Shearing machine cross-cut stacking device
By introducing structures such as a moving trolley, mounting bracket, displacement table, and lifting mechanism into the cross-cutting and stacking device of the shearing machine, the problem of uneven stacking of sheet metal was solved, and the precise positioning and safe stacking of sheet metal were achieved, thus improving the stacking quality and efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XINJIANG ZHENQING MASCH EQUIP MFG CO LTD
- Filing Date
- 2025-07-17
- Publication Date
- 2026-07-07
AI Technical Summary
The existing material handling platform cannot control the position of the sheet metal, resulting in uneven stacking of the sheet metal, which affects subsequent handling and processing operations.
The system employs a mobile trolley and mounting bracket structure, combined with a displacement table, lifting mechanism, and adjusting rod. Through linear displacement modules and anti-drop baffles, it achieves the adjustment and fixation of the sheet material's position, ensuring that the sheet material is neatly positioned after falling from the shearing machine conveyor belt.
It improves the quality and efficiency of sheet metal stacking, ensures that the sheets are neatly positioned, prevents them from falling, and enhances the safety and stability of stacking operations.
Smart Images

Figure CN224467012U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of stacking device technology, specifically a shearing machine cross-cutting stacking device. Background Technology
[0002] Shearing machines are essential equipment in the metal processing industry, widely used for cross-cutting steel plates, aluminum plates, and other metal materials, cutting coiled steel plates into smaller sheets of the required length. After the shearing machine cross-cuts the sheet metal, it is conveyed by a rear conveyor belt to a stacking platform at the unloading position. Existing stacking platforms are mostly installed on linear displacement modules, which drive their movement, and a lifting mechanism is included to adjust the stacking height. However, during use, the position of the sheets on the platform cannot be controlled, resulting in uneven placement of the sheets after they fall from the shearing machine's conveyor belt. This uneven placement affects subsequent handling and processing operations. Utility Model Content
[0003] This utility model mainly provides a cross-cutting and stacking device for shearing machines, which solves the problem that existing material tables cannot control the position of the sheet metal, resulting in uneven stacking of the sheet metal.
[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0005] A shearing machine cross-cutting and stacking device includes a moving trolley and a mounting bracket. The moving trolley is equipped with a displacement platform, and the displacement platform has a first lifting mechanism. The first lifting mechanism has a stacking platform, and the stacking platform is surrounded by anti-fall baffles. The mounting bracket has a linear displacement module, and the linear displacement module has a second lifting mechanism. The second lifting mechanism has multiple adjusting rods, which move vertically up and down via the second lifting mechanism. The side of the stacking platform without anti-fall baffles is the feeding side. This side can be detachably connected to a limiting baffle, allowing the moving trolley to retreat a certain distance after unloading before installation, thus preventing the material from falling during long-distance transportation. In operation, the mobile trolley can move within the working area, moving the displacement platform and stacking platform to the designated position to receive the sheet metal. The displacement platform provides the mounting base for the first lifting mechanism. The first lifting mechanism adjusts the height of the stacking platform through lifting actions to accommodate stacking different quantities of sheet metal. The stacking platform is used to support the sheet metal, and anti-fall baffles on all three sides prevent the sheet metal from falling during stacking. The linear displacement module moves the second lifting mechanism to a suitable position above the sheet metal. The second lifting mechanism drives the adjusting rod to rise and fall vertically, applying force to the sheet metal through the adjusting rod. Combined with the anti-fall baffles on the rear, the position of the sheet metal is adjusted to ensure it is neat. Using this structure, by setting up the second lifting mechanism and adjusting rod, the vertical position of the sheet metal on the stacking platform can be adjusted, ensuring that the sheet metal is neatly positioned after falling from the shearing machine conveyor belt, improving the quality and efficiency of stacking. The anti-fall baffles on all three sides of the stacking platform effectively prevent the sheet metal from falling during stacking, ensuring the safety of the stacking operation.
[0006] Furthermore, the mounting bracket is equipped with a trolley positioning mechanism, which includes push cylinders located on both sides of the mounting bracket. A first positioning plate is located at the inner end of each push cylinder, and second positioning plates are located on both sides of the trolley. In use, when the trolley moves to the designated position, the push cylinders are energized, causing the first positioning plate to move and engage with the second positioning plates on the trolley. This engagement positions the trolley and restricts its movement, achieving precise positioning. This structure ensures the trolley remains in a fixed position during stacking operations, preventing misalignment or skewing of the stacked sheets due to trolley movement, improving stacking stability and accuracy, and ensuring neat stacking of subsequent sheets.
[0007] Furthermore, the first lifting mechanism includes a lifting electric cylinder mounted on the displacement platform and a lifting guide rod mounted on the stacking platform. The stacking platform is located above the lifting electric cylinder, and the lifting guide rod is slidably connected to the displacement platform. In use, after the lifting electric cylinder is energized, it drives the stacking platform to rise or fall. During the lifting process, the lifting guide rod slides along the guide hole on the displacement platform, providing guidance for the lifting of the stacking platform and ensuring smooth lifting and lowering, avoiding swaying or deviation. This structure allows for precise adjustment of the stacking platform height according to the number of sheets stacked, adapting to different production needs; the guiding effect of the lifting guide rod ensures smooth lifting and lowering of the stacking platform.
[0008] Furthermore, the linear displacement module includes a linear screw mounted on the mounting bracket and a motor mounted on the mounting bracket to drive the linear screw to rotate. A linear guide rod is mounted on the mounting bracket, parallel to the axial direction of the linear screw. A movable seat is threadedly connected to the linear screw, and the movable seat is slidably connected to the linear guide rod. The second lifting mechanism is mounted on the movable seat. In use, the motor is energized to rotate the linear screw. Because the movable seat is threadedly connected to the linear screw, it moves along the axial direction of the linear screw as the linear screw rotates. Simultaneously, the movable seat slides on the linear guide rod, which guides the movement of the movable seat, ensuring smooth movement. This drives the second lifting mechanism mounted on the movable seat to a suitable position above the sheet metal, and subsequently, it drives the adjusting rod to move the sheet metal neatly.
[0009] Furthermore, the second lifting mechanism includes a screw jack mounted on the movable seat. The lower end of the screw of the screw jack is rotatably connected to a mounting plate via a bearing seat. A limit guide rod is provided on the mounting plate, and the limit guide rod is slidably connected to the movable seat. In use, the motor of the screw jack operates, thereby driving the mounting plate and adjusting rod to rise and fall vertically. During the lifting process, the limit guide rod slides along the limit hole on the movable seat, limiting the rise and fall of the mounting plate and adjusting rod to prevent tilting or deviation during lifting, ensuring that the adjusting rod can accurately adjust the position of the plate. The plane formed by multiple adjusting plates is parallel to the anti-fall baffle on the rear side of the stacking platform.
[0010] Beneficial effects: By setting up a second lifting mechanism and adjusting rod, this application can adjust the vertical position of the sheet metal on the stacking platform, ensuring that the sheet metal is neatly positioned after falling from the shearing machine conveyor belt, thus improving the quality and efficiency of stacking; the anti-fall baffles set on three sides of the stacking platform can effectively prevent the sheet metal from falling during the stacking process, ensuring the safety of stacking operations; the setting of the trolley positioning mechanism enables precise positioning of the moving trolley, further improving the stability of the stacking device; the design of the first lifting mechanism and linear displacement module can flexibly adjust the height and position of the stacking platform to adapt to different production needs. Attached Figure Description
[0011] Figure 1 This is a schematic diagram of the mobile vehicle in this embodiment;
[0012] Figure 2 This is a schematic diagram of the mounting bracket in this embodiment;
[0013] Figure 3 This is a schematic diagram of the overall cross-cutting and stacking device of the shearing machine in this embodiment.
[0014] Reference numerals: 1. Moving trolley; 2. Mounting bracket; 3. Displacement platform; 4. First lifting mechanism; 4. Lifting electric cylinder; 401. Lifting guide rod; 402. Stacking platform; 5. Anti-fall baffle; 6. Linear displacement module; 7. Linear screw; 701. Motor; 702. Linear guide rod; 703. Moving seat; 704. Second lifting mechanism; 8. Screw jack; 801. Mounting plate; 802. Limiting guide rod; 803. Adjusting rod; 9. Trolley positioning mechanism; 10. Pushing electric cylinder; 1001. First positioning plate; 1002. Second positioning plate; 11. Detailed Implementation
[0015] The technical solution of the shearing machine cross-cutting and stacking device involved in this utility model will be further described in detail below with reference to the embodiments.
[0016] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0017] like Figure 1 , Figure 2 , Figure 3As shown, the shearing machine cross-cutting and stacking device of this embodiment includes a mobile trolley 1 and a mounting bracket 2. The mobile trolley 1 is equipped with a displacement platform 3, a first lifting mechanism 4, and a stacking platform 5. Anti-fall baffles 6 are provided around the stacking platform 5. The mounting bracket 2 is equipped with a linear displacement module 7, a second lifting mechanism 8, and multiple adjusting rods 9. These adjusting rods 9 are vertically raised and lowered by the second lifting mechanism 8. The side of the stacking platform 5 without anti-fall baffles 6 is the feeding side. This side can be detachably connected to a limiting baffle, allowing the mobile trolley 1 to move a certain distance after unloading before installation, thus preventing the material from falling during long-distance transportation. The mounting bracket 2 is equipped with a trolley positioning mechanism 10. The trolley positioning mechanism 10 includes push cylinders 1001 disposed on both sides of the mounting bracket 2. A first positioning plate 1002 is disposed at the inner end of the push cylinder 1001, and a second positioning plate 11 is disposed on both sides of the moving trolley 1. The first lifting mechanism 4 includes a lifting cylinder 401 disposed on the displacement platform 3 and a lifting guide rod 402 disposed on the stacking platform 5. The stacking platform 5 is disposed above the lifting cylinder 401, and the lifting guide rod 402 is slidably connected to the displacement platform 3. The linear displacement module 7 includes a linear screw 701 mounted on the mounting bracket 2 and a motor 702 mounted on the mounting bracket 2 for driving the linear screw 701 to rotate. A linear guide rod 703 is mounted on the mounting bracket 2, and the linear guide rod 703 is axially parallel to the linear screw 701. A movable seat 704 is threadedly connected to the linear screw 701, and the movable seat 704 is slidably connected to the linear guide rod 703. The second lifting mechanism 8 is mounted on the movable seat 704. The second lifting mechanism 8 includes a screw jack 801 mounted on the movable seat 704. The lower end of the screw of the screw jack 801 is rotatably connected to a mounting plate 802 via a bearing seat. A limit guide rod 803 is mounted on the mounting plate 802, and the limit guide rod 803 is slidably connected to the movable seat 704. In use, the mobile trolley 1 can move within the working area, moving the displacement platform 3 and the stacking platform 5 to the designated position to receive the sheet metal. The displacement platform 3 provides the installation base for the first lifting mechanism 4. The first lifting mechanism 4 adjusts the height of the stacking platform 5 through lifting action to accommodate the stacking of different quantities of sheet metal. The stacking platform 5 is used to support the sheet metal. The anti-fall baffles 6 set on all three sides prevent the sheet metal from falling during the stacking process. The linear displacement module 7 drives the second lifting mechanism 8 to move to a suitable position above the sheet metal. The second lifting mechanism 8 drives the adjusting rod 9 to lift vertically. The adjusting rod 9 applies force to the sheet metal, and the anti-fall baffles 6 on the rear side adjust the position of the sheet metal to make the sheet metal neat.By adopting this structure and setting a second lifting mechanism 8 and an adjusting rod 9, the vertical position of the sheet material on the stacking platform 5 can be adjusted to ensure that the sheet material is neatly positioned after falling from the shearing machine conveyor belt, thus improving the quality and efficiency of stacking. The anti-fall baffles 6 set around the stacking platform 5 can effectively prevent the sheet material from falling during the stacking process, ensuring the safety of the stacking operation.
[0018] The control method of this utility model is automatic control through a controller. The control circuit of the controller can be implemented by simple programming by those skilled in the art. The power supply is also common knowledge or conventional technology in the field. Therefore, this utility model will not explain the control method and circuit connection in detail.
[0019] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A shearing machine cross-cutting and stacking device, characterized in that: The device includes a mobile trolley and a mounting bracket. The mobile trolley is equipped with a displacement platform, and the displacement platform is equipped with a first lifting mechanism. The first lifting mechanism is equipped with a stacking platform, and the stacking platform is equipped with anti-fall baffles on its three sides. The mounting bracket is equipped with a linear displacement module, and the linear displacement module is equipped with a second lifting mechanism. The second lifting mechanism is equipped with multiple adjusting rods, which are vertically raised and lowered by the second lifting mechanism.
2. The shearing machine cross-cutting and stacking device according to claim 1, characterized in that: The mounting bracket is equipped with a trolley positioning mechanism, which includes push cylinders located on both sides of the mounting bracket. The inner end of the push cylinder is provided with a first positioning plate, and the two sides of the moving trolley are provided with second positioning plates.
3. The shearing machine cross-cutting and stacking device according to claim 1, characterized in that: The first lifting mechanism includes a lifting electric cylinder disposed on the displacement platform and a lifting guide rod disposed on the stacking platform. The stacking platform is disposed above the lifting electric cylinder, and the lifting guide rod is slidably connected to the displacement platform.
4. The shearing machine cross-cutting and stacking device according to claim 1, characterized in that: The linear displacement module includes a linear screw mounted on the mounting bracket and a motor mounted on the mounting bracket to drive the linear screw to rotate. A linear guide rod is mounted on the mounting bracket, and the linear guide rod is axially parallel to the linear screw. A movable seat is threaded onto the linear screw, and the movable seat is slidably connected to the linear guide rod. The second lifting mechanism is mounted on the movable seat.
5. The shearing machine cross-cutting and stacking device according to claim 4, characterized in that: The second lifting mechanism includes a screw jack mounted on the movable seat. The lower end of the screw of the screw jack is rotatably connected to a mounting plate via a bearing seat. A limit guide rod is provided on the mounting plate, and the limit guide rod is slidably connected to the movable seat.