Super high broken line glass curtain wall system
By combining laminated glass and stainless steel clips, an ultra-high folded glass curtain wall system is constructed, solving the problem of complex connections in traditional glass curtain walls and achieving convenient, efficient installation and aesthetic effects.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANG HAI FU YI MU QIANG GONG CHENG YOU XIAN GONG SI
- Filing Date
- 2025-06-23
- Publication Date
- 2026-07-10
AI Technical Summary
Existing ultra-high all-glass curtain wall structures are insufficient to meet the needs of innovation and practicality, and traditional connection methods are complex and inconvenient.
By combining laminated glass and stainless steel clamps, and connecting them with structural adhesive and countersunk bolts, an ultra-high folded glass curtain wall system is formed, eliminating the glass rib support structure and realizing mutual support between the glass panes.
It improves the ease and precision of installation, enhances the overall quality and aesthetics of the curtain wall, and reduces construction costs.
Smart Images

Figure CN224478614U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an ultra-high folded glass curtain wall system, belonging to the field of building curtain wall technology. Background Technology
[0002] Currently, the construction industry is steadily moving towards diversification and a balance between practicality and aesthetics, and the field of building curtain wall design is no exception. New materials, technologies, and methods are emerging in an endless stream, injecting boundless vitality into modern architecture. To enhance the visual appeal and energy efficiency of building facades, modern curtain wall design is increasingly incorporating ultra-high-rise all-glass curtain wall structures. However, traditional ultra-high-rise all-glass curtain wall structures typically use glass ribs as the supporting structure. With the continuous innovation of building designs, existing all-glass curtain wall forms can no longer meet the market's urgent demand for more innovative and practical products. Therefore, the development of a new type of all-glass curtain wall structure is urgently needed.
[0003] CN201521103463.7 provides a cable-stayed connection structure for a large-span glass curtain wall, comprising: a continuous load-bearing cable fixedly connected to a main structural load-bearing beam; a glass panel; and a horizontal frame fixedly connected to a main structural column, with the glass panel mounted on and supported by the horizontal frame; the load-bearing cable passes through the horizontal frame, supporting it and cooperating in bearing the load. In large-span glass curtain walls, the use of a continuous load-bearing cable simplifies the complexity of the structure and greatly improves reliability.
[0004] CN202321930549.1 discloses a connection structure for load-bearing, large-span glass curtain walls, relating to the field of curtain wall installation technology. The structure includes a connecting strip with a connecting structure. The connecting strip is vertically installed on the building's exterior wall via the connecting structure. A guide plate is fixedly connected to the outer wall of the connecting strip. Multiple threaded holes are opened on the side of the guide plate away from the connecting strip, and a sliding sleeve is fitted onto the outer surface of the guide plate. This application utilizes the cooperative arrangement of structures such as the guide plate, sliding sleeve, support plate, and outer baffle. Because the support plates on both sides of the sliding sleeve are symmetrically distributed, the position of the support plates can be fixed after the first row of curtain walls is installed. Users can directly place the curtain walls on top of the support plates to achieve neat arrangement of multiple rows of curtain walls. This avoids the problem of existing curtain wall connection structures requiring repeated adjustment of the installation of later-installed curtain walls with earlier-installed curtain walls on the same horizontal plane during installation to ensure neat arrangement, which is very inconvenient for users. Summary of the Invention
[0005] The technical problem to be solved by this utility model is to provide an ultra-high folded glass curtain wall system, focusing on the connection problem of ultra-high folded glass curtain walls, and aiming to build a reliable, stable and easy-to-operate connection system.
[0006] To solve the above-mentioned technical problems, this utility model provides an ultra-high folded glass curtain wall system, which is fixed on the curtain wall keel support structure. The planar glass panels are connected to each other by folded lines to form an ultra-high folded glass curtain wall. When the planar glass panels are connected by folded lines, each pair of adjacent glass panels connected by folded lines are bonded at a fixed angle with structural adhesive and fixed with V-shaped stainless steel clips. The planar glass panels are bonded and fixed to the stainless steel clips. The top of one adjacent glass panel is fixed to the top of the planar glass panel with stainless steel clips by fasteners and suspended on the top structure. The bottom of the other adjacent glass panel is inserted into the groove in the form of a U-groove. The bottom of the groove is bonded and fixed to the top side of the adjacent planar glass panel with structural adhesive, so that the two adjacent glass panels support each other.
[0007] This invention eliminates the need for glass ribs as a supporting structure, providing a novel all-glass curtain wall system with a simple structure and reliable connection.
[0008] Based on the above scheme, the flat glass is laminated glass, which is connected together using structural adhesive and stainless steel clips. The bottom of one glass is bonded to the top side of another adjacent glass using structural adhesive. The top of the adjacent glass is fixed to the laminated tempered glass and the stainless steel clips by countersunk bolts.
[0009] Preferably, the flat glass is 12+2.28SGP+12 ultra-clear laminated tempered glass.
[0010] Preferably, the structural adhesive is a high-strength silicone structural sealant.
[0011] Preferably, the stainless steel clamp is a right-angle clamp with a length of 110mm.
[0012] This invention achieves a safe and reliable fixed connection between two adjacent glass panels by using the folded line form of the panel glass, enabling them to support each other.
[0013] This invention eliminates the traditional glass rib structure, which significantly improves the ease of installation and makes the construction process more efficient and smooth. On the other hand, it improves the installation accuracy and ensures the overall quality and aesthetics of the curtain wall. Attached Figure Description
[0014] The invention will now be further described with reference to the accompanying drawings.
[0015] Figure 1 This is a schematic diagram of the planar structure of this utility model;
[0016] Figure 2 A schematic diagram of the adjacent planar glass connection structure of this utility model;
[0017] Explanation of the serial numbers in the diagram:
[0018] 1, 1' – Flat glass; 2 – Stainless steel clip;
[0019] 3—Counterhead bolts;
[0020] 4 - High-strength silicone structural sealant. Detailed Implementation
[0021] This embodiment describes an ultra-high folded glass curtain wall system, fixed to the curtain wall keel support structure, such as... Figure 1 As shown, the planar glass panels are connected by folded lines to form an ultra-high folded glass curtain wall. When the planar glass panels 1 are connected by folded lines, each pair of adjacent glass panels connected by folded lines are bonded at a 90° angle with structural adhesive and fixed with stainless steel clips 2. The side of the planar glass panel 1 is bonded and fixed with the right-angle stainless steel clips 2. The top of an adjacent glass panel is fixed to the stainless steel clips 2 with countersunk bolts 3. The top of the planar glass panel 1 can be fixedly suspended on the top structure of the curtain wall system. The bottom of another adjacent glass panel 1' is inserted into the groove in the form of a U-groove. The bottom of the groove is bonded and fixed to the top side of the adjacent planar glass panel 1 with high-strength silicone structural sealant 4, so that the two adjacent glass panels support each other.
[0022] In this embodiment, the flat glass is 12+2.28SGP+12 ultra-clear laminated tempered glass, and the length of the flat glass is 764mm, forming an ultra-high fold line of 540mm.
[0023] In this embodiment, the structural adhesive is a high-strength silicone structural sealant 4.
[0024] like Figure 2 As shown, the stainless steel clip 2 described in this embodiment is a right-angle clip with a side length of 110mm, and the included angle between adjacent planar glass is 90°.
[0025] The countersunk bolts described in this embodiment are M8 stainless steel countersunk pig-nose bolts.
[0026] During construction, according to Figure 1 and 2 As shown, each pair of adjacent glass panes is bonded at a fixed angle with structural adhesive and secured with V-shaped stainless steel clips. The edges are fixed to the vertical frame with stainless steel clips, and the top is suspended from the top structure using stainless steel plate clamps. The bottom uses a U-shaped groove to insert the glass panes. This design allows adjacent glass panes to support each other, effectively resisting wind loads. This structure is not only stable and reliable, but also simple and elegant in form, significantly enhancing the visual appeal of the curtain wall. Furthermore, the assembly process is convenient and efficient, effectively saving costs. It reduces on-site installation workload, substantially lowers construction costs, and makes a positive contribution to achieving energy conservation and emission reduction goals in building construction.
Claims
1. A super-high folded glass curtain wall system, fixed to a curtain wall keel support structure, wherein planar glass panes are interconnected by folded lines to form a super-high folded glass curtain wall, characterized in that, When the flat glass pieces are connected by folded lines, each pair of adjacent glass pieces connected by folded lines is bonded at a fixed angle with structural adhesive and fixed with V-shaped stainless steel clips. The edges of the flat glass pieces are bonded and fixed with the stainless steel clips. The bottom of the other adjacent glass piece is placed into the groove in the form of a U-groove. The bottom of the groove is bonded and fixed to the top side of the adjacent flat glass piece with structural adhesive, so that the two adjacent glass pieces support each other.
2. The ultra-high folded glass curtain wall system according to claim 1, characterized in that, The flat glass is laminated glass. The laminated glass (1) is connected together using structural adhesive (4) and stainless steel clips (2). The bottom of one adjacent glass is bonded to the top side of another adjacent glass using structural adhesive. The top of the adjacent glass is fixed to the laminated tempered glass and the stainless steel clips by countersunk bolts.
3. The ultra-high folded glass curtain wall system according to claim 1 or 2, characterized in that, The flat glass is made of 12+2.28SGP+12 ultra-clear laminated tempered glass.
4. The ultra-high folded glass curtain wall system according to claim 3, characterized in that, The length of the flat glass is 764mm, forming a super-high fold line of 540mm.
5. The ultra-high folded glass curtain wall system according to claim 1 or 2, characterized in that, The structural adhesive is a high-strength silicone structural sealant.
6. The ultra-high folded glass curtain wall system according to claim 1 or 2, characterized in that, The stainless steel clip is a right-angle clip with a side length of 110mm, and the included angle between adjacent flat glass surfaces is 90°.
7. The ultra-high folded glass curtain wall system according to claim 2, characterized in that, The countersunk bolts mentioned are M8 stainless steel countersunk pig-nose bolts.