vertical grooves (47) corresponding to the push rod (45) diagonally arranged on opposite sides.
6. The motorcycle parts cutting and punching forming equipment according to claim 5, characterized in that: One side of the inner cavity of the vertical groove (47) is an inclined surface. The end of the push rod (45) protruding from the outer wall of the workpiece storage cylinder (7) abuts against the inclined surface of the inner cavity of the vertical groove (47). When the workpiece storage cylinder (7) is completely inserted into the inner cavity of the protective cylinder (12), the protruding part of the push rod (45) is completely inserted into the inner side wall of the workpiece storage cylinder (7).
7. The motorcycle parts cutting and punching forming equipment according to claim 6, characterized in that: The top periphery of the frame (1) is provided with a cover (2), and the top of the protective cylinder (12) protrudes from the top of the cover (2).