A corrugated board collecting device
The corrugated plate receiving device driven by closed-loop guide rails and conveyor belts solves the problem of corrugated plate deformation during transmission, achieving efficient and accurate plate conveying and counting, thus improving production efficiency and product quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 四川攀钢嘉德精工科技有限公司
- Filing Date
- 2025-07-22
- Publication Date
- 2026-07-07
Smart Images

Figure CN224466909U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of material handling technology, and more specifically, to a corrugated plate receiving device. Background Technology
[0002] Corrugated steel sheet is a new type of decorative material, featuring a smooth, three-dimensional shape and a variety of vibrant colors. It is poised to become a mainstream decorative material leading fashion trends and creating beautiful living spaces, representing a next-generation product in the decorative materials industry. Our products, including plain sheets, pure white sheets, colored sheets, and gold / silver foil sheets, boast beautiful shapes, exquisite craftsmanship, elegant appearance, uniform structure, dimensional stability, and a strong three-dimensional effect. We also offer custom-made corrugated steel sheets with different patterns, colors, and shapes according to customer requirements. Furthermore, we process various thicknesses and specifications of stainless steel and titanium alloy grooves (corner trims) and semi-circular edges (commonly known as "edging"), suitable for indoor and outdoor light boxes, advertising signs, edge sealing, door clamps, etc.
[0003] After the corrugated sheets are manufactured, they need to be cut. The cut sheets then need to be conveyed from the cutting equipment to the receiving platform. In the existing receiving platform, during the process of receiving the sheets from the cutting equipment, the sheets slide from the cutting equipment to the receiving platform, which can easily cause deformation of the corrugated sheet surface, resulting in scrap sheets and affecting the production efficiency of the sheets. Utility Model Content
[0004] The purpose of this utility model is to provide a corrugated board receiving device that addresses the shortcomings of existing technologies and solves the problems mentioned in the background.
[0005] The technical solution of this utility model is implemented as follows:
[0006] The utility model provides a corrugated board receiving device, including a frame and several material carriers. A material transfer channel is provided in the middle of the frame, and two sets of annular guide rail structures are installed in the material transfer channel. Several material carriers are installed between the two sets of guide rail structures along the circumferential direction of the guide rail structures. The frame is provided with a drive mechanism that drives the several material carriers to reciprocate between the two sets of guide rail structures. A blocking structure is installed on one side of the frame along its extension direction, and the extension direction of the blocking structure is perpendicular to the length direction of the material carrier.
[0007] In some technical solutions of this utility model, the guide rail structure includes two vertical guide rails and two semi-circular arc guide rails arranged in pairs. The two vertical guide rails are installed in the material transfer channel and are fixedly connected to the frame. The two semi-circular arc guide rails are respectively installed on both sides of the two vertical guide rails. A first slide rail is provided on the side wall of the vertical guide rail, and a second slide rail is provided on the outer side wall of the arc guide rail. The second slide rail and the first slide rail are connected to form a walking channel.
[0008] In some technical solutions of this utility model, mounting brackets are installed at both ends of the material carrier plate, and pulleys are installed on the mounting brackets, with the pulleys partially embedded in the travel channel.
[0009] In some technical solutions of this utility model, the driving mechanism includes a number of transmission wheels and a transmission belt installed in the material transfer channel. The transmission belt is sleeved and connected to the number of transmission wheels. The number of material carrier plates are all connected to the transmission belt. A drive motor connected to the transmission wheels is installed on the frame.
[0010] In some technical solutions of this utility model, the horizontal height of the material carrier plate is higher than the horizontal height of the frame.
[0011] In some technical solutions of this utility model, a support structure for supporting the corrugated plate is installed on the other side of the frame.
[0012] In some technical solutions of this utility model, the bearing structure includes a bearing frame installed on the side wall of the frame. The bearing frame and the blocking structure are parallel to each other. A guide groove is opened on the side wall of the bearing frame in the vertical direction. A sliding seat is slidably provided in the guide groove. A receiving frame is slidably provided on the sliding seat in the width direction of the frame. An electric push rod connected to the receiving frame is installed on the sliding seat.
[0013] In some technical solutions of this utility model, a press counter is installed on the side wall of the receiving rack.
[0014] Compared to existing technologies, this utility model has at least the following advantages or beneficial effects: Several material carrier plates are installed between two sets of guide rail structures along the circumferential direction of the guide rail structure. Each end of the material carrier plate is equipped with a mounting bracket, and pulleys are mounted on the mounting brackets. Partially, the pulleys are embedded within the travel channel. The material carrier plates are embedded in the travel channel via the pulleys, achieving reciprocating motion along the guide rail structure. The semi-circular guide rail connects to the vertical guide rail to form a closed loop, allowing the material carrier plates to be reused cyclically, avoiding the space waste associated with traditional unidirectional material collection. The closed-loop guide rail system supports continuous cyclic movement of the material carrier plates, improving material guiding efficiency. Attached Figure Description
[0015] Figure 1 This is a front view structural diagram of the corrugated plate supporting this utility model.
[0016] Figure 2This is a three-dimensional structural diagram of the frame in this utility model.
[0017] Figure 3 This is a cross-sectional view of the frame in this utility model.
[0018] Figure 4 This is a schematic diagram of the installation structure of the material carrier plate and the vertical guide rail in this utility model.
[0019] Figure 5 This is a schematic diagram of the installation structure of the receiving rack and the support frame in this utility model.
[0020] Reference numerals in the attached drawings: 1. Frame; 2. Corrugated plate; 3. Restriction structure; 4. Support frame; 5. Receiving frame; 6. Sliding seat; 7. Drive wheel; 8. Conveyor belt; 9. Vertical guide rail; 10. Mounting frame; 11. Carrying plate; 12. Pulley; 13. Press counter; 14. Electric push rod; 15. Adjusting spring; 16. Guide rod. Detailed Implementation
[0021] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.
[0022] Therefore, the following detailed description of the embodiments of the invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of this invention without inventive effort are within the scope of protection of this invention.
[0023] Example
[0024] This utility model provides a corrugated board receiving device, such as... Figures 1-5As shown, the system includes a frame 1 and several material carrier plates 11. A material transfer channel is provided in the middle of the frame 1. Two sets of annular guide rail structures are installed in the material transfer channel. Each annular guide rail structure consists of two sets of annular guide rails. Each annular guide rail includes two vertical guide rails 9 and two semi-circular guide rails arranged in pairs. The two vertical guide rails 9 are installed in the material transfer channel and are fixedly connected to the frame 1. The two semi-circular guide rails are respectively installed on both sides of the two vertical guide rails 9. The circles containing the vertical guide rails 9 and the semi-circular guide rails are tangent. A first slide rail is provided on the side wall of the vertical guide rail 9, and a second slide rail is provided on the outer side wall of the semi-circular guide rail. The second slide rail connects with the first slide rail to form a travel channel. Several material carrier plates 11 are installed between the two sets of guide rail structures along the circumferential direction of the guide rail structure. Mounting brackets 10 are installed at both ends of the material carrier plates 11. Pulleys 12 are installed on the mounting brackets 10, and the pulleys 12 are partially embedded in the travel channel. The material carrier plate 11 is embedded in the travel channel via pulleys 12, enabling reciprocating motion along the guide rail structure. The semi-circular guide rail connects to the vertical guide rail 9 to form a closed loop, allowing the material carrier plate 11 to be used cyclically, avoiding the space waste of traditional unidirectional material collection. The closed-loop guide rail system supports continuous cyclic movement of the material carrier plate 11, improving material guiding efficiency.
[0025] The frame 1 is equipped with a drive mechanism that drives several material carrier plates 11 to reciprocate between two sets of guide rail structures. A stop structure 3 is installed on one side of the frame 1 along its extension direction, the extension direction of which is perpendicular to the length direction of the material carrier plates 11. The stop structure 3 limits the horizontal displacement of the material on one side of the frame 1. This allows the material to fall smoothly onto the platform formed by the several material carrier plates 11 along the circumferential direction of the guide rail structures, facilitating subsequent transportation.
[0026] In some technical solutions of this utility model, the driving mechanism includes a plurality of transmission wheels 7 and a transmission belt 8 installed in the material transfer channel. The transmission belt 8 is sleeved and connected to the plurality of transmission wheels 7, and a plurality of material carrier plates 11 are all connected to the transmission belt 8. A drive motor connected to the transmission wheels 7 is installed on the frame 1. The transmission wheels 7 and the transmission belt 8 drive the material carrier plates 11, and the combination with the drive motor ensures the synchronicity and stability of power transmission; moreover, the transmission belt 8 is directly connected to the material carrier plates 11, simplifying the transmission path, reducing mechanical complexity, and improving maintenance convenience. During the unloading process, the transmission belt 8 does not drive the material carrier plates 11 to perform circumferential reciprocating motion.
[0027] In some technical solutions of this utility model, the horizontal height of the material carrier plate 11 is higher than the horizontal height of the frame 1. Designing the horizontal height of the material carrier plate 11 to be higher than the height of the frame 1 avoids the problem of low transmission efficiency of the corrugated plate 2 caused by an excessively large contact area between the corrugated plate 2 and the frame 1, and prevents the risk of material jamming.
[0028] In some technical solutions of this utility model, a support structure for supporting the corrugated plate 2 is installed on the other side of the frame 1.
[0029] In some technical solutions of this utility model, the supporting structure includes a supporting frame 4 installed on the side wall of the frame 1. The supporting frame 4 is parallel to the blocking structure 3. A guide groove is formed on the side wall of the supporting frame 4 in the vertical direction. A sliding seat 6 is slidably provided in the guide groove. A receiving frame 5 is slidably provided on the sliding seat 6 in the width direction of the frame 1. An electric push rod 14 connected to the receiving frame 5 is installed on the sliding seat 6. An adjusting spring 15 connected to the sliding seat 6 is installed in the guide groove. A guide rod 16 passes through the adjusting spring 15 and is installed in the guide groove. The guide rod 16 extends outward after passing through the sliding seat 6. The adjusting spring 15 and the guide rod 16 work together to play a buffering role. After the receiving frame 5 carries a material plate, the lateral position of the receiving frame 5 is controlled by the electric push rod 14. The receiving frame 5 gradually disengages from the material plate to prevent the material plate from deforming due to excessive impact force when it directly contacts the material plate 11, and to improve the stacking accuracy of the material plates.
[0030] In some technical solutions of this utility model, a pressing counter 13 is installed on the side wall of the receiving rack 5. The receiving rack 5 is equipped with the pressing counter 13, which is located on the inclined surface of the receiving rack 5. When material falls into the bearing area of the frame 1, the end of the corrugated plate 2 will press against the pressing counter 13, thereby counting the material and calculating the quantity of material received in real time. After the pressing counter 13 counts a certain number of corrugated plates 2, the drive mechanism drives the carrier plate 11 to transport the stacked corrugated plates 2 out of the unloading area. The surrounding carrier plate 11 continues to carry the next batch of corrugated plates 2. The pressing counter 13 is a pressure sensor, which is electrically connected to an external PLC controller. Both the pressure sensor and the PLC controller are conventional technologies.
[0031] The above are merely preferred embodiments of this utility model and are not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, or improvements made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A corrugated sheet receiving device, characterized in that, The machine includes a frame (1) and several material plates (11). A material transfer channel is provided in the middle of the frame (1). Two sets of annular guide rail structures are installed in the material transfer channel. Several material plates (11) are installed between the two sets of guide rail structures along the circumferential direction of the guide rail structures. The frame (1) is provided with a drive mechanism that drives several material plates (11) to reciprocate between the two sets of guide rail structures. A blocking structure (3) is installed on one side of the frame (1) along its extension direction. The extension direction of the blocking structure (3) is perpendicular to the length direction of the material plate (11).
2. The corrugated plate (2) receiving device according to claim 1, characterized in that, The guide rail structure includes two vertical guide rails (9) arranged in pairs and two semi-circular arc guide rails. The two vertical guide rails (9) are installed in the material transfer channel and the vertical guide rails (9) are fixedly connected to the frame (1). The two semi-circular arc guide rails are respectively installed on both sides of the two vertical guide rails (9). A first slide rail is provided on the side wall of the vertical guide rail (9) and a second slide rail is provided on the outer side wall of the arc guide rail. The second slide rail and the first slide rail are connected to form a walking channel.
3. The corrugated plate (2) receiving device according to claim 2, characterized in that, Both ends of the material carrier plate (11) are equipped with mounting brackets (10), and pulleys (12) are installed on the mounting brackets (10). Part of the pulleys (12) are embedded in the walking channel.
4. The corrugated plate (2) receiving device according to claim 1, characterized in that, The driving mechanism includes a plurality of drive wheels (7) installed in the material transfer channel and a conveyor belt (8). The conveyor belt (8) is sleeved and connected to the plurality of drive wheels (7). The plurality of material carrier plates (11) are all connected to the conveyor belt (8). A drive motor connected to the drive wheels (7) is installed on the frame (1).
5. The corrugated plate (2) receiving device according to claim 1, characterized in that, The horizontal height of the material carrier plate (11) is higher than the horizontal height of the frame (1).
6. A corrugated plate (2) receiving device according to claim 1, characterized in that, A support structure for supporting the corrugated plate (2) is installed on the other side of the frame (1).
7. A corrugated plate (2) receiving device according to claim 6, characterized in that, The bearing structure includes a bearing frame (4) installed on the side wall of the frame (1). The bearing frame (4) is parallel to the blocking structure (3). A guide groove is provided on the side wall of the bearing frame (4) in the vertical direction. A sliding seat (6) is slidably provided in the guide groove. A receiving frame (5) is slidably provided on the sliding seat (6) in the width direction of the frame (1). An electric push rod (14) connected to the receiving frame (5) is installed on the sliding seat (6).
8. A corrugated plate (2) receiving device according to claim 7, characterized in that, A press counter (13) is installed on the side wall of the receiving rack (5).