A prefabricated glass panel construction structure
By pre-assembling glass frame components and sealing strips in the factory, the design solves the problem of complex installation of traditional unitized curtain wall systems in large-span or high-rise structures, achieving efficient and well-sealed glass panel construction, which is suitable for rapid construction of prefabricated buildings.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DECORATION CO LTD OF CHINA CONSTR 3RD ENG BUREAU
- Filing Date
- 2025-07-14
- Publication Date
- 2026-07-03
AI Technical Summary
Traditional unitized curtain wall systems in large-span or high-rise structures suffer from problems such as heavy components, high hoisting requirements, complex component connections, and strong dependence on the on-site construction environment. It is difficult to achieve a standardized and efficient installation process. Furthermore, glass panels and frames and other components need to be assembled on-site one by one, which leads to problems such as splicing deviation and inadequate sealing.
Prefabricated glass frame components, glass panels, hangers, and connecting bases are pre-assembled in the factory, combined with multiple sealing strips and filling components to form an integral component unit. On-site installation only requires positioning and connection with the wall joists via glass panel hangers, enabling rapid installation of the glass panels.
The pre-assembled glass panel construction structure improves construction efficiency, enhances assembly efficiency and sealing performance, and meets the facade performance requirements of high-rise buildings.
Smart Images

Figure CN224451968U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of prefabricated building construction technology, and in particular relates to a prefabricated glass panel construction structure. Background Technology
[0002] With the continuous advancement of industrialization in the construction industry, prefabricated buildings have gradually become a development trend in the construction sector due to their advantages such as high efficiency, environmental friendliness, energy conservation, and short construction cycles. Prefabricated curtain wall systems, as an important component of this trend, are widely used in modern construction projects such as high-rise buildings, public facilities, and commercial complexes.
[0003] Currently, the most widely used curtain wall types on the market include framed curtain walls and unitized curtain walls. Among them, unitized curtain walls have become the mainstream choice for high-rise buildings due to their good integrity and high degree of prefabrication. However, traditional unitized curtain wall systems often suffer from problems such as heavy components, high hoisting requirements, complex component connections, and strong dependence on the on-site construction environment when facing large-span or high-rise structures, making it difficult to achieve a standardized and efficient installation process. In addition, the degree of prefabrication in factories is limited with existing technologies. Glass panels, frames, hangers, sealing components, and other parts often need to be assembled one by one on-site, which requires a high level of technical skill and work precision from the construction personnel. This can easily lead to quality problems such as splicing deviations and inadequate sealing, affecting the overall performance and aesthetics of the curtain wall. Utility Model Content
[0004] The purpose of this invention is to provide a prefabricated glass panel construction structure.
[0005] The technical solution of this utility model to solve the above-mentioned technical problems is as follows: A prefabricated glass panel construction structure, comprising: a glass frame assembly, a glass panel, a glass panel hanger, a connecting base, and a glass support plate; the glass frame assembly includes a first outer frame, a second outer frame, and an outer frame connector, the outer frame connector being connected between the first outer frame and the second outer frame, and an outer frame connecting bolt being provided between the first outer frame and the second outer frame; the first outer frame is provided with a hanger slot; a second cover plate is connected to the second outer frame; the first outer frame, the outer frame connector, the second outer frame, and the second cover plate are described. A glass mounting groove is formed; the glass frame assembly is installed around the glass panel, and the glass panel is installed in the glass mounting groove; a first sealing strip is provided between the glass panel and the second cover plate, and a second sealing strip is provided between the glass panel and the first outer frame; a first filling assembly is provided in the glass mounting groove; one end of the glass panel hanger is connected to the glass frame assembly; the connecting base is connected to the wall keel through base fixing bolts, and the other end of the glass panel hanger is connected to the connecting base; the glass support plate is connected to the wall keel, and the glass support plate is set at the lower part of the glass frame assembly.
[0006] The prefabricated glass panel construction structure described above further includes a first filling component comprising a glass pad, a first glue rod, and a first sealant layer, wherein the first sealant layer is close to the second cover plate, and the first glue rod is located between the glass pad and the first sealant layer.
[0007] The prefabricated glass panel construction structure described above further includes, in part, an upper connector and a lower connector for the connecting base; and a first connector and a second connector for the glass panel hanger, wherein the first connector is connected to the glass frame assembly at the lower end of the glass panel, and the second connector is connected to the glass frame assembly at the upper end of the glass panel.
[0008] The prefabricated glass panel construction structure described above further includes the following: the first hanger has an S-shaped structure, comprising a left clamping plate, a right clamping plate, and a connector; a space for accommodating the upper connector is formed between the left and right clamping plates; the second hanger has an E-shaped structure, comprising a left clamping plate, a right clamping plate, and a connector; a space for accommodating the lower connector is formed between the left and right clamping plates; the first and second connectors are respectively inserted into the hanger slots provided on the first outer frame.
[0009] The prefabricated glass panel construction structure described above further includes pins, which are connected between the first hanger and the upper insert; the pins are also connected between the second hanger and the lower insert.
[0010] The prefabricated glass panel construction structure described above further includes a second filling component between the glass frame components corresponding to the upper and lower adjacent glass panels. The second filling component includes a caulking strip, a second sealing layer, and a second glue rod. A caulking strip slot is provided on the side of the second outer frame near the second cover plate. The connecting part of the caulking strip is inserted into the caulking strip slot. The second sealing layer is located between the second glue rod and the caulking strip.
[0011] The prefabricated glass panel construction structure described above further includes a third sealing strip, which is disposed between the glass frame components corresponding to the upper and lower adjacent glass panels.
[0012] The prefabricated glass panel construction structure described above further includes a first cover plate, which is connected to the first outer frame and is located on the side of the glass panel near the wall joists.
[0013] The technical solution of this utility model has the following beneficial effects:
[0014] 1. Improve assembly efficiency and shorten construction cycle; glass panels, frame components and hanging parts can all be pre-assembled into component units in the factory, and only positioning and installation are required on the construction site, which greatly reduces the complexity of on-site operations, improves construction efficiency and assembly speed, and is suitable for the rapid construction needs of prefabricated buildings.
[0015] 2. Enhance sealing performance and improve building envelope effect; by setting multiple sealing strips (first, second, and third sealing strips) and multi-layer filling components (first and second filling components), the gaps between the panel and the frame, and between the frames, are effectively sealed, improving air tightness and water tightness, and meeting the performance requirements of the facade of high-rise buildings. Attached Figure Description
[0016] The advantages of the present invention, as described above and / or in the following detailed description in conjunction with the accompanying drawings, will become clearer and more readily understood. These drawings are merely illustrative and do not limit the scope of the present invention.
[0017] Figure 1 This is a schematic diagram of the construction structure of a prefabricated glass panel according to an embodiment of the present invention;
[0018] Figure 2 for Figure 1 A magnified view of a portion of the image;
[0019] Figure 3 This is a schematic diagram of a glass frame assembly according to an embodiment of the present invention;
[0020] Figure 4 This is a schematic diagram of a glass frame assembly and glass installation according to an embodiment of the present invention;
[0021] Figure 5 This is a schematic diagram of a glass panel hanger and connecting base according to an embodiment of the present invention;
[0022] Figure 6 This is a schematic diagram of the construction structure of the assembled glass panel according to another embodiment of the present invention.
[0023] The attached diagram lists the components represented by each number as follows:
[0024] 10. Wall-mounted keel; 20. Connecting base; 21. Upper connector; 22. Lower connector; 23. Base fixing bolts; 30. Glass panel hanger; 31. First hanger; 311. Left clamp of first hanger; 312. Right clamp of first hanger; 313. Connector of first hanger; 32. Second hanger; 321. Left clamp of second hanger; 322. Right clamp of second hanger; 323. Connector of second hanger; 33. Pin; 40. Glass support plate; 50. Glass panel; 51. First sealing strip; 52. 60. Second sealing strip, glass frame assembly, 61. First outer frame, 62. Outer frame connector, 63. Second outer frame, 64. Outer frame connecting bolt, 65. First cover plate, 66. Second cover plate, 67. Hanger slot, 68. Glass mounting groove, 69. Sealant strip slot, 70. First filling assembly, 71. Glass pad, 72. First glue rod, 73. First sealing layer, 80. Second filling assembly, 81. Sealant strip, 82. Second sealing layer, 83. Second glue rod, 90. Third sealing strip. Detailed Implementation
[0025] In the following description, embodiments of the prefabricated glass panel construction structure of this utility model will be described with reference to the accompanying drawings.
[0026] The embodiments described herein are specific implementations of this utility model, used to illustrate the concept of this utility model. They are all illustrative and exemplary, and should not be construed as limiting the implementation methods or scope of this utility model. In addition to the embodiments described herein, those skilled in the art can employ other obvious technical solutions based on the content disclosed in the claims and specification of this application. These technical solutions include those that make any obvious substitutions and modifications to the embodiments described herein.
[0027] The accompanying drawings in this specification are schematic diagrams used to illustrate the concept of this utility model, and schematically show the shapes of the various parts and their interrelationships. Please note that, in order to clearly show the structure of the components of the embodiments of this utility model, the drawings are not drawn to the same scale. The same reference numerals are used to indicate the same parts.
[0028] Combination Figures 1 to 6 This invention describes an embodiment of a prefabricated glass panel construction structure, which includes:
[0029] Glass frame assembly 60, such as Figure 3 and Figure 4As shown, the glass frame assembly 60 includes a first outer frame 61, a second outer frame 63, and an outer frame connector 62. The outer frame connector 62 connects the first outer frame 61 and the second outer frame 63. An outer frame connecting bolt 64 is also provided between the first outer frame 61 and the second outer frame 63. On the side where the first and second outer frames connect, slots are provided respectively. Both ends of the outer frame connector have insertion parts corresponding to the slots. Inserting the insertion parts into the corresponding slots connects the first and second outer frames. The outer frame connecting bolts are then screwed into the first and second outer frames respectively for further fixation. Figure 4 As shown, the first outer frame 61 is provided with a hanging slot 67; the second cover plate 66 is connected to the second outer frame 63; the first outer frame 61, the outer frame connector 62, the second outer frame 63 and the second cover plate 66 constitute a glass mounting groove 68;
[0030] The aforementioned glass frame assembly 60 is installed around the glass panel 50, which is installed within the glass mounting groove 68. The glass panel is preferably double-layered laminated glass. A first sealing strip 51 is provided between the glass panel 50 and the second cover plate 66, and a second sealing strip 52 is provided between the glass panel 50 and the first outer frame 61. The first and second sealing strips prevent collisions between the glass and the outer frame, and also prevent debris from entering the gap between the glass panel and the glass frame assembly. A first filling component 70 is provided within the glass mounting groove 68, i.e., a first filling component is provided between the first outer frame, the outer frame connector, the second outer frame, and the glass panel. In a preferred embodiment of the prefabricated glass panel construction structure, as shown... Figure 4 As shown, the first filling component 70 includes a glass pad 71, a first adhesive rod 72, and a first sealant layer 73. The first sealant layer 73 is close to the second cover plate 66, and the first adhesive rod 72 is located between the glass pad 71 and the first sealant layer 73. The glass frame assembly and glass panel of this invention are pre-assembled into pre-assemblies in a prefabrication plant for handling and transportation as a whole structure. During prefabrication and assembly, the glass pad is first installed in place, then the first adhesive rod is installed, and finally, sealant is applied to form the first sealant layer. The first filling component prevents collisions between the glass and the outer frame and also prevents debris from entering the gap between the glass panel and the glass frame assembly.
[0031] A glass panel hanger 30 is provided, with one end of the hanger 30 connected to a glass frame assembly 60; in a preferred embodiment of a prefabricated glass panel construction structure, such as Figure 5As shown, the glass panel hanger 30 includes a first hanger 31 and a second hanger 32. The first hanger 31 has an S-shaped structure and includes a left clamping plate 311, a right clamping plate 312, and a connector 313. A space is formed between the left clamping plate 311 and the right clamping plate 312 to accommodate the upper connector 21. The second hanger 32 has an E-shaped structure and includes a left clamping plate 321, a right clamping plate 322, and a connector 323. A space is formed between the left clamping plate 321 and the right clamping plate 322 to accommodate the lower connector 22. The first connector 313 and the second connector 323 are respectively inserted into the hanger slots 67 provided on the first outer frame 61. In a preferred embodiment of the prefabricated glass panel construction structure, as shown... Figure 3 and 4 As shown, it also includes a first cover plate 65, which is connected to the first outer frame 61. The first cover plate 65 is located on the side of the glass panel 50 near the wall joist 10.
[0032] A connecting base 20 is connected to the wall-mounted keel 10 via base fixing bolts 23, and the other end of the glass panel hanger 30 is connected to the connecting base 20; in a preferred embodiment of the prefabricated glass panel construction structure, such as Figure 5 As shown, the connecting base 20 includes an upper connector 21 and a lower connector 22; the glass panel hanger 30 includes a first hanger 31 and a second hanger 32, the first hanger 31 being connected to the glass frame assembly 60 at the lower end of the glass panel 50, and the second hanger 32 being connected to the glass frame assembly 60 at the upper end of the glass panel 50. In a preferred embodiment of the prefabricated glass panel construction structure, as... Figure 5 As shown, it also includes a pin 33, which connects the first hanger 31 and the upper connector 21; the pin 33 connects the second hanger 32 and the lower connector 22.
[0033] Glass tray 40, such as Figure 6As shown, the glass support plate 40 is connected to the wall joist 10 and is located at the lower part of the glass frame assembly 60. In a preferred embodiment, the glass support plate is made of stainless steel, which provides sufficient support strength and has good weather resistance. The glass support plate is preferably connected to the wall joist 10 using base fixing bolts 23, that is, the base fixing bolts 23 are used to fix both the base and the glass support plate simultaneously. The third sealing strip may not be provided at the intersection of the glass support plate and the third sealing strip. In another embodiment, the glass support plate may not be provided, and the glass panel may be installed solely using the glass panel hanger. In this embodiment with a glass support plate, the function of the glass support plate is to support the glass panel above it when the glass panel hanger fails and falls off. Furthermore, when the glass panel hanger is intact, supporting it can also reduce the pressure exerted by the glass panel on the glass panel hanger.
[0034] In the construction structure of the above embodiments of this utility model, the glass panel, frame components and hanging parts can all be pre-assembled into component units in the factory. Only positioning and installation are required on the construction site, which greatly reduces the complexity of on-site operations, improves construction efficiency and assembly speed, and is suitable for the rapid construction needs of prefabricated buildings.
[0035] In a preferred embodiment of the prefabricated glass panel construction structure, such as Figure 2 As shown, a second filling component 80 is provided between the glass frame assemblies 60 corresponding to the upper and lower adjacent glass panels 50. The second filling component 80 includes a caulking strip 81, a second sealant layer 82, and a second adhesive rod 83. A caulking strip slot 69 is provided on the side of the second outer frame 63 near the second cover plate 66. The connecting part of the caulking strip 81 is inserted into the caulking strip slot 69, and the second sealant layer 82 is located between the second adhesive rod 83 and the caulking strip 81. Since there is a seam between the glass frame assemblies corresponding to the upper and lower adjacent glass panels, the second filling component can fill the seam, which not only serves an aesthetic decoration purpose but also seals the seam and prevents debris from entering the seam. During construction, the second rubber rod can be installed first, then the sealant can be applied to form the second sealant layer, and finally the caulking strip can be installed on the outside.
[0036] In a preferred embodiment of the prefabricated glass panel construction structure, such as Figure 2 As shown, it also includes a third sealing strip 90, which is disposed between the glass frame assemblies 60 corresponding to the upper and lower adjacent glass panels 50. Specifically, as... Figure 3 and Figure 4 As shown, a slot is provided at the lower part of the first outer frame 61, and the third sealing strip is inserted into the slot, as shown. Figure 2 As shown. In Figure 2In the preferred embodiment shown, the third sealing strip has an isosceles trapezoidal cross-section and is equipped with a snap-fit plug adapted to the slot structure. By providing a third sealing strip on the first outer frame below the upper glass panel and on the first outer frame above the adjacent lower glass panel, and ensuring that the two abut against each other, damage caused by displacement or impact to the glass frame assembly can be prevented. By providing multiple sealing strips (first, second, and third sealing strips) and multiple layers of filling components (first and second filling components), gaps between the panel and the frame, and between the frames, are effectively sealed, improving airtightness and watertightness, and meeting the performance requirements of the facade of high-rise buildings.
[0037] The technical features disclosed above are not limited to the combinations of the disclosed features with other features. Those skilled in the art can also make other combinations of the technical features according to the purpose of the utility model in order to achieve the purpose of the utility model.
Claims
1. A fabricated glass panel construction structure, characterized by, include: The glass frame assembly (60), glass panel (50), glass panel hanger (30), connecting base (20), and glass support plate (40) are provided. The glass frame assembly (60) includes a first outer frame (61), a second outer frame (63), and an outer frame connector (62). The outer frame connector (62) is connected between the first outer frame (61) and the second outer frame (63). An outer frame connecting bolt (64) is also provided between the first outer frame (61) and the second outer frame (63). The first outer frame (61) is provided with a hanger slot (67). A second cover plate (66) is connected to the second outer frame (63). The first outer frame (61), the outer frame connector (62), the second outer frame (63), and the second cover plate (66) constitute a glass mounting groove (68). 0) Installed around the glass panel (50), the glass panel (50) is installed in the glass mounting groove (68); a first sealing strip (51) is provided between the glass panel (50) and the second cover plate (66), and a second sealing strip (52) is provided between the glass panel (50) and the first outer frame (61); a first filling component (70) is provided in the glass mounting groove (68); one end of the glass panel hanger (30) is connected to the glass frame assembly (60); the connecting base (20) is connected to the wall keel (10) through the base fixing bolt (23), and the other end of the glass panel hanger (30) is connected to the connecting base (20); the glass support plate (40) is connected to the wall keel (10), and the glass support plate (40) is set at the lower part of the glass frame assembly (60).
2. The fabricated glass panel construction structure according to claim 1, wherein The first filling component (70) includes a glass pad (71), a first glue rod (72) and a first sealant layer (73), the first sealant layer (73) being close to the second cover plate (66), and the first glue rod (72) being located between the glass pad (71) and the first sealant layer (73).
3. The fabricated glass panel construction structure according to claim 1, wherein The connecting base (20) includes an upper connector (21) and a lower connector (22); the glass panel hanger (30) includes a first hanger (31) and a second hanger (32), the first hanger (31) is connected to the glass frame assembly (60) at the lower end of the glass panel (50), and the second hanger (32) is connected to the glass frame assembly (60) at the upper end of the glass panel (50).
4. The fabricated glass panel construction structure according to claim 3, wherein The first pendant (31) has an S-shaped structure and includes a first pendant left clamp (311), a first pendant right clamp (312), and a first pendant connector (313). A space for accommodating the upper connector (21) is formed between the first pendant left clamp (311) and the first pendant right clamp (312). The second pendant (32) has an E-shaped structure and includes a second pendant left clamp (321), a second pendant right clamp (322), and a second pendant connector (323). A space for accommodating the lower connector (22) is formed between the second pendant left clamp (321) and the second pendant right clamp (322). The first pendant connector (313) and the second pendant connector (323) are respectively inserted into the pendant slots (67) provided on the first outer frame (61).
5. The fabricated glass panel construction structure according to claim 4, wherein It also includes a pin (33) that connects the first hanger (31) and the upper connector (21); and the pin (33) that connects the second hanger (32) and the lower connector (22).
6. The fabricated glass panel construction structure according to claim 1, wherein A second filling component (80) is provided between the glass frame components (60) corresponding to the upper and lower adjacent glass panels (50). The second filling component (80) includes a caulking strip (81), a second sealant layer (82), and a second glue rod (83). A caulking strip slot (69) is provided on the side of the second outer frame (63) near the second cover plate (66). The connecting part of the caulking strip (81) is inserted into the caulking strip slot (69). The second sealant layer (82) is located between the second glue rod (83) and the caulking strip (81).
7. The fabricated glass panel construction structure according to claim 1, wherein It also includes a third sealing strip (90), which is disposed between the glass frame assemblies (60) corresponding to the upper and lower adjacent glass panels (50).
8. The fabricated glass panel construction structure according to claim 1, wherein, It also includes a first cover plate (65), which is connected to the first outer frame (61) and is located on the side of the glass panel (50) near the wall joist (10).