A type of double-curved aluminum plate installation structure for skylights

By combining steel pipes, suspension brackets, and connecting structures, the problem of prefabricated fasteners being unable to adapt to aluminum panels with different curvatures was solved, achieving stable installation of aluminum panels and improving construction efficiency.

CN224452013UActive Publication Date: 2026-07-03SHANGHAI LANTIAN BUILDING DECORATION ENG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI LANTIAN BUILDING DECORATION ENG CO LTD
Filing Date
2025-07-01
Publication Date
2026-07-03

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  • Figure CN224452013U_ABST
    Figure CN224452013U_ABST
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Abstract

This utility model discloses an installation structure for a hyperbolic aluminum panel in a skylight, belonging to the field of aluminum panel installation technology. It includes: two parallel steel pipes; suspension brackets, each positioned vertically on the steel pipes; and a support block mounted on the suspension brackets. The support block is hollow and has openings that extend horizontally through the steel pipes. The suspension brackets extend into the support block through these horizontal openings and abut against its inner wall. This utility model fixes both ends of the steel pipes to the skylight wall, allowing the aluminum panel to be sequentially fixed to the steel pipes via the connecting structure, suspension brackets, and suspension components. This allows the aluminum panel to remain stationary even in a bent state, thus achieving stable installation. Furthermore, by controlling the relative spacing of the two suspension components, it adapts to suspension brackets with different curvatures, improving the ease of installation of aluminum panels with varying curvatures in skylights and enhancing construction efficiency.
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Description

Technical Field

[0001] This utility model relates to a hyperbolic aluminum plate installation structure for a skylight, belonging to the field of aluminum plate installation technology. Background Technology

[0002] In the construction of suspended aluminum panels, conventional hyperbolic aluminum panels require the use of prefabricated fasteners to fix the aluminum panels to the wall. However, the prefabricated fasteners can only fix aluminum panels with a fixed curvature and cannot be adapted to aluminum panels with different curvatures. Therefore, during the construction process, the fasteners of a single structure need to be cut and adjusted on-site according to the different curvatures of the aluminum panels to adapt to the curvature of the aluminum panels. This makes the installation of hyperbolic aluminum panels more complicated and less efficient. Utility Model Content

[0003] The technical problem to be solved by this utility model is to provide a hyperbolic aluminum panel installation structure for skylights. This solves the problem that in the prior art, prefabricated fasteners can only fix aluminum panels with a fixed curvature and cannot be adapted to aluminum panels with different curvatures. In the construction process, it is also necessary to cut and adjust the fasteners of a single structure on site according to the aluminum panels with different curvatures to adapt to the curvature of the aluminum panels. This makes the installation of hyperbolic aluminum panels more complicated and the construction efficiency poor.

[0004] The technical problem to be solved by this utility model is achieved by the following technical solution: a double-curved aluminum plate installation structure for a skylight, comprising:

[0005] There are two steel pipes arranged in parallel.

[0006] The suspension brackets are installed vertically on the steel pipes.

[0007] A support block, mounted on the suspension frame, is hollow inside and has an opening that faces the steel pipe and extends horizontally through it. The suspension frame extends into the support block through the horizontal opening and abuts against the inner wall of the support block.

[0008] The suspension assembly, positioned between the support block and the steel pipe, is used to maintain the relative stillness of the support block and the steel pipe.

[0009] The aluminum plate is installed on the side of the suspension bracket away from the steel pipe.

[0010] The connecting structure is installed between the suspension bracket and the aluminum plate to fix the aluminum plate and the suspension bracket together.

[0011] The suspension frame and aluminum plate are curved, and the support block and suspension structure are respectively located at both ends of the suspension frame.

[0012] By adopting the above technical solution, the two ends of the steel pipe are fixed to the wall of the skylight, and the aluminum plate is fixed to the steel pipe in sequence through the connecting structure, the suspension frame and the suspension assembly. This allows the aluminum plate to remain stationary in a bent state, thus completing the stable installation of the aluminum plate. At the same time, by controlling the relative distance between the two suspension assemblies, different curvatures of the suspension frame can be adapted, which improves the convenience of installing aluminum plates with different curvatures in the skylight and helps to improve construction efficiency.

[0013] The present invention is further configured such that the suspension assembly includes:

[0014] The clamp is a ring that is wrapped around the outside of the steel pipe and is secured with bolts.

[0015] The connecting plate is fixedly connected to the support block.

[0016] The suspension part is installed on the clamp, and the suspension part keeps the support block and the steel pipe relatively stationary by being fixed with the connecting plate.

[0017] The present invention is further configured such that the suspension part includes:

[0018] The suspension block is fixedly mounted on the clamp, and the interior of the suspension block is hollow.

[0019] A limiting groove is formed on the suspension block and connects the inside and outside of the suspension block vertically. The limiting groove also passes through the suspension block unidirectionally in a horizontal direction.

[0020] One end of the suspension rod extends into the suspension block through a limiting groove, and the other end of the suspension rod is threadedly connected to the connecting plate.

[0021] A limiting block is fixedly installed at one end of the suspension rod located inside the suspension block, and the outer diameter of the limiting block is larger than the width of the limiting groove.

[0022] By adopting the above technical solution, a clamp is fitted onto the steel pipe. After the clamp is moved to a suitable position, bolts are inserted into the clamp and used to lock the clamp and fix it to the steel pipe. Then, the suspension rod is aligned with the groove of the limiting groove and inserted into the groove. At this time, the plane where the suspension rod and the groove are located are perpendicular and the limiting block enters the interior of the suspension block. When the suspension rod is subjected to tension, since the outer diameter of the limiting block is larger than the width of the groove, the limiting block cannot detach from the suspension block, thus keeping the suspension rod stationary. This, in turn, keeps the suspension frame stationary through the connecting plate and the support block, thereby keeping the aluminum plate stationary through the connecting structure, achieving the purpose of stable installation of the aluminum plate. Furthermore, when a single suspension rod is corroded and damaged after long-term use, the suspension rod can be moved horizontally to move it out of the horizontal opening of the limiting groove and remove the limiting block from the suspension block. Then, the suspension rod can be rotated to separate it from the connecting plate, allowing the suspension rod and the limiting block to be replaced. This reduces the maintenance difficulty of the aluminum plate installation structure.

[0023] The present invention is further configured such that the connection structure includes:

[0024] Mounting plates are detachably and securely connected to the suspension bracket, and are spaced apart along the extension direction of the suspension bracket.

[0025] The mounting rod is fixedly installed between the opposing mounting plates on the two suspension brackets.

[0026] The movable part is installed on the mounting rod, and it securely connects the mounting rod to the aluminum plate.

[0027] The present invention is further configured such that the movable part includes:

[0028] The connecting clip is U-shaped, and the inner side of the U-shaped connecting clip fits over the outside of the mounting rod.

[0029] The connecting post passes through both ends of the U-shaped connecting clip, and is threaded into the connecting clip. The connecting post extends towards the aluminum plate.

[0030] A prefabricated connecting piece is placed at the end of the connecting column facing the aluminum plate. The end of the connecting column passes through the prefabricated connecting piece and is threadedly connected to it. The end of the prefabricated connecting piece away from the connecting column is fixed to the aluminum plate.

[0031] By adopting the above technical solution, the position of the mounting plate can be appropriately adjusted according to the curvature of the aluminum plate. Then, bolts are used to fix the mounting plate to the suspension frame. Then, connecting clips are used to clamp the outside of the mounting rod. After the connecting post passes through the connecting clip, the end of the connecting post is aligned with the prefabricated connecting plate. Then, the connecting post is rotated to make the connecting post and the prefabricated connecting plate threaded together, thus completing the fixed connection between the aluminum plate and the suspension frame. When individual connecting clips are damaged, the connecting post is rotated in the opposite direction to disengage the connecting post from the prefabricated connecting plate and the connecting clip. Then, the connecting clip is pushed to move the mounting rod towards the U-shaped opening to complete the disassembly of the connecting clip. Then, a new connecting clip is installed, further reducing the maintenance difficulty of the aluminum plate mounting structure.

[0032] The present invention is further configured such that: a flip plate is hinged to the opening of the support block facing the steel pipe, and the end of the flip plate away from the hinge can be fixedly connected to the support block by bolt fasteners, and the flip plate can close the opening of the support block facing the steel pipe.

[0033] The present invention is further configured such that: a sliding groove is horizontally opened through the opposite surface of the support block, a threaded rod is slidably arranged in the sliding groove, the two ends of the threaded rod extend to the outside of the support block through two sliding grooves and are threadedly connected to a locking nut, the locking nut abuts against the outer surface of the support block, and the part of the threaded rod located inside the support block is fixedly provided with an abutment layer that can abut against the suspension frame.

[0034] By adopting the above technical solution, when the curvature of the suspension frame is too large and it only abuts against the edge of the inner wall of the support block, the suspension frame and the support block are in line contact. After the relative sliding of the suspension frame and the support block, the wear at the connection between the support block and the suspension frame will increase. By setting an abutment layer in the support block, the movement of the threaded rod in the sliding groove can be adjusted according to the different curvatures of the suspension frame, thereby adjusting the position of the abutment layer so that the abutment layer is constantly in contact with the suspension frame, and the weight of the suspension frame is distributed to the abutment layer, reducing the degree of wear between the suspension frame and the support block.

[0035] The present invention is further configured such that: the side of the suspension frame facing the steel pipe is provided with several limiting grooves at equal intervals, and clamping blocks are provided on both sides of the support block on the suspension frame, and limiting blocks extending into the limiting grooves are fixedly provided on the clamping blocks.

[0036] By adopting the above technical solution, when the support block slides relative to the suspension frame during use, the clamping block can abut against the support block. At this time, the limiting block is inserted into the limiting groove to restrict the movement of the clamping block along the extension direction of the suspension frame, thereby preventing the support block from sliding along the extension direction of the suspension frame. This reduces the distance of relative sliding between the support block and the suspension frame, which helps to reduce the degree of wear between the support block and the suspension frame.

[0037] The beneficial effects of this utility model are: by fixing both ends of the steel pipe to the wall of the skylight, the aluminum plate is fixed to the steel pipe in sequence through the connecting structure, the suspension frame and the suspension assembly, so that the aluminum plate can remain stationary in a bent state, thereby completing the stable installation of the aluminum plate. At the same time, by controlling the relative distance between the two suspension assemblies, different curvature suspension frames can be adapted, which improves the convenience of installing aluminum plates with different curvatures in the skylight and helps to improve construction efficiency. Attached Figure Description

[0038] Figure 1 This is a schematic diagram of the structure of this utility model;

[0039] Figure 2 This is a partial structural diagram of the connection between the support block and the suspension frame in this utility model;

[0040] Figure 3 This is a partial structural diagram of the movable part in this utility model;

[0041] Figure 4This is a partial structural diagram of the connection between the clamp and the suspension block in this utility model.

[0042] In the diagram: 10. Steel pipe; 11. Clamp; 12. Suspension block; 13. Suspension rod; 14. Restriction groove; 15. Restriction block; 16. Suspension frame; 17. Mounting plate; 18. Mounting rod; 19. Aluminum plate; 20. Support block; 21. Connecting plate; 22. Flip plate; 23. Sliding groove; 24. Threaded rod; 25. Locking nut; 26. Abutment layer; 27. Connecting buckle; 28. Connecting column; 29. ​​Prefabricated connecting plate; 30. Limiting groove; 31. Clamping block; 32. Limiting block. Detailed Implementation

[0043] To facilitate a clear understanding of the technical means, creative features, objectives, and effects of this utility model, the following description, in conjunction with specific illustrations, further elaborates on this utility model.

[0044] like Figure 1 As shown, a hyperbolic aluminum plate mounting structure for a skylight includes steel pipes 10, suspension brackets 16, aluminum plates 19, support blocks 20, connecting structures, and suspension components. Two steel pipes 10 are arranged in parallel, and the ends of the two steel pipes 10 are fixed to the wall of the skylight. The suspension brackets 16 are respectively arranged in the vertical direction of the steel pipes 10. The support blocks 20 are arranged on the suspension brackets 16. The support blocks 20 are hollow inside and have openings that face the steel pipes 10 and extend horizontally through them. The suspension brackets 16 extend into the support blocks 20 through the horizontal openings and abut against the inner wall of the support blocks 20. The suspension assembly is set between the support block 20 and the steel pipe 10 to keep the support block 20 and the steel pipe 10 relatively stationary. The aluminum plate 19 is set on the side of the suspension frame 16 away from the steel pipe 10. The connecting structure is set between the suspension frame 16 and the aluminum plate 19 and fixes the aluminum plate 19 and the suspension frame 16. The suspension frame 16 and the aluminum plate 19 are set in a curved arc shape. The support block 20 and the suspension structure are respectively set at both ends of the suspension frame 16.

[0045] like Figure 1 , Figure 2 and Figure 4As shown, the suspension assembly includes a clamp 11, a connecting plate 21, and a suspension part. The clamp 11 is arranged around the outside of the steel pipe 10 and is locked and fixed by bolts. The connecting plate 21 is fixedly connected to the support block 20. The suspension part is arranged on the clamp 11 and maintains the relative static position of the support block 20 and the steel pipe 10 by being fixed to the connecting plate 21. The suspension part includes a suspension block 12, a suspension rod 13, a limiting groove 14, and a limiting block 15. The suspension block 12 is fixedly arranged on the clamp 11 and is hollow inside. The suspension block 12 also has an opening facing the horizontal direction. The limiting groove 14 is opened on the suspension block 12 and connects the inside of the suspension block 12 with the outside of the suspension block 12 in the vertical direction. The limiting groove 14 passes through the suspension block 12 in one direction along the opening direction of the horizontal opening of the suspension block 12. One end of the suspension rod 13 extends into the suspension block 12 through the limiting groove 14, and the other end of the suspension rod 13 is threadedly connected to the connecting plate 21. The limiting block 15 is fixedly installed at one end of the suspension rod 13 located inside the suspension block 12, and the outer diameter of the limiting block 15 is larger than the width of the limiting groove 14. Since the limiting groove 14 directs the one-way through-hole of the suspension block 12 towards the horizontal direction, when the limiting block 15 is subjected to the vertical tension of the suspension rod 13, the friction between the limiting block 15 and the inner wall of the suspension block 12 increases, making the limiting block 15 more stable and preventing it from detaching from the one-way through-hole of the limiting groove 14. When the aluminum plate 19 is used in a harsh environment, the one-way through-hole of the limiting groove 14 can be sealed by welding a metal sheet after the limiting block 15 is installed.

[0046] like Figure 1 and Figure 3 As shown, the connection structure includes mounting plates 17, mounting rods 18, and a movable part. Mounting plates 17 are detachably and fixedly connected to suspension brackets 16. Mounting plates 17 are spaced apart along the extension direction of suspension brackets 16. Mounting plates 17 and suspension brackets 16 are connected and fixed by bolts and fasteners inserted into them respectively, and the bolts and fasteners are threadedly connected to the suspension brackets 16. Mounting rods 18 are fixedly positioned between opposing mounting plates 17 on the two suspension brackets 16. The movable part is mounted on the mounting rod 18, and it fixes the mounting rod 18 to the aluminum plate 19. The movable part includes a connecting buckle 27, a connecting post 28, and a prefabricated connecting piece 29. The connecting buckle 27 is U-shaped, with its inner U-shaped side fitted over the outside of the mounting rod 18. The connecting post 28 passes through both ends of the U-shaped connecting buckle 27, and is threadedly connected to the connecting buckle 27. The connecting post 28 extends towards the aluminum plate 19. The prefabricated connecting piece 29 is disposed at the end of the connecting post 28 facing the aluminum plate 19. The end of the connecting post 28 passes through the prefabricated connecting piece 29 and is threadedly connected to the prefabricated connecting piece 29. The end of the prefabricated connecting piece 29 away from the connecting post 28 is fixed to the aluminum plate 19.

[0047] like Figure 2As shown, a flip plate 22 is hinged to the opening of the support block 20 facing the steel pipe 10. The end of the flip plate 22 away from the hinge can be fixedly connected to the support block 20 by bolt fasteners. The flip plate 22 can close the opening of the support block 20 facing the steel pipe 10. A sliding groove 23 is horizontally opened through the opposite surface of the support block 20. A threaded rod 24 is slidably arranged in the sliding groove 23. The two ends of the threaded rod 24 extend to the outside of the support block 20 through the two sliding grooves 23 and are threadedly connected to a locking nut 25. The locking nut 25 abuts against the outer surface of the support block 20. The part of the threaded rod 24 located inside the support block 20 is fixedly provided with an abutment layer 26 that can abut against the suspension frame 16.

[0048] like Figure 1 and Figure 2 As shown, the suspension frame 16 has several limiting grooves 30 evenly spaced on the side facing the steel pipe 10. The suspension frame 16 has clamping blocks 31 on both sides of the support block 20. The clamping blocks 31 are U-shaped and clamp the opening on the suspension frame 16. The clamping blocks 32 extending into the limiting grooves 30 are fixedly provided on the inner side of the clamping blocks 31.

[0049] The two ends of the steel pipe 10 are fixed to the wall of the skylight, and the aluminum plate 19 is fixed to the steel pipe 10 in sequence through the connecting structure, the suspension frame 16 and the suspension assembly. This allows the aluminum plate 19 to remain stationary in a bent state, thus completing the stable installation of the aluminum plate 19. At the same time, the relative distance between the two suspension assemblies can be controlled to adapt to the suspension frame 16 with different curvatures, which improves the convenience of installing aluminum plates with different curvatures in the skylight and helps to improve construction efficiency.

[0050] A clamp 11 is fitted onto the steel pipe 10. After moving the clamp 11 to a suitable position, bolts are inserted into the clamp 11 and used to lock the clamp 11 and fix it to the steel pipe 10. Then, the suspension rod 13 is aligned with the opening of the limiting groove 14 and inserted into the opening of the limiting groove 14. At this time, the plane where the opening of the limiting groove 14 is located is perpendicular to the plane where the opening of the limiting groove 14 is located, and the limiting block 15 is inserted into the suspension block 12. When the suspension rod 13 is subjected to tension, because the outer diameter of the limiting block 15 is larger than the width of the opening of the limiting groove 14, the limiting block 15 cannot disengage from the suspension block 12, thus maintaining the suspension. The purpose of keeping rod 13 stationary is to keep the suspension frame 16 stationary through the connecting plate 21 and the support block 20, thereby keeping the aluminum plate 19 stationary through the connecting structure, achieving the purpose of stable installation of the aluminum plate 19. Furthermore, when a single suspension rod 13 is corroded and damaged after long-term use, the suspension rod 13 can be moved horizontally to move it out of the horizontal opening of the limiting groove 14 and to release the limiting block 15 from the suspension block 12. Then, the suspension rod 13 can be rotated to separate it from the connecting plate 21, allowing the suspension rod 13 and the limiting block 15 to be replaced, thus reducing the maintenance difficulty of the aluminum plate installation structure.

[0051] Construction workers can adjust the length of the suspension rod 13 according to the actual working conditions, thereby changing the orientation of the bent end of the aluminum plate 19 and changing the position of the aluminum plate 19.

[0052] Based on the different curvatures of the aluminum plate 19, the position of the mounting piece 17 can be adjusted appropriately. Then, the mounting piece 17 is fixedly connected to the suspension bracket 16 using bolts. Then, the connecting clip 27 is clamped on the outside of the mounting rod 18. After the connecting post 28 passes through the connecting clip 27, the end of the connecting post 28 is aligned with the prefabricated connecting piece 29. Then, the connecting post 28 is rotated to make the connecting post 28 and the prefabricated connecting piece 29 threadedly connected, thus completing the fixed connection between the aluminum plate 19 and the suspension bracket 16. When some connecting clips 27 are damaged, the connecting post 28 is rotated in the opposite direction to disengage the connecting post 28 from the prefabricated connecting piece 29 and the connecting clip 27 respectively. Then, the connecting clip 27 is pushed to move the mounting rod 18 toward the U-shaped opening to complete the disassembly of the connecting clip 27. Then, a new connecting clip 27 is installed, which further reduces the maintenance difficulty of the aluminum plate mounting structure.

[0053] When the curvature of the suspension frame 16 is too large and it only abuts against the edge of the inner wall of the support block 20, the suspension frame 16 and the support block 20 are in line contact. Relative sliding between the suspension frame 16 and the support block 20 will increase wear at the connection point. By providing an abutment layer 26 inside the support block 20, the movement of the threaded rod 24 within the sliding groove 23 can be adjusted according to the curvature of the suspension frame 16, thereby adjusting the position of the abutment layer 26. This ensures that the abutment layer 26 is constantly in contact with the suspension frame 16, distributing the weight of the suspension frame 16 onto the abutment layer 26 and reducing wear between the suspension frame 16 and the support block 20. After the threaded rod 24 moves to the appropriate position, the locking nut 25 is rotated, causing it to move towards the outer side of the support block 20 under the action of the threaded structure. Friction restricts the movement of the threaded rod 24, ensuring stable contact between the abutment layer 26 and the suspension frame 16.

[0054] When the support block 20 slides relative to the suspension frame 16 during use, the clamping block 31 can abut against the support block 20. At this time, the limiting block 32 is inserted into the limiting groove 30 to restrict the movement of the clamping block 31 along the extension direction of the suspension frame 16, thereby preventing the support block 20 from sliding along the extension direction of the suspension frame 16. This reduces the distance of relative sliding between the support block 20 and the suspension frame 16, which helps to reduce the degree of wear between the support block 20 and the suspension frame 16.

[0055] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments, and various changes and modifications can be made without departing from the spirit and scope of this utility model. All such changes and modifications fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A hyperbolic aluminum plate installation structure for a skylight, characterized in that: include: There are two steel pipes (10) arranged in parallel. The suspension brackets (16) are respectively installed in the vertical direction of the steel pipe (10). A support block (20) is mounted on a suspension frame (16). The support block (20) is hollow and has an opening that faces the steel pipe (10) and extends horizontally through it. The suspension frame (16) extends into the support block (20) through the horizontal opening and abuts against the inner wall of the support block (20). A suspension assembly, positioned between the support block (20) and the steel pipe (10), is used to maintain the relative stillness of the support block (20) and the steel pipe (10). An aluminum plate (19) is placed on the side of the suspension bracket (16) away from the steel pipe (10). A connecting structure is provided between the suspension bracket (16) and the aluminum plate (19) to fix the aluminum plate (19) and the suspension bracket (16) together. The suspension frame (16) and aluminum plate (19) are curved arc-shaped, and the support block (20) and suspension structure are respectively set at both ends of the suspension frame (16).

2. The installation structure of a hyperbolic aluminum plate for a skylight according to claim 1, characterized in that: The suspension components include: A clamp (11) is wrapped around the outside of the steel pipe (10), and the clamp (11) is locked and fixed by bolt fasteners. The connecting plate (21) is fixedly connected to the support block (20). The suspension part is set on the clamp (11), and the suspension part keeps the support block (20) and the steel pipe (10) relatively stationary by fixing it with the connecting plate (21).

3. The installation structure of a hyperbolic aluminum plate for a skylight according to claim 2, characterized in that: The suspension includes: The suspension block (12) is fixedly mounted on the clamp (11), and the interior of the suspension block (12) is hollow. A limiting groove (14) is formed on the suspension block (12) and connects the inside of the suspension block (12) with the outside of the suspension block (12) in the vertical direction. The limiting groove (14) passes through the suspension block (12) in one direction in the horizontal direction. The suspension rod (13) extends from one end into the suspension block (12) through the limiting groove (14), and the other end of the suspension rod (13) is threaded to the connecting plate (21). A limiting block (15) is fixedly installed at one end of the suspension rod (13) located inside the suspension block (12), and the outer diameter of the limiting block (15) is larger than the groove width of the limiting groove (14).

4. The installation structure of a hyperbolic aluminum plate for a skylight according to claim 1, characterized in that: The connection structure includes: Mounting plates (17) are detachably and fixedly connected to the suspension bracket (16), and the mounting plates (17) are spaced apart along the extension direction of the suspension bracket (16). The mounting rod (18) is fixedly mounted between the opposing mounting pieces (17) on the two suspension brackets (16). The movable part is installed on the mounting rod (18), and the movable part fixes the mounting rod (18) to the aluminum plate (19).

5. The installation structure of a hyperbolic aluminum plate for a skylight according to claim 4, characterized in that: The Activities Department includes: The connecting buckle (27) is U-shaped, and the inner side of the U-shaped connecting buckle (27) is sleeved on the outside of the mounting rod (18). The connecting post (28) passes through both ends of the U-shaped connecting buckle (27), and the connecting post (28) is threadedly connected to the connecting buckle (27). The connecting post (28) extends towards the aluminum plate (19). A prefabricated connecting piece (29) is set at the end of the connecting post (28) facing the aluminum plate (19). The end of the connecting post (28) passes through the prefabricated connecting piece (29) and is threadedly connected to the prefabricated connecting piece (29). The end of the prefabricated connecting piece (29) away from the connecting post (28) is fixed to the aluminum plate (19).

6. The installation structure of a hyperbolic aluminum plate for a skylight according to claim 1, characterized in that: A flip plate (22) is hinged to the opening of the support block (20) facing the steel pipe (10). The end of the flip plate (22) away from the hinge can be fixedly connected to the support block (20) by bolt fasteners. The flip plate (22) can close the opening of the support block (20) facing the steel pipe (10).

7. The installation structure of a hyperbolic aluminum plate for a skylight according to claim 1, characterized in that: A sliding groove (23) is horizontally opened through the opposite surface of the support block (20). A threaded rod (24) is slidably arranged in the sliding groove (23). The two ends of the threaded rod (24) extend to the outside of the support block (20) through the two sliding grooves (23) and are threadedly connected to a locking nut (25). The locking nut (25) abuts against the outer side of the support block (20). The part of the threaded rod (24) located inside the support block (20) is fixedly provided with an abutment layer (26) that can abut against the suspension frame (16).

8. The installation structure of a hyperbolic aluminum plate for a skylight according to claim 1, characterized in that: The side of the suspension frame (16) facing the steel pipe (10) is provided with several limiting grooves (30) at equal intervals. The suspension frame (16) is provided with clamping blocks (31) on both sides of the support block (20). The clamping blocks (31) are fixedly provided with limiting blocks (32) extending into the limiting grooves (30).