A wall two-way curved surface glass steel high gloss paint facing panel structure
By using a two-way curved fiberglass high-gloss paint decorative panel for the wall surface and a factory-processed assembly line construction method, the problems of time-consuming, labor-intensive, and insufficient durability of traditional wall construction are solved, achieving rapid installation and high-performance decorative effects.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI KANGYE BUILDING DECORATION ENG
- Filing Date
- 2025-08-11
- Publication Date
- 2026-07-07
Smart Images

Figure CN224468699U_ABST
Abstract
Description
[Technical Field]
[0001] This utility model relates to the field of architectural decoration technology, specifically to a structure for a two-way curved fiberglass high-gloss paint decorative panel for walls. [Background Technology]
[0002] Traditional walls are mostly made of gypsum board and latex paint. After the guide wall is poured on the concrete structure, special expansion bolts are used. First, the partition wall keel (top and bottom keel, vertical keel, through keel) is used, then the gypsum board is sealed, then putty is applied, and finally latex paint is applied.
[0003] This construction method requires a second on-site finishing process, which is time-consuming and labor-intensive, increases air pollution, and fails to meet the requirements for pollution resistance, waterproofing, corrosion resistance, and aging resistance. [Utility Model Content]
[0004] The purpose of this utility model is to overcome the above-mentioned shortcomings and provide a wall surface double-curved fiberglass high-gloss paint decorative panel structure, which is convenient and quick to construct, can shorten the construction and installation cycle, eliminates the need for on-site painting and finishing, and achieves energy saving and environmental protection, with a stable structure and high safety.
[0005] To achieve the above objectives, a two-way curved fiberglass high-gloss paint decorative panel structure is designed, including vertical keel 4, which is connected to the building wall in close contact. The vertical keel 4 is fixed to the building floor slab 1 and distributed at intervals. U-shaped keels 5 are horizontally fixed on the vertical keel 4 and provide lateral support through the U-shaped keels 5. The cavity between the vertical keel 4 and the building wall is filled with sound insulation cotton 6. The sound insulation cotton 6 is wrapped with gypsum board 7 on the outside. A flame-retardant board 8 is installed on the gypsum board 7. A fiberglass high-gloss painted panel 21 is installed on the roof via aluminum alloy hangers 9. The fiberglass high-gloss painted panel 21 extends upward to the roof and is bent to form a top panel. The top panel is made of fiberglass high-gloss painted panel 21. The top panel is fixed to the roof via ceiling secondary keel 13 and ceiling main keel 14. The ceiling main keel 14 is hung on galvanized wire rod 17 and the galvanized wire rod 17 is installed on the roof. The ceiling secondary keel 13 is suspended below the ceiling main keel 14 and the ceiling secondary keel 13 is arranged at intervals.
[0006] Furthermore, the vertical keel 4 is fixed to the building floor slab 1 by the top and bottom keels 2 and expansion bolts 3. The expansion bolts 3 are fixed to the top and bottom keels 2 on the building floor slab 1 according to the on-site layout position, which can achieve quick positioning and fixation, and the installation is firm and stable.
[0007] Furthermore, the U-shaped keel 5 is fixed to the vertical keel 4 by stainless steel countersunk screws 19. The U-shaped keels 5 are spaced apart along the vertical direction, thus the structure is stable and the safety is high.
[0008] Furthermore, the fiberglass high-gloss paint panel 21 includes a glass tank base 22, which is made of fiberglass plastic sheet. The surface of the glass tank base 22 is treated with a primer treatment surface 23. The primer treatment surface 23 is sprayed with primer and dried and polished to form a high-gloss paint finish 24. This structure panel can shorten the construction and installation cycle, save energy and labor, and has no air pollution.
[0009] Furthermore, the aluminum alloy hanger 9 is fixed to the flame-retardant plate 8 and the U-shaped keel 5 by stainless steel screws 10. The back of the fiberglass high-gloss paint decorative panel 21 is fixed with aluminum alloy buckles 25 by stainless steel expansion nails 11. The aluminum alloy buckles 25 on the fiberglass high-gloss paint decorative panel 21 are hung on the aluminum alloy hanger 9. The installation is simple, the structure is stable, and the disassembly and assembly are convenient.
[0010] Furthermore, a ceiling main hanger 15 is fixedly connected to the galvanized wire rod 17. The ceiling main hanger 15 has a rectangular frame structure with an opening at the upper side in its longitudinal section. The ceiling main keel 14 is located in the lower part of the ceiling main hanger 15 and is fixed by through screws 16, thereby further improving the stability of the structure.
[0011] Furthermore, the bottom end of the main ceiling hanger 15 is fixedly connected to the secondary ceiling keel 13. The secondary ceiling keel 13 is covered with gypsum board 12. A wooden keel 18 is provided below the gypsum board 12, and the wooden keel 18 is used as the base layer. A flame-retardant board 8 is sealed below the wooden keel 18 as the surface layer. The top panel is fixed to the wooden keel 18 by aluminum alloy hangers 9, so that the installation is convenient, the structure is stable, and the disassembly and assembly are convenient.
[0012] Compared with existing technologies, this utility model provides a new type of wall structure that is convenient and quick to construct, requires no glue or on-site painting, is environmentally friendly and energy-saving, and meets the requirements of waterproofing, crack prevention, pollution resistance, corrosion resistance, aging resistance, easy cleaning, and abrasion resistance. It can be used for high-gloss paint finishes on the walls of public buildings. Construction is convenient and quick, shortening the construction and installation cycle. No secondary on-site finishing is required, and no further painting is needed on-site. The entire process is factory-processed in an assembly line manner, achieving one-step molding. It can save water, energy, and labor, and has no air pollution. The structure is stable and highly safe, making it worthy of widespread application. [Image Description]
[0013] Figure 1 This is a schematic diagram of the elevation partition wall of this utility model;
[0014] Figure 2a This is a schematic diagram of the vertical cross-sectional structure of this utility model;
[0015] Figure 2b yes Figure 2aA magnified view of the top section;
[0016] Figure 2c yes Figure 2a A magnified view of the central section;
[0017] Figure 3a This is a partial structural schematic diagram of the present invention;
[0018] Figure 3b yes Figure 3a Connection diagram of the aluminum alloy hanger;
[0019] Figure 4a This is a structural schematic diagram of the fiberglass high-gloss paint decorative panel of this utility model;
[0020] Figure 4b yes Figure 4a A top-view structural diagram;
[0021] In the diagram: 1. Building floor slab; 2. Ceiling and ceiling joists; 3. Expansion bolts; 4. Vertical joists; 5. U-shaped joists; 6. Sound insulation cotton; 7. Gypsum board; 8. Flame-retardant board; 9. Aluminum alloy hangers; 10. Stainless steel screws; 11. Stainless steel expansion nails; 12. Gypsum board joists; 13. Ceiling secondary joists; 14. Ceiling main joists; 15. Ceiling main hangers; 16. Through screws; 17. Galvanized threaded rods; 18. Wooden joists; 19. Stainless steel countersunk screws; 20. Fiberglass high-gloss paint finish panel joints; 21. Fiberglass high-gloss paint finish panel; 22. Glass tank base layer; 23. Primer treatment surface; 24. High-gloss paint finish; 25. Aluminum alloy clips; 26. Original building structural walls. [Detailed Implementation]
[0022] The present invention will be further described below with reference to the accompanying drawings:
[0023] As shown in the attached diagram, this utility model provides a structure for a two-way curved fiberglass high-gloss paint decorative panel, including vertical keel 4, which is connected to the building wall in close contact. The vertical keel 4 is fixed to the building floor slab 1 and spaced apart. U-shaped keels 5 are horizontally fixed on the vertical keel 4 and provide lateral support through the U-shaped keels 5. The cavity between the vertical keel 4 and the building wall is filled with sound insulation cotton 6. The sound insulation cotton 6 is encapsulated with gypsum board 7, and a flame-retardant board 8 is installed on the gypsum board 7. A fiberglass high-gloss painted panel 21 is installed on the fire-resistant panel 8 via aluminum alloy hangers 9. The fiberglass high-gloss painted panel 21 extends upward to the roof and is bent to form a top panel. The top panel is made of fiberglass high-gloss painted panel 21. The top panel is fixed to the roof via ceiling secondary keel 13 and ceiling main keel 14. The ceiling main keel 14 is hung on galvanized wire rod 17. The galvanized wire rod 17 is installed on the roof. The ceiling secondary keel 13 is suspended below the ceiling main keel 14. The ceiling secondary keel 13 is arranged at intervals.
[0024] The vertical keel 4 is fixed to the building floor slab 1 by the top and bottom keels 2 and expansion bolts 3. The expansion bolts 3 are fixed to the top and bottom keels 2 on the building floor slab 1 according to the on-site layout, which can achieve quick positioning and fixation, and the installation is firm and stable. The U-shaped keel 5 is fixed to the vertical keel 4 by stainless steel countersunk screws 19. The U-shaped keels 5 are distributed at intervals along the vertical direction, so the structure is stable and the safety is high. The aluminum alloy hanger 9 is fixed to the flame-retardant board 8 and the U-shaped keel 5 by stainless steel screws 10. The back of the fiberglass high-gloss paint decorative panel 21 is fixed with aluminum alloy clips 25 by stainless steel expansion nails 11. The aluminum alloy clips 25 on the fiberglass high-gloss paint decorative panel 21 are hung on the aluminum alloy hanger 9, which is simple to install, structurally stable, and easy to disassemble.
[0025] A ceiling main hanger 15 is fixedly connected to a galvanized wire rod 17. The ceiling main hanger 15 has a rectangular frame structure with an opening at the upper side in its longitudinal section. The ceiling main keel 14 is located inside the lower part of the ceiling main hanger 15 and is fixed by through screws 16, thereby further improving the stability of the structure. The ceiling secondary keel 13 is fixedly connected to the bottom of the ceiling main hanger 15. The ceiling secondary keel 13 is covered with gypsum board 12. A wooden keel 18 is provided below the gypsum board 12 and is used as the base layer. A flame-retardant board 8 is sealed below the wooden keel 18 as the surface layer. The top panel is fixed to the wooden keel 18 by aluminum alloy hangers 9, which makes the installation convenient, the structure stable, and the disassembly and assembly convenient.
[0026] As attached Figure 4a and attached Figure 4b As shown, the fiberglass high-gloss paint panel 21 includes a glass tank base 22, which is made of fiberglass plastic sheet. The surface of the glass tank base 22 is treated with a primer treatment surface 23. The primer treatment surface 23 is sprayed with primer and dried and polished to form a high-gloss paint finish 24. This structure panel can shorten the construction and installation cycle, save energy and labor, and has no air pollution.
[0027] This utility model eliminates the need for secondary on-site finishing work and repainting. The entire process is a streamlined factory production line, achieving one-step molding. Installation is faster, saving water, energy, and labor, and eliminating air pollution. The bi-directional curved fiberglass high-gloss paint panel uses a high-gloss baking paint. Specifically, a sealing primer is sprayed and dried to fill pores in the substrate and enhance adhesion. After each coat, the panel is dried in a dust-free oven at 60-80℃ for 6-8 hours, repeating 3-4 coats of primer and 4-5 coats of topcoat to ensure a uniform paint film. Special control of the spray gun angle and paint volume is required for rounded edges to avoid runs or orange peel effects. Finally, imported wax is used for polishing to enhance surface gloss and eliminate minor imperfections, thus achieving environmental protection, stain resistance, waterproofing, crack resistance, fingerprint resistance, wear resistance, corrosion resistance, and aging resistance.
[0028] Based on the design requirements and dimensions, the first step is to select a 12mm thick fiberglass molded board; the second step is to treat the base surface according to the design requirements; the third step is to spray primer onto the fiberglass surface and dry it; after the surface coating has been stable for 8 hours, apply 4-5 coats of topcoat (in a dust-free baking oven); the fourth step is to polish with imported wax to improve the surface gloss and eliminate minor imperfections; the fifth step is to transport the finished product to the construction site for inspection and use after the protection is in place.
[0029] On-site layout determines the location of 8mm expansion bolts 3. On the top surface of any type of building, drive the 8mm expansion bolts onto the top and bottom joists 2 according to the layout location. Arrange the vertical joists 4 neatly and fix them firmly (600mm spacing). Then use U-shaped joists 5 for horizontal support (for reinforcement and stability). Then fix the stainless steel countersunk screws 19 (φ3.5*25mm) onto the U-shaped joists 5. Next, fill the joist partition wall with 50mm thick sound insulation cotton 6 (60kg). Cover the wall with 12mm thick gypsum board 7 and 12mm thick fire retardant board 8. Use a 2m horizontal straightedge to check that the flatness deviation is <2mm.
[0030] Lay the line at the corresponding position on the 12mm flame-retardant board, and use aluminum alloy hangers 9 to attach them to the 12mm flame-retardant board and U-shaped keel light steel keel with φ3.5*50mm stainless steel screws. Hang 2mm custom aluminum alloy hangers below and reinforce them with stainless steel expansion nails 11.
[0031] The main ceiling keel 14 is hung from the top surface using galvanized hanger rods 17 and ceiling main hangers 15. Then, it is fixed firmly with through screws 16. Next, the secondary ceiling keel 13 (spaced 300mm) is connected by hangers and covered with 9.5mm thick gypsum board 12. Then, a wooden keel 18 is used as the base layer, and a flame-retardant board surface layer is sealed. Finally, aluminum alloy clips are fixed on the wooden keel 18.
[0032] Install the fiberglass high-gloss paint panel 21 with aluminum alloy clips and fix it with stainless steel expansion nails 11. Finally, hang the aluminum alloy clips on the fiberglass high-gloss paint panel 21 on the aluminum alloy brackets that are fixed on the original wall. The second high-gloss paint panel is installed in the same way as the first one. The splicing gap of the fiberglass high-gloss paint panel is 1mm.
[0033] Once all the fiberglass high-gloss painted panels are installed, the joints are straight and level, and the construction is complete.
[0034] The contents not described in detail in this specification are existing technologies known to those skilled in the art. The standard parts used can be purchased from the market, and the irregular parts can be customized according to the description and drawings. The specific connection methods of each part adopt conventional methods such as bolts, rivets, and welding that are mature in the existing technology. The machinery, parts and equipment adopt conventional models in the existing technology, and the circuit connection adopts conventional connection methods in the existing technology, which will not be described in detail here.
[0035] This utility model is not limited to the above-described embodiments. Any changes, modifications, substitutions, combinations, or simplifications made without departing from the spirit and principle of this utility model shall be considered equivalent substitutions and shall be included within the protection scope of this utility model.
Claims
1. A structure for a two-way curved fiberglass high-gloss paint decorative panel for walls, characterized in that: The system includes vertical keel (4), which is connected to the building wall. The vertical keel (4) is fixed to the building floor slab (1) and spaced apart. U-shaped keels (5) are horizontally fixed on the vertical keel (4) and provide lateral support. The cavity between the vertical keel (4) and the building wall is filled with sound insulation cotton (6). The sound insulation cotton (6) is encapsulated with gypsum board (7) on the outside. A flame-retardant board (8) is installed on the gypsum board (7). The flame-retardant board (8) is mounted on the flame-retardant board (8) by aluminum alloy hangers (9). The ceiling is fitted with a fiberglass high-gloss paint panel (21), which extends upward to the roof and is bent to form a top panel. The top panel is made of fiberglass high-gloss paint panel (21). The top panel is fixed to the roof by a ceiling secondary keel (13) and a ceiling main keel (14). The ceiling main keel (14) is hung on a galvanized wire rod (17). The galvanized wire rod (17) is installed on the roof. The ceiling secondary keel (13) is suspended below the ceiling main keel (14). The ceiling secondary keel (13) is arranged at intervals.
2. The wall panel structure with bidirectional curved fiberglass high-gloss paint as described in claim 1, characterized in that: The vertical keel (4) is fixed to the building floor slab (1) by the top and bottom keels (2) and expansion bolts (3). The expansion bolts (3) are fixed to the top and bottom keels (2) on the building floor slab (1) according to the on-site layout position.
3. The wall panel structure with bidirectional curved fiberglass high-gloss paint as described in claim 1, characterized in that: The U-shaped keel (5) is fixed to the vertical keel (4) by stainless steel countersunk screws (19), and the U-shaped keel (5) is distributed at intervals along the vertical direction.
4. The wall panel structure with bidirectional curved fiberglass high-gloss paint as described in claim 1, 2, or 3, characterized in that: The fiberglass high-gloss paint finish panel (21) includes a glass tank base layer (22), which is made of fiberglass plastic sheet. The surface of the glass tank base layer (22) is treated with a primer treatment surface (23). The primer treatment surface (23) is sprayed with primer and dried and polished to form a high-gloss paint finish (24).
5. The wall panel structure with bidirectional curved fiberglass high-gloss paint as described in claim 1, characterized in that: The aluminum alloy bracket (9) is fixed to the flame-retardant plate (8) and the U-shaped keel (5) by stainless steel screws (10). The back of the fiberglass high-gloss paint panel (21) is fixed with aluminum alloy buckles (25) by stainless steel expansion nails (11). The aluminum alloy buckles (25) on the fiberglass high-gloss paint panel (21) are hung on the aluminum alloy bracket (9).
6. The wall panel structure with bidirectional curved fiberglass high-gloss paint as described in claim 1, characterized in that: The galvanized wire rod (17) is fixedly connected to the ceiling main hanger (15). The ceiling main hanger (15) has a rectangular frame structure with an opening at the upper side in its longitudinal section. The ceiling main keel (14) is located in the lower part of the ceiling main hanger (15) and is fixed by through screws (16).
7. The wall panel structure with bidirectional curved fiberglass high-gloss paint as described in claim 6, characterized in that: The bottom end of the main ceiling hanger (15) is fixedly connected to the secondary ceiling keel (13). The secondary ceiling keel (13) is covered with gypsum board two (12). A wooden keel (18) is provided below the gypsum board two (12), and the wooden keel (18) is used as the base layer. A flame-retardant board (8) is sealed below the wooden keel (18) as the surface layer. The top panel is fixed to the wooden keel (18) by aluminum alloy hangers (9).