A great wall plate connecting piece and a great wall plate assembling structure
By designing the Great Wall panel connectors and utilizing components such as the first mounting plate, the abutment plate, and the locking plate, the problem of insufficient support force of the Great Wall panel unit was solved, a stable Great Wall panel assembly structure was achieved, and the stability and deformation resistance of the connection were enhanced.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO HELONG NEW MATERIAL
- Filing Date
- 2025-07-01
- Publication Date
- 2026-06-23
AI Technical Summary
During long-term use, the upper part of the lower Great Wall panel unit will deform, resulting in insufficient support of the upper Great Wall panel unit.
The Great Wall board connector includes a first mounting plate, a first mounting part, a first abutting plate, a first locking plate, and a first locking pin. By locking the upper end of the lower Great Wall board unit to the first locking plate and connecting it to the surface of the lightweight keel, the first abutting plate provides stable support, and the connection stability is enhanced by the elastic support structure and the reinforcing rib structure.
It improves the insufficient support of the upper Great Wall panel unit, enhances the overall stability and reliability of the Great Wall panel assembly structure, and strengthens the stability and deformation resistance of the connection.
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Figure CN224395976U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the technical field of building decoration, and in particular to a connector for Great Wall panels and a Great Wall panel assembly structure. Background Technology
[0002] Great Wall panels are a modern building decoration material, named for their unique embossed surface that resembles the crenellations of the Great Wall. This design not only provides a strong three-dimensional effect and beautiful lines, but also effectively conceals the seams between the panels, resulting in a more cohesive and unified overall look.
[0003] Reference Figure 1 A Great Wall panel unit 1 is disclosed. The upper end of the Great Wall panel unit 1 has a first protrusion 11 and a second protrusion 12 arranged parallel to each other along the length direction. The lower end of the Great Wall panel unit 1 has a third protrusion 13 arranged along the length direction. An arrangement groove 14 is formed between the first protrusion 11 and the second protrusion 12 for supporting the third protrusion 13. In related technologies, installation on a lightweight keel surface is typically achieved by setting keel nails at the upper end of the Great Wall panel unit 1. The third protrusion 13 of the upper Great Wall panel unit 1 is inserted into the arrangement groove 14 of the lower Great Wall panel unit 1, thereby realizing the vertical splicing of the Great Wall panel units 1.
[0004] Regarding the aforementioned technologies, the inventors believe that during long-term use, the upper end of the lower Great Wall panel unit will deform, which may easily lead to insufficient support for the upper Great Wall panel unit. Utility Model Content
[0005] To address the insufficient support for the upper Great Wall panel units, this application provides a Great Wall panel connector and a Great Wall panel assembly structure.
[0006] The technical solution provided in this application for a Great Wall panel connector and Great Wall panel assembly structure is as follows:
[0007] In the first aspect, this application provides a Great Wall panel connector, which adopts the following technical solution:
[0008] A Great Wall board connector includes a first mounting plate for connecting a lightweight keel and a first mounting part connected to the first mounting plate and for connecting a lower Great Wall board unit; the first mounting part includes a first abutment plate for supporting an upper Great Wall board unit, a first locking plate for connecting a lower Great Wall board unit, and a first locking plate nail for locking the first locking plate and the lower Great Wall board unit to the lightweight keel.
[0009] By adopting the above technical solution, when assembling the Great Wall panels using the Great Wall panel connectors, the operator uses the first locking plate nail to lock the upper end of the lower Great Wall panel unit to the first locking plate, and connects the first mounting plate to the surface of the lightweight keel, thereby realizing the installation of the lower Great Wall panel unit; when the upper Great Wall panel unit is installed on top of the lower Great Wall panel unit, the lower end of the upper Great Wall panel unit abuts against the top of the first abutment plate, so that the first abutment plate can provide stable support for the upper Great Wall panel unit, which helps to improve the insufficient support force for the upper Great Wall panel unit.
[0010] Optionally, both sides of the first mounting portion are provided with a first support structure that is elastically supported on the lightweight keel and the lower Great Wall plate unit; a first slot is provided between the first support structure and the first locking plate for the insertion of the first protrusion of the lower Great Wall plate unit.
[0011] By adopting the above technical solution, the first support structure can flexibly support the lightweight keel and the lower Great Wall panel unit, which helps to enhance the stability of the connection between the Great Wall panel connector and the lower Great Wall panel unit; the first slot allows the first protrusion of the lower Great Wall panel unit to be inserted, which facilitates the installation and positioning of the lower Great Wall panel unit.
[0012] Optionally, the first support structure includes a first side plate connected to the end of the first abutment plate and extending downward, a second side plate connected to the first side plate and extending toward the first mounting plate, and a third side plate connected to the end of the second side plate and extending upward.
[0013] By adopting the above technical solution, the specific structure of the first support structure is disclosed. The first support structure is composed of a first side plate, a second side plate and a third side plate, which can enhance the elastic abutment effect on the lower Great Wall plate unit and make the connection between the lower Great Wall plate unit and the first locking plate more stable.
[0014] Optionally, the first locking plate is symmetrically arranged with the first locking plate nails on the left and right sides.
[0015] By adopting the above technical solution, the first locking plate nails are symmetrically arranged on the left and right sides of the first locking plate, making the locking of the lower Great Wall plate unit more stable.
[0016] Optionally, the first locking plate has four first locking pins, which are arranged in pairs and symmetrically on the left and right.
[0017] By adopting the above technical solution, the four first locking plate nails arranged in pairs and symmetrically on the left and right can further improve the locking stability of the first locking plate on the lower Great Wall plate unit.
[0018] Optionally, the first abutment plate has at least two reinforcing ridges spaced apart along its length.
[0019] By adopting the above technical solution, at least two reinforcing convex ribs are arranged at intervals along the length direction on the first abutment plate, which helps to improve the first abutment plate's resistance to front and rear bending, thereby improving the support stability of the first abutment plate for the upper Great Wall plate unit.
[0020] Secondly, this application provides a Great Wall panel assembly structure, which adopts the following technical solution:
[0021] A Great Wall plank assembly structure includes an upper Great Wall plank unit, a lower Great Wall plank unit, and the aforementioned Great Wall plank connector. The lower Great Wall plank unit has a first protrusion and a second protrusion at its top. An arrangement groove is formed between the first protrusion and the second protrusion in the lower Great Wall plank unit. A first locking plate is inserted into the arrangement groove and abuts against the front side of the first protrusion. The bottom end of the upper Great Wall plank unit has a third protrusion inserted into the arrangement groove. The bottom end of the upper Great Wall plank unit also has an abutting surface that abuts against the first abutting plate of the Great Wall plank connector.
[0022] By adopting the above technical solution, the first locking plate cooperates with the first protrusion of the lower Great Wall plate unit, the third protrusion of the upper Great Wall plate unit is inserted into the arrangement groove of the lower Great Wall plate unit and fits against the front side of the first locking plate of the Great Wall plate connector, and the abutting surface of the upper Great Wall plate unit abuts against the abutting surface of the first abutting plate, thus realizing the stable assembly of the upper and lower Great Wall plate units and helping to improve the insufficient support force of the upper Great Wall plate unit.
[0023] Optionally, the outer side of the third protrusion abuts against the side of the second protrusion.
[0024] By adopting the above technical solution, the outer side of the third protrusion abuts against the side of the second protrusion, making the splicing between the upper Great Wall panel unit and the lower Great Wall panel unit more compact, which helps to improve the overall stability and reliability of the Great Wall panel assembly structure.
[0025] In summary, this application includes at least one of the following beneficial technical effects:
[0026] 1. A Great Wall panel connector, comprising a first mounting plate for connecting a lightweight keel and a first mounting part connected to the first mounting plate for connecting a lower Great Wall panel unit; when assembling the Great Wall panel using the connector, the operator uses a first locking pin to lock the upper end of the lower Great Wall panel unit to a first locking plate, and connects the first mounting plate to the surface of the lightweight keel, thereby realizing the installation of the lower Great Wall panel unit; when the upper Great Wall panel unit is installed above the lower Great Wall panel unit, the lower end of the upper Great Wall panel unit abuts against the top of a first abutment plate, so that the first abutment plate can provide stable support for the upper Great Wall panel unit, which helps to improve the insufficient support force for the upper Great Wall panel unit;
[0027] 2. A Great Wall panel assembly structure, comprising an upper Great Wall panel unit, a lower Great Wall panel unit, and the aforementioned Great Wall panel connector; by utilizing a first locking plate cooperating with a first protrusion of the lower Great Wall panel unit, a third protrusion of the upper Great Wall panel unit is inserted into the arrangement groove of the lower Great Wall panel unit and abuts against the front side of the first locking plate of the Great Wall panel connector, and the abutting surface of the upper Great Wall panel unit abuts against the abutting surface of the first abutting plate, thus achieving stable assembly of the upper and lower Great Wall panel units;
[0028] 3. By setting a reinforcing rib structure on the first abutment plate, it helps to improve the first abutment plate's resistance to front and rear bending and improve the support stability of the first abutment plate for the upper Great Wall plate unit. Attached Figure Description
[0029] Figure 1 This is a schematic diagram of the Great Wall plate unit in the embodiments of this application.
[0030] Figure 2 This is a schematic diagram of the structure of the Great Wall plate connector in the embodiments of this application.
[0031] Figure 3 This is a side view of the first support structure in the embodiments of this application.
[0032] Figure 4 This is a cross-sectional view of the reinforced ridge structure in an embodiment of this application.
[0033] Figure 5 This is a schematic diagram of the Great Wall panel assembly structure in the embodiments of this application.
[0034] Figure 6 This is a schematic diagram of the cooperation between the upper Great Wall plate unit and the lower Great Wall plate unit in an embodiment of this application.
[0035] Figure 7 This is a schematic diagram of the structure of the second snap-fit component in the embodiments of this application.
[0036] Explanation of reference numerals in the attached drawings: 1. Great Wall panel unit; 11. First protrusion; 12. Second protrusion; 13. Third protrusion; 14. Arrangement groove; 21. First mounting plate; 211. First keel nail; 22. First mounting part; 221. First abutment plate; 222. First locking plate; 223. First locking plate nail; 23. First support structure; 231. First side plate; 232. Second side plate; 233. Third side plate; 24. First slot; 25. Reinforcing ridge structure; 251. First protrusion; 252. First groove; 3. Upper Great Wall panel unit; 31. Third protrusion; 32. Abutting surface; 4. Lower Great Wall plate unit; 41. First protrusion; 411. First locking plate hole; 42. Second protrusion; 43. Arrangement groove; 5. Second snap-fit piece; 51. Second mounting plate; 511. Second keel nail; 52. Second mounting part; 521. Second abutting plate; 522. Second locking plate; 53. Second support structure; 531. Fourth side plate; 532. Fifth side plate; 533. Sixth side plate; 54. Second slot; 55. Second reinforcing ridge; 551. Second protrusion; 552. Second groove. Detailed Implementation
[0037] The following is in conjunction with the appendix Figure 1-7 This application will be described in further detail.
[0038] This application discloses a Great Wall panel connector. (Refer to...) Figure 2 The Great Wall panel connector includes a first mounting plate 21 for connecting to the lightweight keel and a first mounting part 22 connected to the first mounting plate 21 and for connecting to the lower Great Wall panel unit 4. The first mounting plate 21 is provided with a first keel nail 211 for connecting the first mounting plate 21 and the lightweight keel. The first mounting part 22 includes a first abutment plate 221 for supporting the upper Great Wall panel, a first locking plate 222 for connecting the lower Great Wall panel unit 4, and first locking plate nails 223 for locking the first locking plate 222 and the lower Great Wall panel unit 4 to the lightweight keel. There are four first locking plate nails 223, arranged symmetrically in pairs on both sides of the first locking plate 222.
[0039] Reference Figure 2 and Figure 3 Both sides of the first mounting portion 22 are provided with first support structures 23 that are elastically supported on the lightweight keel and the lower Great Wall plate unit 4. The Great Wall plate connector has a first slot 24 between the first support structure 23 and the first locking plate 222 for the insertion of the first protrusion 41 of the lower Great Wall plate unit 4. The first support structure 23 includes a first side plate 231 connected to the end of the first abutment plate 221 and extending downward, a second side plate 232 connected to the first side plate 231 and extending towards the first mounting plate 21, and a third side plate 233 connected to the end of the second side plate 232 and extending upward.
[0040] Reference Figure 4 The first abutment plate 221 has at least two reinforcing ridge structures 25 spaced apart along its length. Each reinforcing ridge structure 25 includes a first protrusion 251 on the side facing the upper Great Wall panel unit 3 and a first groove 252 on the side facing the lower Great Wall panel unit 4. In this embodiment, the number of reinforcing ridge structures 25 is three, and they are evenly spaced on the surface of the first abutment plate 221. This helps to improve the first abutment plate 221's resistance to front and rear bending and enhances the supporting stability of the first abutment plate 221 on the upper Great Wall panel unit 3.
[0041] This application also discloses a Great Wall panel assembly structure. (Refer to...) Figure 5 The Great Wall panel assembly structure includes an upper Great Wall panel unit 3, a lower Great Wall panel unit 4, two second snap-fit pieces 5, and the aforementioned Great Wall panel connectors. Both the upper Great Wall panel unit 3 and the lower Great Wall panel unit 4 are composed of two adjacent Great Wall panels. The Great Wall panel connectors snap onto the connection points between the two adjacent Great Wall panels.
[0042] Reference Figure 6 The lower Great Wall plate unit 4 has a first protrusion 41 and a second protrusion 42 on its top. The surface of the first protrusion 41 has a first locking plate hole 411 for arranging the first locking plate nail 223. The lower Great Wall plate unit 4 has an arrangement groove 43 formed between the first protrusion 41 and the second protrusion 42. The first locking plate 222 is inserted into the arrangement groove 43 and fits against the front side of the first protrusion 41. The bottom end of the upper Great Wall plate unit 3 has a third protrusion 31 that is inserted into the arrangement groove 43. The bottom end of the upper Great Wall plate unit 3 also has an abutment surface 32 that abuts against the first abutment plate 221 of the Great Wall plate connector.
[0043] Reference Figure 7 Two second fasteners 5 are respectively disposed at both ends of the first protrusion 41 of the lower Great Wall panel unit 4. Each second fastener 5 includes a second mounting plate 51 for connecting to the lightweight keel and a second mounting portion 52 connected to the first mounting plate 21 and for connecting to the lower Great Wall panel unit 4. A second keel nail 511 for connecting the second mounting plate 51 and the lightweight keel is provided at the second mounting plate 51. The second mounting portion 52 includes a second abutment plate 521 supporting the upper Great Wall panel unit 3 and a second locking plate 522 for connecting to the lower Great Wall panel unit 4.
[0044] Reference Figure 6 and Figure 7The second mounting portion 52 has second support structures 53 on both sides, which are elastically supported on the lightweight keel and the lower Great Wall panel unit 4. A second slot 54 is provided between the second support structure 53 and the second locking plate 522 for the insertion of the first protrusion 41 of the lower Great Wall panel unit 4. Two second reinforcing ridges 55 are spaced apart along the length of the second abutment plate 521. The second support structure 53 includes a fourth side plate 531 connected to the end of the second abutment plate 521 and extending downwards, a fifth side plate 532 connected to the fourth side plate 531 and extending towards the second mounting plate 51, and a sixth side plate 533 connected to the end of the fifth side plate 532 and extending upwards. The second snap-fit member 5 is not locked to the lower Great Wall panel unit 4 by locking pins, allowing the first protrusion 41 to slide relative to the second slot 54, which helps to further improve the adaptability of the second snap-fit member 5 to the strain caused by the thermal expansion and contraction of the Great Wall panel.
[0045] The implementation principle of the Great Wall panel assembly structure in this application embodiment is as follows: When assembling the Great Wall panels using Great Wall panel connectors, the operator uses the first locking nail 223 to lock the first protrusion 41 of the lower Great Wall panel unit 4 to the first locking plate 222, and connects the first mounting plate 21 to the surface of the lightweight keel. Then, the second snap-fit piece 5 is snapped onto both ends of the first protrusion 41 of the lower Great Wall panel unit 4, and the second mounting plate 51 is connected to the surface of the keel, thereby realizing the installation of the lower Great Wall panel unit 4. When the upper Great Wall panel unit 3 is installed above the lower Great Wall panel unit 4, the abutting surface 32 of the upper Great Wall panel unit 3 abuts against the top of the first abutting plate 221 and the second abutting plate 521, so that the first abutting plate 221 and the second abutting plate 521 can provide stable support for the upper Great Wall panel unit 3, which helps to improve the insufficient support force of the upper Great Wall panel unit.
[0046] 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 Great Wall panel connector, characterized in that, It includes a first mounting plate (21) for connecting the lightweight keel and a first mounting part (22) connected to the first mounting plate (21) and for connecting the lower Great Wall board unit (4); the first mounting part (22) includes a first abutting plate (221) for supporting the upper Great Wall board unit (3), a first locking plate (222) for connecting the lower Great Wall board unit (4) and a first locking plate nail (223) for locking the first locking plate (222) and the lower Great Wall board unit (4) to the lightweight keel.
2. The Great Wall plank connector according to claim 1, characterized in that, The first mounting part (22) is provided with a first support structure (23) on both sides, which is elastically supported on the lightweight keel and the lower Great Wall plate unit (4); there is a first slot (24) between the first support structure (23) and the first locking plate (222) for the insertion of the first protrusion (41) of the lower Great Wall plate unit (4).
3. A Great Wall plank connector according to claim 2, characterized in that, The first support structure (23) includes a first side plate (231) connected to the end of the first abutment plate (221) and extending downward, a second side plate (232) connected to the first side plate (231) and extending toward the first mounting plate (21), and a third side plate (233) connected to the end of the second side plate (232) and extending upward.
4. A Great Wall plank connector according to claim 1, characterized in that, The first locking plate (222) has the first locking plate nails (223) arranged symmetrically on the left and right sides.
5. A Great Wall plank connector according to claim 4, characterized in that, The first locking plate (222) has four first locking plate nails (223), and the four first locking plate nails (223) are arranged in pairs and symmetrically on the left and right.
6. A Great Wall plank connector according to claim 1, characterized in that, The first abutment plate (221) has at least two reinforcing rib structures (25) spaced apart along its length.
7. A Great Wall panel assembly structure, characterized in that, The device includes an upper Great Wall board unit (3), a lower Great Wall board unit (4), and the Great Wall board connector as described in claim 1. The lower Great Wall board unit (4) has a first protrusion (41) and a second protrusion (42) on its top. The lower Great Wall board unit (4) has an arrangement groove (43) between the first protrusion (41) and the second protrusion (42). The first locking plate (222) is inserted into the arrangement groove (43) and fits against the front side of the first protrusion (41). The lower Great Wall board unit (3) has a third protrusion (31) inserted into the arrangement groove (43) at its bottom end. The lower Great Wall board unit (3) also has an abutment surface (32) that abuts against the first abutment plate (221) of the Great Wall board connector.
8. The Great Wall panel assembly structure according to claim 7, characterized in that, The outer side of the third protrusion (31) abuts against the side of the second protrusion (42).