Punching and blanking device
By designing the pressing and feeding assembly and the pushing assembly, the problem of product jumping on the belt conveyor was solved, and rapid material collection was achieved during the stamping process, thus improving material collection efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU JIAXUAN JINGGONG TECH CO LTD
- Filing Date
- 2025-06-03
- Publication Date
- 2026-06-05
AI Technical Summary
In the traditional stamping process, the product tends to bounce on the belt conveyor, resulting in low material collection efficiency.
The design combines a pressing and conveying assembly with a pushing assembly. The synchronous movement of the upper and lower belt conveyors stabilizes the product transport and pushes it into the receiving mechanism. Combined with an adjustable receiving assembly and clamping components, the product is collected quickly.
It effectively prevents products from bouncing during transportation, enabling fast and stable material collection and improving collection efficiency.
Smart Images

Figure CN224322246U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of stamping equipment, specifically a stamping blanking device. Background Technology
[0002] After the stamping press forms the sheet metal into a product, the product enters the receiving mechanism through the stamping press's blanking port. Traditional receiving mechanisms use ordinary belt conveyors to transport the product to the guiding assembly. In this way, the product is prone to bouncing on the belt conveyor during receiving, making it difficult for it to enter the guiding assembly smoothly and quickly, thus reducing receiving efficiency.
[0003] Therefore, it is necessary to provide a stamping blanking device. Summary of the Invention
[0004] The present invention provides a stamping blanking device that effectively solves the problem of products not being able to be quickly collected during the existing stamping blanking process.
[0005] The technical solution adopted in this utility model is:
[0006] The stamping blanking device includes a frame, a receiving mechanism mounted on the frame, a stamping press mounted on one side of the receiving mechanism, and a receiving mechanism mounted on the other side of the receiving mechanism. The receiving mechanism includes a first mounting frame mounted on the frame, a pressing and conveying assembly mounted on the first mounting frame along the Y direction, a guiding assembly mounted between the pressing and conveying assembly and the receiving mechanism, and a pushing assembly mounted on the first mounting frame for pushing the product in the guiding assembly to the receiving mechanism.
[0007] Furthermore, the pressing and conveying assembly includes two No. 1 frames symmetrically arranged on the No. 1 mounting frame, two lower belt lines symmetrically arranged on opposite sides of the two No. 1 frames, two upper belt lines symmetrically arranged on opposite sides of the two No. 1 frames and located above the lower belt lines, and a drive assembly arranged on the No. 1 frame for driving the two lower belt lines to move synchronously.
[0008] Furthermore, the upper and lower belt conveyors have the same structure. The lower belt conveyor includes a driving pulley and a driven pulley rotatably mounted on the first frame, and a synchronous belt wound around the driving pulley and the driven pulley. The drive assembly includes a first motor mounted on one of the first frames, a coupling mounted on the output shaft of the first motor, and a rotating shaft coaxially connecting the driving pulleys of the two lower belt conveyors. The coupling is coaxially and fixedly connected to the rotating shaft.
[0009] Furthermore, the pushing assembly includes a cylinder mounted on the first mounting frame and a push plate mounted on the output end of the cylinder, the push plate being located on the two first mounting frame supports.
[0010] Furthermore, the receiving mechanism includes a machine base, a first linear guide rail mounted on the machine base, a sliding seat slidably mounted on the first linear guide rail, a first lead screw module mounted on the machine base for driving the sliding seat to slide along the first linear guide rail, a second linear guide rail vertically mounted on the sliding seat, a lifting frame slidably mounted on the second linear guide rail, a second lead screw module mounted on the sliding seat for driving the lifting frame to rise and fall along the second linear guide rail, and a receiving assembly mounted on the lifting frame.
[0011] Furthermore, the receiving assembly includes a No. 1 seat fixedly mounted on the lifting frame, a double synchronous belt conveyor line mounted on the No. 1 seat along the X direction, a material rack conveyed by the double synchronous belt conveyor line, and a clamping component mounted on the No. 1 seat for fixing the material rack of the double synchronous belt conveyor line.
[0012] Furthermore, the clamping component includes a fixed baffle mounted on the first seat and a rotary clamping cylinder mounted on the first seat along the X-axis direction. The rotary clamping cylinder and the fixed baffle are located on opposite sides of the material rack.
[0013] Furthermore, the first frame includes a lower frame, an upper frame, and an elastic element connecting the lower frame and the upper frame. The upper belt is mounted on the upper frame, the lower belt is mounted on the lower frame, and the drive assembly is mounted on the lower frame.
[0014] The beneficial effects of the utility model are: pressing and conveying the stamped products through the pressing and conveying assembly, preventing the products from jumping during the conveying process, facilitating the rapid unloading and collection of the stamped products, and improving the material collection efficiency. Attached Figure Description
[0015] Figure 1 The schematic diagram of the stamping blanking device provided in the embodiments of this application omits the stamping machine and frame.
[0016] Figure 2 This is an overall schematic diagram of the stamping blanking device provided in the embodiments of this application.
[0017] Figure 3 This is a schematic diagram of the receiving mechanism of the stamping blanking device provided in an embodiment of this application from one perspective.
[0018] Figure 4 This is a schematic diagram of the receiving mechanism of the stamping blanking device provided in the embodiments of this application from another perspective.
[0019] The diagram is labeled as follows: 1. Pressing machine; 2. Mounting frame 1; 3. Pressing and conveying assembly; 4. Guide assembly; 5. Pushing assembly; 31. Frame 1; 32. Lower belt conveyor; 33. Upper belt conveyor; 34. Drive assembly; 321. Drive pulley; 322. Synchronous belt; 341. Motor 1; 342. Coupling; 343. Shaft; 51. Cylinder; 52. Push plate; 6. Receiving mechanism; 61 61. Machine base; 62. Linear guide rail No. 1; 63. Sliding seat; 64. Screw module No. 1; 65. Linear guide rail No. 2; 66. Lifting frame; 67. Screw module No. 2; 68. Material receiving assembly; 681. Seat No. 1; 682. Double synchronous belt conveyor line; 683. Material rack; 684. Fixed baffle; 685. Rotary clamping cylinder; 311. Lower frame; 312. Upper frame; 313. Elastic component. Detailed Implementation
[0020] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.
[0021] like Figure 1 and Figure 2 As shown, the stamping blanking device provided in the embodiment of this application includes a frame, a receiving mechanism disposed on the frame, a stamping machine 1 disposed on one side of the receiving mechanism, and a receiving mechanism 6 disposed on the other side of the receiving mechanism. The receiving mechanism includes a first mounting frame 2 disposed on the frame, a pressing and conveying assembly 3 disposed on the first mounting frame 2 along the Y direction, a guiding assembly 4 disposed between the pressing and conveying assembly 3 and the receiving mechanism 6, and a pushing assembly 5 disposed on the first mounting frame 2 for pushing the product in the guiding assembly 4 to the receiving mechanism 6.
[0022] In actual use, the stamped products automatically flow into the pressing and conveying assembly 3, are pressed and conveyed to the guiding assembly 4 by the pressing and conveying assembly 3, and then pushed into the receiving mechanism 6 by the pushing assembly 5.
[0023] In the above design, the structural design and specific implementation of the receiving mechanism facilitate the rapid unloading and collection of stamped products, thereby improving the material collection efficiency.
[0024] Specifically: such as Figure 1 As shown, the pressing and conveying assembly 3 includes two first frames 31 symmetrically arranged on the first mounting frame 2, two lower belt lines 32 symmetrically arranged on opposite sides of the two first frames 31, two upper belt lines 33 symmetrically arranged on opposite sides of the two first frames 31 and located above the lower belt lines 32, and a drive assembly 34 arranged on the first frame 31 for driving the two lower belt lines 32 to move synchronously.
[0025] In actual use, when the stamped product flows into the ends of the lower belt 32 and the upper belt 33, the upper end face of the product contacts the upper belt 33, and the lower end face of the product contacts the lower belt 32. When the drive assembly 34 drives the lower belt 32 to rotate, the lower belt 32 carries the product into the pressing and conveying gap between the upper belt 33 and the lower belt 32, so that the upper belt 33 achieves transmission due to the movement of the product and the friction with the product. The upper belt 33 and the lower belt 32 work together to realize the conveying of the product to the guide assembly 4.
[0026] In the above design, the structural design and specific implementation of the pressing and conveying component 3 can effectively achieve stable conveying of the product.
[0027] Specifically: such as Figure 1 and Figure 3 As shown, the upper belt 33 and the lower belt 32 have the same structure. The lower belt 32 includes a driving pulley 321 and a driven pulley rotatably mounted on the first frame 31, and a synchronous belt 322 wound around the driving pulley 321 and the driven pulley. The drive assembly 34 includes a first motor 341 mounted on one of the first frames 31, a coupling 342 mounted on the output shaft of the first motor 341, and a rotating shaft 343 coaxially connecting the driving pulleys 321 of the two lower belts 32. The coupling 342 and the rotating shaft 343 are coaxially and fixedly connected.
[0028] In actual use, the No. 1 motor 341 drives the coupling 342 to rotate the shaft 343, causing the driving pulleys 321 of the two lower belts 32 to rotate. With the cooperation of the driven pulleys, the synchronous belt 322 achieves transmission. During the transmission of the synchronous belt 322, the product is conveyed. With the upper belt 33 contacting the upper surface of the product and moving synchronously, it is ensured that the product will not jump during the conveying process.
[0029] In the above design, the structural design and specific implementation of the upper belt 33 and the lower belt 32 facilitate the stability of product transportation and prevent product jumping.
[0030] Specifically: such as Figure 1 , Figure 3 and Figure 4 As shown, the pushing assembly 5 includes a cylinder 51 mounted on the first mounting bracket 2 and a push plate 52 mounted on the output end of the cylinder 51. The push plate 52 is located on the two brackets of the first bracket 31. The guiding assembly 4 includes a support, and the support is provided with a sliding groove that is slidably connected to both sides of the product.
[0031] In actual use, the product is driven by the pressing and conveying assembly 3 to enter the guiding assembly 4 and then stops. Subsequently, the cylinder 51 drives the push plate 52 to push the product near the pressing and conveying assembly 3, so that the product enters the receiving mechanism 6 along the chute.
[0032] In the above design, the structural design and specific implementation of the pusher component 5 can effectively achieve rapid pushing of the product.
[0033] Specifically: such as Figure 1 As shown, the receiving mechanism 6 includes a machine base 61, a first linear guide rail 62 mounted on the machine base 61, a sliding seat 63 slidably mounted on the first linear guide rail 62, a first lead screw module 64 mounted on the machine base 61 for driving the sliding seat 63 to slide along the first linear guide rail 62, a second linear guide rail 65 vertically mounted on the sliding seat 63, a lifting frame 66 slidably mounted on the second linear guide rail 65, a second lead screw module 67 mounted on the sliding seat 63 for driving the lifting frame 66 to rise and fall along the second linear guide rail 65, and a receiving assembly 68 mounted on the lifting frame 66.
[0034] In actual use, the sliding seat 63 is moved by the first lead screw module 64, which causes the sliding seat 63 to move the lifting frame 66 and the receiving component 68 horizontally and synchronously, so that the receiving component 68 can receive materials using the receiving ports at different horizontal positions. The lifting frame 66 and the receiving component 68 are moved vertically and synchronously by the second lead screw module 67, so that the receiving component 68 can receive materials using the receiving ports at different layers.
[0035] In the above design, the structural design and specific implementation of the receiving mechanism 6 can realize the adjustment of the position of the receiving component 68, which facilitates continuous receiving of materials.
[0036] Specifically: such as Figure 1 As shown, the receiving assembly 68 includes a first seat 681 fixedly mounted on the lifting frame 66, a double synchronous belt 322 conveyor line mounted along the X direction on the first seat 681, a material rack 683 conveyed by the double synchronous belt 322 conveyor line, and a clamping member mounted on the first seat 681 for fixing the material rack 683 of the double synchronous belt 322 conveyor line.
[0037] In actual use, after the material rack 683 stops on the dual synchronous belt 322 conveyor line, the material rack 683 is clamped by the clamping device. After the material rack 683 finishes receiving the material, the clamping device releases its grip and moves out of position, the dual synchronous belt 322 conveyor line starts, and drives the material rack 683 to move out of the receiving assembly 68.
[0038] In the above design, the structural design and specific implementation of the receiving component 68 facilitate the stability of the material rack 683 during the receiving process.
[0039] Specifically: such as Figure 1As shown, the clamping component includes a fixed baffle 684 disposed on the first seat 681 and a rotary clamping cylinder 685 disposed on the first seat 681 along the X-axis direction. The rotary clamping cylinder 685 and the fixed baffle 684 are respectively located on both sides of the material rack 683.
[0040] In actual use, when it is necessary to clamp the material rack 683, the output end of the rotary clamping cylinder 685 extends and rotates to clamp the material rack 683 onto the fixed baffle 684. When it is necessary to release the material rack 683, the rotary clamping cylinder 685 retracts after rotation, allowing the material rack 683 to flow out along the double synchronous belt 322 conveyor line.
[0041] In the above design, the structural design and specific implementation of the clamping component facilitate the fixing of the material rack 683.
[0042] Specifically: such as Figure 1 and Figure 3 As shown, the first frame 31 includes a lower frame 311, an upper frame 312, and an elastic element 313 connecting the lower frame 311 and the upper frame 312. The upper belt 33 is disposed on the upper frame 312, the lower belt 32 is disposed on the lower frame 311, and the drive assembly 34 is disposed on the lower frame 311.
[0043] In actual use, during the pressing and conveying process of the product through the lower belt 32 and the upper belt 33, the upper frame 312 and the lower frame 311 are floatingly connected by the elastic element 313, so that the upper belt 33 and the lower belt 32 are always in contact with the upper and lower surfaces of the product respectively.
[0044] In the above design, the design of frame 31 can improve the adaptability to products of different thicknesses.
[0045] In further detail, it should be understood that the above description is only a specific embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A stamping blanking device, including a frame, characterized in that: It also includes a receiving mechanism set on the frame, a stamping machine (1) set on one side of the receiving mechanism, and a receiving mechanism (6) set on the other side of the receiving mechanism. The receiving mechanism includes a first mounting frame (2) set on the frame, a pressing and conveying assembly (3) set on the first mounting frame (2) along the Y direction, a guiding assembly (4) set between the pressing and conveying assembly (3) and the receiving mechanism (6), and a pushing assembly (5) set on the first mounting frame (2) for pushing the product in the guiding assembly (4) to the receiving mechanism (6).
2. The stamping blanking device according to claim 1, characterized in that: The pressing and conveying assembly (3) includes two first frames (31) symmetrically arranged on the first mounting frame (2), two lower belt lines (32) symmetrically arranged on opposite sides of the two first frames (31), two upper belt lines (33) symmetrically arranged on opposite sides of the two first frames (31) and located above the lower belt lines (32), and a drive assembly (34) arranged on the first frame (31) for driving the two lower belt lines (32) to move synchronously.
3. The stamping blanking device according to claim 2, characterized in that: The upper belt (33) and the lower belt (32) have the same structure. The lower belt (32) includes a driving pulley (321) and a driven pulley rotatably mounted on the first frame (31), and a synchronous belt (322) wound around the driving pulley (321) and the driven pulley. The drive assembly (34) includes a first motor (341) mounted on one of the first frames (31), a coupling (342) mounted on the output shaft of the first motor (341), and a rotating shaft (343) coaxially connecting the driving pulleys (321) of the two lower belts (32). The coupling (342) and the rotating shaft (343) are coaxially fixedly connected.
4. The stamping blanking device according to claim 2, characterized in that: The pushing assembly (5) includes a cylinder (51) mounted on the first mounting frame (2) and a push plate (52) mounted on the output end of the cylinder (51). The push plate (52) is located on the two supports of the first frame (31).
5. The stamping blanking device according to claim 1, characterized in that: The receiving mechanism (6) includes a machine base (61), a first linear guide rail (62) mounted on the machine base (61), a sliding seat (63) slidably mounted on the first linear guide rail (62), a first lead screw module (64) mounted on the machine base (61) for driving the sliding seat (63) to slide along the first linear guide rail (62), a second linear guide rail (65) vertically mounted on the sliding seat (63), a lifting frame (66) slidably mounted on the second linear guide rail (65), a second lead screw module (67) mounted on the sliding seat (63) for driving the lifting frame (66) to rise and fall along the second linear guide rail (65), and a receiving assembly (68) mounted on the lifting frame (66).
6. The stamping blanking device according to claim 5, characterized in that: The receiving assembly (68) includes a first seat (681) fixedly mounted on the lifting frame (66), a double synchronous belt (322) conveyor line mounted on the first seat (681) along the X direction, a material rack (683) conveyed by the double synchronous belt (322) conveyor line, and a clamping member mounted on the first seat (681) for fixing the material rack (683) of the double synchronous belt (322) conveyor line.
7. The stamping blanking device according to claim 6, characterized in that: The clamping components include a fixed baffle (684) disposed on the first seat (681) and a rotary clamping cylinder (685) disposed on the first seat (681) along the X-axis direction. The rotary clamping cylinder (685) and the fixed baffle (684) are respectively located on both sides of the material rack (683).
8. The stamping blanking device according to claim 2, characterized in that: The first frame (31) includes a lower frame (311), an upper frame (312), and an elastic element (313) connecting the lower frame (311) and the upper frame (312). The upper belt (33) is disposed on the upper frame (312), the lower belt (32) is disposed on the lower frame (311), and the drive assembly (34) is disposed on the lower frame (311).