Assembled earthquake-adaptable clay plate curtain wall

By combining terracotta curtain wall modules, glass curtain wall modules, and aluminum decorative lines, the problem of difficult installation of traditional terracotta panel curtain walls has been solved, achieving efficient and safe installation of terracotta panel curtain walls and improving assembly efficiency and seismic performance.

CN224351458UActive Publication Date: 2026-06-12FOSHAN KETE ALUMINUM PROD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN KETE ALUMINUM PROD CO LTD
Filing Date
2025-02-17
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Traditional terracotta panel curtain wall installation methods cannot meet the installation requirements of protruding, irregularly shaped, and large heavy terracotta panels, resulting in insufficient assembly applicability.

Method used

The design combines terracotta curtain wall modules, glass curtain wall modules, and aluminum decorative lines. It uses snap-fit ​​connections and screw fixation, with reserved expansion space and shock-absorbing strips to achieve modular installation. Silicone shock-absorbing strips and stainless steel stranded wire protection are designed on the aluminum alloy hangers.

Benefits of technology

It improves the assembly efficiency and seismic performance of terracotta panel curtain walls, meets the safety requirements of high-rise buildings, and prevents terracotta panels from breaking and falling.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224351458U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of assembled earthquake-adaptable pottery clay board curtain walls, specifically relates to pottery clay board curtain wall technical field, including pottery clay curtain wall module and glass curtain wall module, pottery clay curtain wall module is located in the side of glass curtain wall module, pottery clay curtain wall module and glass curtain wall module are clamped and installed with the first aluminum decorative line with backplate, and mutually clamped by the first aluminum decorative line, pottery clay curtain wall module, glass curtain wall module and the first aluminum decorative line are assembled into pottery clay board curtain wall.The utility model carries out modularization assembly to pottery clay board curtain wall, can simplify installation difficulty and improve assembly efficiency, especially adapt to some convex, special-shaped and large-plate heavy pottery clay board installation, and the assembled pottery clay board curtain wall can have good aseismicity, can greatly improve the service life of pottery clay board curtain wall.
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Description

Technical Field

[0001] This utility model relates to the field of terracotta panel curtain wall technology, and more specifically, to a prefabricated terracotta panel curtain wall that is adaptable to earthquakes. Background Technology

[0002] Currently, with the development of the construction industry, terracotta panel curtain walls are increasingly widely used in building facade decoration due to their combination of aesthetics and practicality. Against the backdrop of continuous pursuit of innovation and uniqueness in architectural design, more and more irregularly shaped terracotta panels and large heavy-duty terracotta panels are being designed and applied to curtain walls.

[0003] However, the traditional back-bolt and through-groove methods used for installing terracotta panel curtain walls cannot meet the installation requirements of convex, irregular, and large heavy terracotta panels. This makes it difficult to install terracotta panels on curtain walls and greatly reduces the applicability of various types of terracotta panels for curtain wall assembly. Utility Model Content

[0004] In order to overcome the above-mentioned defects of the prior art, the present invention provides a prefabricated terracotta panel curtain wall that is adaptable to earthquakes, so as to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a prefabricated earthquake-resistant terracotta panel curtain wall, comprising a terracotta curtain wall module and a glass curtain wall module. The terracotta curtain wall module is located on one side of the glass curtain wall module. A first aluminum decorative line with a back plate is interlocked between the terracotta curtain wall module and the glass curtain wall module, and they are interlocked with each other through the first aluminum decorative line. The terracotta curtain wall module, the glass curtain wall module, and the first aluminum decorative line are assembled to form a terracotta panel curtain wall.

[0006] It can be seen that the terracotta panel curtain wall is assembled from terracotta curtain wall modules, glass curtain wall modules and a first aluminum decorative line, which can develop a safer and simpler technical solution for the assembly of irregular or heavy terracotta panels on the curtain wall.

[0007] To facilitate assembly into a terracotta curtain wall module, preferably, the terracotta curtain wall module includes a first terracotta panel body and a second terracotta panel body with a back panel. The first and second terracotta panel bodies are vertically distributed and their ends are horizontally attached to each other. A second aluminum decorative line with a back panel is engaged at the top and bottom of the first and second terracotta panel bodies. Mounting holes are pre-drilled on the surfaces of both the first and second terracotta panel bodies, and screws are installed in the internal threads of the mounting holes. The first and second terracotta panel bodies are connected to the second aluminum decorative line through the mounting holes and screws. A 10mm expansion space is reserved at the connection between the first and second terracotta panel bodies and the second aluminum decorative line to provide allowance for thermal expansion and contraction of the terracotta panels and to absorb vibration displacement under seismic action. The expansion space is filled with shock-absorbing rubber strips to prevent the first and second terracotta panel bodies from breaking and falling due to rigid collisions or dynamic loads.

[0008] In order to be assembled into a glass curtain wall module, preferably, the glass curtain wall module includes a first glass panel, specifically GT2 glass. The first glass panel is located on one side of the first terracotta panel body and the second terracotta panel body. A second glass panel with a back plate is installed at the bottom of the first glass panel, and a third glass panel with a back plate is installed at the top of the first glass panel. Both the second and third glass panels are GT2A glass. A third aluminum decorative line is installed on the outer surfaces of the first, second, and third glass panels.

[0009] The technical effects and advantages of this utility model are as follows:

[0010] This utility model integrates a modular terracotta panel molding process, which simplifies complex work, reduces the difficulty of layout and installation, and greatly improves assembly efficiency.

[0011] The snap-fit ​​installation design of this utility model improves the shock absorption performance of brittle clay panels and meets the requirements of seismic design.

[0012] This utility model adopts secondary protection with steel strands to ensure safety under extreme damage conditions, allowing brittle materials to be used in high-rise or super high-rise buildings, rather than being limited to low-rise decoration. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the overall structure of this utility model.

[0014] Figure 2 This is a cross-sectional view of the present invention.

[0015] Figure 3 This is a BB cross-sectional view of the present invention.

[0016] Figure 4 This is a CC cross-sectional view of the present invention.

[0017] Figure 5 This is a 1-1 cross-sectional view of the present invention.

[0018] Figure 6 This is a 2-2 cross-sectional view of the present invention.

[0019] Figure 7 This is a 3-3 cross-sectional view of the present invention.

[0020] Figure 8 This is a 4-4 cross-sectional view of the present invention.

[0021] The attached figures are labeled as follows: 10, terracotta curtain wall module; 101, first terracotta panel body; 102, second terracotta panel body; 103, second aluminum decorative line; 20, glass curtain wall module; 201, first glass panel; 202, second glass panel; 203, third glass panel; 204, third aluminum decorative line; 30, first aluminum decorative line. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] As attached Figure 1-8 The diagram shows a prefabricated earthquake-resistant terracotta panel curtain wall, comprising a terracotta curtain wall module 10 and a glass curtain wall module 20. The terracotta curtain wall module 10 is located on one side of the glass curtain wall module 20. A first aluminum decorative line 30 with a back plate is interlocked between the terracotta curtain wall module 10 and the glass curtain wall module 20, and they are interlocked with each other through the first aluminum decorative line 30. The terracotta curtain wall module 10, the glass curtain wall module 20 and the first aluminum decorative line 30 are assembled to form a terracotta panel curtain wall.

[0024] It can be seen that the terracotta panel curtain wall structure is assembled from terracotta curtain wall module 10, glass curtain wall module 20 and first aluminum decorative line 30, which facilitates the installation of some protruding, irregular, large-panel heavy terracotta panels and improves the applicability of various terracotta panels in the curtain wall assembly.

[0025] Specifically, the structure described above will be explained below:

[0026] In this embodiment, as shown in the appendix Figure 1 , 3As shown in Figures 5, 6, 7, and 8, the terracotta curtain wall module 10 includes a first terracotta panel body 101 and a second terracotta panel body 102 with a back panel. The first terracotta panel body 101 and the second terracotta panel body 102 are vertically distributed and their ends are horizontally fitted together. A second aluminum decorative line 103 with a back panel is engaged at the top and bottom of both the first terracotta panel body 101 and the second terracotta panel body 102. Mounting holes are pre-drilled on the surfaces of both the first terracotta panel body 101 and the second terracotta panel body 102, and screws are installed in the internal threads of these holes. The first terracotta panel body 101 and the second terracotta panel body 102 are connected to the second aluminum decorative line 103 through mounting holes and screws. A 10mm expansion space is reserved at the connection between the first terracotta panel body 101 and the second terracotta panel body 102 and the second aluminum decorative line 103 to provide a margin for thermal expansion and contraction deformation of the terracotta panel and to absorb vibration displacement under earthquake action. The expansion space is filled with shock-absorbing rubber strips to prevent the first terracotta panel body 101 and the second terracotta panel body 102 from breaking and falling due to rigid collision or dynamic load.

[0027] Specifically, in this structure, a first terracotta plate body 101 and a second terracotta plate body 102 with back plates are used, which are distributed vertically and horizontally attached at the ends. The upper and lower parts of the body are connected to the second aluminum decorative line 103 with back plates through pre-reserved mounting holes on the surface of the terracotta plate and screws installed with internal threads. Expansion space is reserved at the connection and the connection is filled with shock-absorbing rubber strips.

[0028] The terracotta curtain wall module 10, assembled using the above-mentioned structure, utilizes expansion and contraction space and shock-absorbing strips to cope with thermal expansion and contraction and seismic vibration displacement, while preventing rigid collisions and breakage of the terracotta panels. This effectively improves the stability and safety of the terracotta curtain wall module 10 in different environments, ensuring the reliable application of terracotta panel curtain walls.

[0029] In this embodiment, as shown in the appendix Figure 1 , 2 As shown in Figures 5, 6, 7, and 8, the glass curtain wall module 20 includes a first glass panel 201, which is located on one side of the first terracotta panel body 101 and the second terracotta panel body 102. A second glass panel 202 with a back plate is installed at the bottom of the first glass panel 201, and a third glass panel 203 with a back plate is installed at the top of the first glass panel 201. A third aluminum decorative line 204 is installed on the outer surfaces of the first glass panel 201, the second glass panel 202, and the third glass panel 203.

[0030] Specifically, in this structure, the first glass panel 201 is the main body, its bottom is connected to the second glass panel 202 with a back plate, and its top is connected to the third glass panel 203 with a back plate. The outer surfaces of the three glass panels are engaged with the third aluminum decorative line 204, which can enhance the integrity and stability of the glass curtain wall module 20. This not only facilitates installation, but also improves the aesthetic appearance and protective performance of the glass curtain wall, meeting the building's structural and decorative requirements for the glass curtain wall.

[0031] It is worth noting that the first glass plate 201 is GT2 glass, while the second glass plate 202 and the third glass plate 203 are both GT2A glass.

[0032] Working principle of this utility model:

[0033] This application provides a prefabricated earthquake-resistant terracotta panel curtain wall, which consists of a terracotta curtain wall module 10 and a glass curtain wall module 20. The two are connected by a first aluminum decorative line 30 with a back plate and are assembled together to form a terracotta panel curtain wall.

[0034] In the terracotta curtain wall module 10, the first terracotta panel body 101 and the second terracotta panel body 102, which are distributed vertically and horizontally attached at the ends, are connected to the second aluminum decorative line 103 at the top and bottom through screws in the surface mounting holes. The connection is reserved with expansion and contraction space and filled with shock-absorbing rubber strips to cope with the thermal expansion and contraction of the terracotta panel and earthquake vibration, and to prevent collision, breakage and falling.

[0035] The first glass panel 201 of the glass curtain wall module 20 is connected and fixed to the second glass panel 202 and the third glass panel 203 with back panels at the bottom and top, respectively, by the third aluminum decorative line 204 that is snapped onto the outer surface. The modules work together to realize the overall function and performance of the curtain wall.

[0036] The core technology of this application lies in:

[0037] Using a one-time molding process with large 600x1500 terracotta panels, irregular shapes are cut into modular pieces and then reassembled.

[0038] Installing holes are pre-drilled in the terracotta panel according to the design requirements, and an aluminum alloy hanger is designed. It is assembled and fixed with the aluminum alloy frame by screws, and the upper and lower parts are snapped together with the terracotta panel to complete the assembly quickly. This method improves the assembly efficiency by 70% compared with the conventional terracotta panel assembly method. A 10mm expansion space is reserved between the upper and lower clips to provide the terracotta panel with thermal expansion and contraction deformation allowance, and can absorb vibration displacement under earthquake action.

[0039] Design a silicone shock-absorbing strip on the aluminum alloy hanger to prevent the terracotta slab from breaking and falling due to rigid collisions or dynamic loads.

[0040] A stainless steel stranded wire is inserted into the longitudinal holes of the terracotta slab to connect the upper and lower clips, preventing the terracotta slab from breaking and falling under abnormal conditions such as impact.

[0041] Z-shaped aluminum alloy edging is designed around the terracotta panels to protect the edges from impacts.

[0042] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A prefabricated earthquake-resistant terracotta panel curtain wall, comprising a terracotta curtain wall module (10) and a glass curtain wall module (20), characterized in that: The terracotta curtain wall module (10) is located on one side of the glass curtain wall module (20). The terracotta curtain wall module (10) and the glass curtain wall module (20) are fitted together by a first aluminum decorative line (30) with a back plate, and are fitted together by the first aluminum decorative line (30). The terracotta curtain wall module (10), the glass curtain wall module (20), and the first aluminum decorative line (30) are assembled to form a terracotta panel curtain wall.

2. The prefabricated earthquake-resistant terracotta panel curtain wall according to claim 1, characterized in that: The terracotta curtain wall module (10) includes a first terracotta panel body (101) and a second terracotta panel body (102) with a back panel, wherein the first terracotta panel body (101) and the second terracotta panel body (102) are distributed vertically and their ends are horizontally attached to each other.

3. The prefabricated earthquake-resistant terracotta panel curtain wall according to claim 2, characterized in that: The first terracotta panel body (101) and the second terracotta panel body (102) are fitted together at the top and bottom with a second aluminum decorative line (103) with a back plate. The surfaces of the first terracotta panel body (101) and the second terracotta panel body (102) are reserved with mounting holes. Screws are installed in the internal threads of the mounting holes. The first terracotta panel body (101) and the second terracotta panel body (102) are connected to the second aluminum decorative line (103) through the mounting holes and screws.

4. The prefabricated earthquake-resistant terracotta panel curtain wall according to claim 2, characterized in that: The connection between the first terracotta panel body (101) and the second terracotta panel body (102) and the second aluminum decorative line (103) is reserved with expansion space to provide the thermal expansion and contraction deformation margin of the terracotta panel and to absorb the vibration displacement under the action of earthquake. The interior of the telescopic space is filled with shock-absorbing rubber strips to prevent the first terracotta panel body (101) and the second terracotta panel body (102) from breaking and falling due to rigid collisions or dynamic loads.

5. The prefabricated earthquake-resistant terracotta panel curtain wall according to claim 1, characterized in that: The glass curtain wall module (20) includes a first glass panel (201), which is located on one side of the first terracotta panel body (101) and the second terracotta panel body (102). A second glass panel (202) with a back plate is installed at the bottom of the first glass panel (201), and a third glass panel (203) with a back plate is installed at the top of the first glass panel (201).

6. The prefabricated earthquake-resistant terracotta panel curtain wall according to claim 5, characterized in that: The outer surfaces of the first glass plate (201), the second glass plate (202), and the third glass plate (203) are fitted together with a third aluminum decorative line (204).