A steel sheet stacking device

By using limiting and positioning components during the steel plate conveying process, the steel plates are ensured to be neatly stacked on the receiving platform, which solves the problem of uneven steel plate stacking, reduces production costs and improves production efficiency.

CN224492902UActive Publication Date: 2026-07-14SHENGSHI CONTAINER MANAGEMENT SHANGHAI +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENGSHI CONTAINER MANAGEMENT SHANGHAI
Filing Date
2025-07-24
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The steel plates are positioned differently and are not aligned on the conveyor, resulting in uneven stacking on the receiving platform, which increases the time and cost of subsequent sorting.

Method used

The system employs a conveyor, a receiving platform, a limiting component, a fixing component, and a positioning component. The positioning component includes a positioning component and a driving component for abutting against the side wall of the steel plate, so that the steel plates are neatly stacked on the receiving platform. The position of the steel plates is restricted by the guiding component and the clamping box to ensure flatness.

Benefits of technology

This allows steel plates to be neatly stacked on the support platform, reducing subsequent processing work and production costs, and improving production line efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to a steel plate stacking device, which comprises a conveyor for conveying steel plates, a material receiving table for receiving the steel plates, a limiting assembly arranged at the end of the material receiving table far from the conveyor, a fixing member arranged at one side of the material receiving table, and a positioning assembly arranged at the other side of the material receiving table, wherein the positioning assembly comprises a positioning member for abutting against the side wall of the steel plate and a first driving member for driving the positioning member to move horizontally towards the material receiving table. The application has the effect of enabling the steel plates to be stacked neatly on the material receiving table, thereby reducing the production cost generated by subsequent arrangement of the steel plates.
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Description

Technical Field

[0001] This application relates to the field of steel plate placement technology, and in particular to a steel plate stacking device. Background Technology

[0002] After the steel plates are cut, they need to be transported to the stacking platform by a conveyor. The orderly stacking of steel plates is conducive to the smooth progress of subsequent processing and improves the working efficiency of the entire production line.

[0003] However, because the steel plates are in different positions on the conveyor and are not exactly the same, multiple steel plates will be stacked unevenly when they are conveyed to the receiving platform. The subsequent operation of sorting out these uneven steel plates requires a lot of time and effort, which increases production costs. Utility Model Content

[0004] In order to enable steel plates to be stacked neatly on the support platform and reduce the production cost of subsequent steel plate processing, this application provides a steel plate stacking device.

[0005] The steel plate stacking device provided in this application adopts the following technical solution:

[0006] A steel plate stacking device includes a conveyor for conveying steel plates, a receiving platform for receiving steel plates, a limiting component disposed at one end of the receiving platform away from the conveyor, a fixing component located on one side of the receiving platform, and a positioning component located on the other side of the receiving platform. The positioning component includes a positioning element for abutting against the side wall of the steel plate and a first driving element for driving the positioning element to move horizontally toward the receiving platform.

[0007] By adopting the above technical solution, the steel plate is transported to the receiving platform by the conveyor. The limiting component can restrict the position of the steel plate in the width direction of the receiving platform. The positioning component abuts against the side wall of the steel plate under the action of the first driving component, pushing the steel plate to fit with the fixing component, so that the steel plate is neatly stacked on the receiving platform, avoiding uneven stacking, reducing the time and effort of subsequent operators to sort the steel plate, and reducing production costs.

[0008] Optionally, the limiting assembly includes a fixed base, a limiting plate located between the fixed base and the material receiving platform for the steel plate to abut against, and a buffer connecting the fixed base and the limiting plate.

[0009] By adopting the above technical solution, the specific structure of the limiting component is disclosed. The limiting component includes a fixed base, a buffer component and a limiting plate. The buffer component can play a buffering role when the steel plate abuts against the limiting plate, so as to avoid damage to the steel plate and help ensure the quality and service life of the steel plate.

[0010] Optionally, the fixing seat is provided with a fastening chain and the end of the fastening chain has a locking hook, and the limiting plate has a locking ring for fixing the locking hook.

[0011] By adopting the above technical solution, the locking hook at the end of the fastening chain cooperates with the locking ring of the limiting plate, making the position of the limiting plate more stable and preventing the limiting plate from shifting or shaking when hit by the steel plate. This ensures that the steel plates can be neatly stacked on the receiving platform, reducing the workload and cost of subsequent steel plate handling.

[0012] Optionally, the positioning element includes a fixed frame fixedly connected to the output end of the first driving element and a positioning frame detachably installed on the fixed frame for pushing the steel plate.

[0013] By adopting the above technical solution, the positioning frame can be detachably installed on the fixed frame of the positioning component, making the positioning frame easy to replace, easy to replace with positioning frames of different specifications, and easy to adjust the position installed on the fixed frame to adapt to steel plates of different specifications, thereby improving the adaptability and versatility of the device to different steel plates.

[0014] Optionally, the top of the fixing frame is folded towards the first driving member to form a flange, and the positioning frame has an arrangement groove that cooperates with the flange.

[0015] By adopting the above technical solution, the connection method of the fixed frame and the positioning frame is disclosed. The fixed frame has a flange at the top, and the positioning frame has a groove that cooperates with the flange, so that the positioning frame can be installed on the fixed frame more conveniently and stably, ensuring the stability of the structure when the positioning frame pushes the steel plate, and helping to improve the flatness of the steel plate stacking.

[0016] Optionally, the positioning component and the fixing component correspond to each other, and there are two of each positioning component and the fixing component. The positioning frames of the two positioning components correspond to the two ends of the steel plate in the length direction.

[0017] By adopting the above technical solution, the positioning component can position the steel plate from both ends along its length, further improving the flatness of the steel plate stacked on the support platform, thereby reducing the workload of subsequent steel plate sorting and lowering production costs.

[0018] Optionally, the steel plate stacking device further includes a guide assembly located below the output end of the conveyor. The guide assembly includes a guide plate, a mounting base, and a drive cylinder mounted on the mounting base for driving the guide plate to move horizontally. The guide plate has a guide portion that is inclined downward toward the receiving platform.

[0019] By adopting the above technical solution, a guide assembly is set below the output end of the conveyor. The guide plate of the guide assembly has a guide part that is inclined downward toward the receiving platform. The guide part can make the steel plate reach the receiving platform more smoothly, which helps to reduce the phenomenon of uneven stacking of steel plates.

[0020] Optionally, a clamping box for abutting against the side wall of the steel plate is connected to the side of the guide plate away from the drive cylinder.

[0021] By adopting the above technical solution, the setting of the clamping box can restrict the position of the steel plate in the length direction of the receiving platform, further ensure the flatness of the steel plate stacking, reduce subsequent processing costs, and improve the working efficiency of the production line.

[0022] Optionally, the guide plate has guide posts parallel to the drive cylinder on the left and right sides of the piston rod of the drive cylinder, and the mounting base has guide through holes for the guide posts to pass through.

[0023] By adopting the above technical solution, when the guide plate is driven by the driving cylinder to move horizontally, the cooperation between the guide post and the guide through hole makes the movement of the guide plate more stable, improves the stability and reliability of the pressing process, and helps to ensure the flat stacking of steel plates.

[0024] Optionally, a sensor for detecting steel plates is rotatably mounted on the conveyor. When the sensor detects that a steel plate has passed by, the drive cylinder drives the guide plate and the pressing box to move horizontally toward the receiving platform.

[0025] By adopting the above technical solution, the steel plate is detected by the sensor. When the steel plate passes by, the drive cylinder drives the guide plate and the pressing box to move horizontally towards the receiving platform in time. This can guide and press the steel plate more accurately, which helps to improve the flatness of the steel plate stack and the degree of automation.

[0026] In summary, this application includes at least one of the following beneficial technical effects:

[0027] 1. A steel plate stacking device, comprising a conveyor, a receiving platform, a limiting component, a fixing component, and a positioning component, wherein the positioning component includes a positioning component for abutting against the side wall of the steel plate and a first driving component for driving the positioning component to move horizontally toward the receiving platform, so that the steel plates are neatly stacked on the receiving platform, thereby reducing the production cost incurred in subsequent steel plate sorting;

[0028] 2. By setting a guide portion that slopes downward toward the receiving platform on the guide plate of the guide assembly, the steel plate can reach the receiving platform more smoothly, which helps to reduce the phenomenon of uneven stacking of steel plates.

[0029] 3. By setting a clamping box on the side of the guide plate away from the drive cylinder to abut against the side wall of the steel plate, the position of the steel plate in the length direction of the receiving platform can be restricted, which helps to further ensure the flatness of the steel plate stacking; Attached Figure Description

[0030] Figure 1 This is a schematic diagram of the steel plate stacking device in an embodiment of this application.

[0031] Figure 2 This is a side view of the positioning element in an embodiment of this application.

[0032] Figure 3 This is a schematic diagram of the guide component in an embodiment of this application.

[0033] Figure 4 This is a schematic diagram of the limiting component in an embodiment of this application.

[0034] Explanation of reference numerals in the attached drawings: 1. Conveyor; 2. Material receiving platform; 3. Fixing component; 4. Positioning assembly; 41. Positioning component; 411. Fixing frame; 4111. Flanged edge; 412. Positioning frame; 4121. Arrangement groove; 42. First driving component; 5. Guide assembly; 51. Guide plate; 511. Guide section; 512. Guide column; 52. Mounting base; 521. Guide through hole; 53. Drive cylinder; 54. Pressing box; 6. Limiting assembly; 61. Fixing base; 611. Fastening chain; 612. Locking hook; 62. Limiting plate; 621. Locking ring; 63. Buffer component; 7. Sensor. Detailed Implementation

[0035] The following is in conjunction with the appendix Figure 1-4 This application will be described in further detail.

[0036] This application discloses a steel plate stacking device. (Refer to...) Figure 1 The steel plate stacking device includes a conveyor 1 for conveying steel plates, a receiving platform 2 for receiving steel plates, a fixing member 3 located on one side of the receiving platform 2, a positioning component 4 located on the other side of the receiving platform 2, a guide component 5 located below the output end of the conveyor 1, and a limiting component 6. The limiting component 6 is located on the side of the receiving platform 2 away from the conveyor 1 in the length direction. In this embodiment, the conveyor 1 is a prior art roller conveyor 1, and a sensor 7 for detecting steel plates is rotatably installed between adjacent rollers of the roller conveyor 1.

[0037] Reference Figure 1 and Figure 2The positioning component 4 and the fixing component 3 correspond to each other, and there are two of each of the positioning component 4 and the fixing component 3. The positioning component 4 includes a positioning component 41 for abutting against the side wall of the steel plate and a first driving component 42 for driving the positioning component 41 to move horizontally toward the material receiving platform 2. The positioning component 41 includes a fixing frame 411 and a positioning frame 412 that can be detachably installed on the fixing frame 411. In this embodiment, the first driving component 42 is a cylinder, and the piston rod of the cylinder is fixedly connected to the fixing frame 411.

[0038] Reference Figure 2 The top of the fixed frame 411 is folded towards the first driving member 42 to form a flange 4111. The positioning frame 412 has an arrangement groove 4121 that cooperates with the flange 4111. The positioning frame 412 can be installed at different positions in the width direction of the fixed frame 411. According to the steel plate of different length specifications, the position of the positioning frame 412 in the fixed frame 411 can be adjusted so that the positioning frame 412 corresponds to the end of the steel plate in the length direction, thereby helping the positioning frame 412 to push the steel plate smoothly.

[0039] Reference Figure 1 and Figure 3 The guide assembly 5 includes a guide plate 51, a mounting base 52, and a drive cylinder 53 mounted on the mounting base 52. The guide plate 51 has a guide portion 511 that slopes downward toward the material receiving platform 2. A clamping box 54 is connected to the side of the guide plate 51 away from the drive cylinder 53. When the sensor 7 detects the passage of the steel plate, the drive cylinder 53 can drive the guide plate 51 and the clamping box 54 to move horizontally toward the material receiving platform 2. The guide plate 51 has guide posts 512 parallel to the piston rod of the drive cylinder 53 on the left and right sides. The mounting base 52 has guide through holes 521 for the guide posts 512 to pass through, so that the drive cylinder 53 can drive the guide plate 51 to move horizontally, thereby causing the clamping box 54 to abut against the side wall of the steel plate more smoothly.

[0040] Reference Figure 1 and Figure 4 The limiting component 6 includes a fixed base 61, a limiting plate 62 located between the fixed base 61 and the material receiving platform 2, and a buffer 63 connected between the fixed base 61 and the limiting plate 62. The fixed base 61 is provided with fastening chains 611 on both sides, and the ends of the fastening chains 611 have locking hooks 612. The limiting plate 62 has a locking ring 621 for fixing the locking hooks 612. By fixing the locking hooks 612 to the locking rings 621, the position of the limiting plate 62 can be made more stable. The buffer 63 is made of an elastic material such as rubber. In this embodiment, it is in the shape of a ring. The setting of the buffer 63 allows the limiting plate 62 to be displaced and then reset when it is impacted by the steel plate, thereby helping to ensure the flatness of the steel plate stack.

[0041] The implementation principle of the steel plate stacking device in this application embodiment is as follows: When the steel plate leaves the conveyor 1, the driving cylinder 53 of the guide component 5 pushes the guide plate 51 and the clamping box 54 toward the receiving platform 2, so that the steel plate reaches the receiving platform 2 more smoothly and restricts the position of the steel plate in the length direction of the receiving platform 2. Then, the positioning member 41 of the positioning component 4 abuts against the side wall of the steel plate under the action of the first driving member 42, pushing the steel plate to fit with the fixing member 3, restricting the position of the steel plate in the width direction of the receiving platform 2, thereby enabling the steel plates to be stacked neatly on the receiving platform 2, reducing the production cost generated by subsequent steel plate sorting.

[0042] The above are all preferred embodiments of this application and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A steel plate stacking device, characterized in that, It includes a conveyor (1) for conveying steel plates, a receiving platform (2) for receiving steel plates, a limiting component (6) disposed at one end of the receiving platform (2) away from the conveyor (1), a fixing component (3) located on one side of the receiving platform (2), and a positioning component (4) located on the other side of the receiving platform (2). The positioning component (4) includes a positioning component (41) for abutting against the side wall of the steel plate and a first driving component (42) for driving the positioning component (41) to move horizontally toward the receiving platform (2).

2. The steel plate stacking device according to claim 1, characterized in that, The limiting component (6) includes a fixed seat (61), a limiting plate (62) located between the fixed seat (61) and the material receiving platform (2) for the steel plate to abut against, and a buffer (63) connecting the fixed seat (61) and the limiting plate (62).

3. A steel plate stacking device according to claim 2, characterized in that, The fixing base (61) is provided with a fastening chain (611) and the end of the fastening chain (611) has a locking hook (612). The limiting plate (62) has a locking ring (621) for fixing the locking hook (612).

4. A steel plate stacking device according to claim 1, characterized in that, The positioning component (41) includes a fixed frame (411) fixedly connected to the output end of the first driving component (42) and a positioning frame (412) detachably installed on the fixed frame (411) and used to push the steel plate.

5. A steel plate stacking device according to claim 4, wherein the top of the fixing frame (411) is folded toward the first driving member (42) to form a flange (4111), and the positioning frame (412) has an arrangement groove (4121) that cooperates with the flange (4111).

6. A steel plate stacking device according to claim 4, wherein the positioning component (4) and the fixing component (3) are corresponding and the number of the positioning component (4) and the fixing component (3) are two, and the positioning frames (412) of the two positioning components (4) are respectively corresponding to the two ends of the steel plate in the length direction.

7. A steel plate stacking device according to claim 1, characterized in that, It also includes a guide assembly (5) located below the output end of the conveyor (1). The guide assembly (5) includes a guide plate (51), a mounting base (52), and a drive cylinder (53) mounted on the mounting base (52) for driving the guide plate (51) to move horizontally. The guide plate (51) has a guide portion (511) that is inclined downward toward the receiving platform (2).

8. A steel plate stacking device according to claim 7, characterized in that, The guide plate (51) is connected to a clamping box (54) for abutting against the side wall of the steel plate on the side away from the drive cylinder (53).

9. A steel plate stacking device according to claim 7, characterized in that, The guide plate (51) has guide posts (512) parallel to the driving cylinder (53) on the left and right sides of the piston rod of the driving cylinder (53), and the mounting base (52) has guide through holes (521) for the guide posts (512) to pass through.

10. A steel plate stacking device according to claim 8, characterized in that, A sensor (7) for detecting steel plates is rotatably mounted on the conveyor (1). When the sensor (7) detects that the steel plate has passed, the drive cylinder (53) drives the guide plate (51) and the pressing box (54) to move horizontally toward the receiving platform (2).